Section 55

EurekaMag PDF full texts Chapter 54,180


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D'Cruz, L.M.; Lind, K.Camfield.; Wu, B.Bei.; Fujimoto, J.K.; Goldrath, A.W. 2012: Loss of E protein transcription factors E2A and HEB delays memory-precursor formation during the CD8+ T-cell immune response. European Journal of Immunology 42(8): 2031-2041
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Bae, G.-Y.; Choi, S.-J.; Lee, J.-S.; Jo, J.; Lee, J.; Kim, J.; Cha, H.-J. 2013: Loss of E-cadherin activates EGFR-MEK/ERK signaling, which promotes invasion via the ZEB1/MMP2 axis in non-small cell lung cancer. Oncotarget 4(12): 2512-2522
Myong, N.-H. 2012: Loss of E-cadherin and Acquisition of Vimentin in Epithelial-Mesenchymal Transition are Noble Indicators of Uterine Cervix Cancer Progression. Korean Journal of Pathology 46(4): 341-348
Kang, H.; Min, B.S.; Lee, K.Y.; Kim, N.K.; Kim, S.N.; Choi, J.; Kim, H. 2011: Loss of E-cadherin and MUC2 expressions correlated with poor survival in patients with stages Ii and IIi colorectal carcinoma. Annals of Surgical Oncology 18(3): 711-719
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Kim, M.-J.; Jang, S.-J.; Yu, E. 2008: Loss of E-cadherin and cytoplasmic-nuclear expression of beta-catenin are the most useful immunoprofiles in the diagnosis of solid-pseudopapillary neoplasm of the pancreas. Human Pathology 39(2): 251-258
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Mimata, A.; Fukamachi, H.; Eishi, Y.; Yuasa, Y. 2011: Loss of E-cadherin in mouse gastric epithelial cells induces signet ring-like cells, a possible precursor lesion of diffuse gastric cancer. Cancer Science 102(5): 942-950
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Karamitopoulou, E.; Zlobec, I.; Patsouris, E.; Peros, G.; Lugli, A. 2011: Loss of E-cadherin independently predicts the lymph node status in colorectal cancer. Pathology 43(2): 133-137
Hollestelle, A.; Peeters, J.K.; Smid, M.; Timmermans, M.; Verhoog, L.C.; Westenend, P.J.; Heine, A.A.J.; Chan, A.; Sieuwerts, A.M.; Wiemer, E.A.C.; Klijn, J.G.M.; van der Spek, P.J.; Foekens, J.A.; Schutte, M.; den Bakker, M.A.; Martens, J.W.M. 2013: Loss of E-cadherin is not a necessity for epithelial to mesenchymal transition in human breast cancer. Breast Cancer Research and Treatment 138(1): 47-57
Techasen, A.; Loilome, W.; Namwat, N.; Khuntikeo, N.; Puapairoj, A.; Jearanaikoon, P.; Saya, H.; Yongvanit, P. 2014: Loss of E-cadherin promotes migration and invasion of cholangiocarcinoma cells and serves as a potential marker of metastasis. Tumour Biology: the Journal of the International Society for Oncodevelopmental Biology and Medicine 35(9): 8645-8652
Sawada, K.; Mitra, A.K.; Radjabi, A.R.; Bhaskar, V.; Kistner, E.O.; Tretiakova, M.; Jagadeeswaran, S.; Montag, A.; Becker, A.; Kenny, H.A.; Peter, M.E.; Ramakrishnan, V.; Yamada, S.D.; Lengyel, E. 2008: Loss of E-cadherin promotes ovarian cancer metastasis via alpha 5-integrin, which is a therapeutic target. Cancer Research 68(7): 2329-2339
Fan, L.; Wang, H.; Xia, X.; Rao, Y.; Ma, X.; Ma, D.; Wu, P.; Chen, G. 2012: Loss of E-cadherin promotes prostate cancer metastasis via upregulation of metastasis-associated gene 1 expression. Oncology Letters 4(6): 1225-1233
Chen, X.; Wang, Y.; Xia, H.; Wang, Q.; Jiang, X.; Lin, Z.; Ma, Y.; Yang, Y.; Hu, M. 2012: Loss of E-cadherin promotes the growth, invasion and drug resistance of colorectal cancer cells and is associated with liver metastasis. Molecular Biology Reports 39(6): 6707-6714
Huet, G.; Mérot, Y.; Le Dily, F.ço.; Kern, L.; Ferrière, F.ço.; Saligaut, C.; Boujrad, N.; Pakdel, F.; Métivier, R.ël.; Flouriot, G. 2008: Loss of E-cadherin-mediated cell contacts reduces estrogen receptor alpha (ER alpha) transcriptional efficiency by affecting the respective contribution exerted by AF1 and AF2 transactivation functions. Biochemical and Biophysical Research Communications 365(2): 304-309
Knirsh, R.; Ben-Dror, I.; Spangler, B.; Matthews, G.D.; Kuphal, S.; Bosserhoff, A.K.; Vardimon, L. 2009: Loss of E-cadherin-mediated cell-cell contacts activates a novel mechanism for up-regulation of the proto-oncogene c-Jun. Molecular Biology of the Cell 20(7): 2121-2129
Xu, S.; Weihua, Z. 2011: Loss of EGFR induced autophagy sensitizes hormone refractory prostate cancer cells to adriamycin. Prostate 71(11): 1216-1224
Siu, M.K.; Abou-Kheir, W.; Yin, J.J.; Chang, Y.-S.; Barrett, B.; Suau, F.; Casey, O.; Chen, W.-Y.; Fang, L.; Hynes, P.; Hsieh, Y.-Y.; Liu, Y.-N.; Huang, J.; Kelly, K. 2014: Loss of EGFR signaling regulated miR-203 promotes prostate cancer bone metastasis and tyrosine kinase inhibitors resistance. Oncotarget 5(11): 3770-3784
Lejeune, M.; Moreau, F.; Chadee, K. 2014: Loss of EP2 receptor subtype in colonic cells compromise epithelial barrier integrity by altering claudin-4. Plos one 9(11): E113270
Rudnik, V.; Sanyal, A.; Syed, F.A.; Monroe, D.G.; Spelsberg, T.C.; Oursler, M.J.; Khosla, S. 2008: Loss of ERE binding activity by estrogen receptor-alpha alters basal and estrogen-stimulated bone-related gene expression by osteoblastic cells. Journal of Cellular Biochemistry 103(3): 896-907
McCune, K.; Mehta, R.; Thorat, M.A.; Badve, S.; Nakshatri, H. 2010: Loss of ERα and FOXA1 expression in a progression model of luminal type breast cancer: insights from PyMT transgenic mouse model. Oncology Reports 24(5): 1233-1239
Ahn, H.Y.; Kim, M.S.; Kim, M.J.; Cho, S.Y.; Kim, Y.A.; Lee, G.H.; Lee, B.-C.; Park, Y.J.; Yi, K.H. 2015: Loss of ERβ expression in papillary thyroid carcinoma is associated with recurrence in young female. Clinical Endocrinology 82(2): 300-306
Depontieu, F.; Grigoriu, B.-D.; Scherpereel, A.; Adam, E.; Delehedde, M.; Gosset, P.; Lassalle, P. 2008: Loss of Endocan tumorigenic properties after alternative splicing of exon 2. Bmc Cancer 8: 14
Bogan, C.; Chen, J.; O'Sullivan, M.G.; Cormier, R.T. 2009: Loss of EphA2 receptor tyrosine kinase reduces ApcMin/+ tumorigenesis. International Journal of Cancer 124(6): 1366-1371
Peng, L.; Tu, P.; Wang, X.; Shi, S.; Zhou, X.; Wang, J. 2014: Loss of EphB6 protein expression in human colorectal cancer correlates with poor prognosis. Journal of Molecular Histology 45(5): 555-563
Teo, W.-L.; Tan, S.-Y. 2011: Loss of Epstein-Barr virus-encoded RNA expression in cutaneous dissemination of natural killer/T-cell lymphoma. Journal of Clinical Oncology: Official Journal of the American Society of Clinical Oncology 29(12): E342-E343
Klinger, S.; Turgeon, B.; Lévesque, K.; Wood, G.A.; Aagaard-Tillery, K.M.; Meloche, S. 2009: Loss of Erk3 function in mice leads to intrauterine growth restriction, pulmonary immaturity, and neonatal lethality. Proceedings of the National Academy of Sciences of the United States of America 106(39): 16710-16715
Manrique, C.; Lastra, G.; Habibi, J.; Mugerfeld, I.; Garro, M.; Sowers, J.R. 2012: Loss of Estrogen Receptor α Signaling Leads to Insulin Resistance and Obesity in Young and Adult Female Mice. Cardiorenal Medicine 2(3): 200-210
Tyagi, G.; Carnes, K.; Morrow, C.; Kostereva, N.V.; Ekman, G.C.; Meling, D.D.; Hostetler, C.; Griswold, M.; Murphy, K.M.; Hess, R.A.; Hofmann, M.-C.; Cooke, P.S. 2009: Loss of Etv5 decreases proliferation and RET levels in neonatal mouse testicular germ cells and causes an abnormal first wave of spermatogenesis. Biology of Reproduction 81(2): 258-266
Enkhbold, C.; Utsunomiya, T.; Morine, Y.; Imura, S.; Ikemoto, T.; Arakawa, Y.; Kanamoto, M.; Iwahashi, S.; Saito, Y.; Ishikawa, D.; Shimada, M. 2014: Loss of FBXW7 expression is associated with poor prognosis in intrahepatic cholangiocarcinoma. Hepatology Research: the Official Journal of the Japan Society of Hepatology 44(14): E346-E352
Iwatsuki, M.; Mimori, K.; Ishii, H.; Yokobori, T.; Takatsuno, Y.; Sato, T.; Toh, H.; Onoyama, I.; Nakayama, K.I.; Baba, H.; Mori, M. 2010: Loss of FBXW7, a cell cycle regulating gene, in colorectal cancer: clinical significance. International Journal of Cancer 126(8): 1828-1837
Olivera-Martinez, I.; Harada, H.; Halley, P.A.; Storey, K.G. 2012: Loss of FGF-dependent mesoderm identity and rise of endogenous retinoid signalling determine cessation of body axis elongation. Plos Biology 10(10): E1001415
Domenighetti, A.A.; Chu, P.-H.; Wu, T.; Sheikh, F.; Gokhin, D.S.; Guo, L.T.; Cui, Z.; Peter, A.K.; Christodoulou, D.C.; Parfenov, M.G.; Gorham, J.M.; Li, D.Y.; Banerjee, I.; Lai, X.; Witzmann, F.A.; Seidman, C.E.; Seidman, J.G.; Gomes, A.V.; Shelton, G.D.; Lieber, R.L.; Chen, J. 2014: Loss of FHL1 induces an age-dependent skeletal muscle myopathy associated with myofibrillar and intermyofibrillar disorganization in mice. Human Molecular Genetics 23(1): 209-225
Maeda, K.; Nagawawa, T. 2010: Loss of FHR variability diagnosed by frequency analysis. Journal of Perinatal Medicine 38(2): 197-201
Melko, M.; Nguyen, L.S.; Shaw, M.; Jolly, L.; Bardoni, B.; Gecz, J. 2013: Loss of FMR2 further emphasizes the link between deregulation of immediate early response genes FOS and JUN and intellectual disability. Human Molecular Genetics 22(15): 2984-2991
Song, Y.; Washington, M.K.; Crawford, H.C. 2010: Loss of FOXA1/2 is essential for the epithelial-to-mesenchymal transition in pancreatic cancer. Cancer Research 70(5): 2115-2125
Osborn, D.P.S.; Roccasecca, R.M.; McMurray, F.; Hernandez-Hernandez, V.; Mukherjee, S.; Barroso, I.ês.; Stemple, D.; Cox, R.; Beales, P.L.; Christou-Savina, S. 2014: Loss of FTO antagonises Wnt signaling and leads to developmental defects associated with ciliopathies. Plos one 9(2): E87662
Baumgarten, P.; Harter, P.N.; Tönjes, M.; Capper, D.; Blank, A.-E.; Sahm, F.; von Deimling, A.; Kolluru, V.; Schwamb, B.; Rabenhorst, U.; Starzetz, T.; Kögel, D.; Rieker, R.J.; Plate, K.H.; Ohgaki, H.; Radlwimmer, B.; Zörnig, M.; Mittelbronn, M. 2014: Loss of FUBP1 expression in gliomas predicts FUBP1 mutation and is associated with oligodendroglial differentiation, IDH1 mutation and 1p/19q loss of heterozygosity. Neuropathology and Applied Neurobiology 40(2): 205-216
Grammatikos, S.; Harvey, M.; Subbaiah, P.; Victor, T.; Miller, W. 1995: Loss of Fatty-Acid delta(6) desaturating ability in human mammary epithelial-cells that express an activated C-ha-ras oncogene. International Journal of Oncology 6(5): 1039-1046
Sancho, R.; Gruber, R.; Gu, G.; Behrens, A. 2014: Loss of Fbw7 reprograms adult pancreatic ductal cells into α, δ, and β cells. Cell Stem Cell 15(2): 139-153
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Lee, Y.-Y.; Belas, R. 2015: Loss of FliL alters Proteus mirabilis surface sensing and temperature-dependent swarming. Journal of Bacteriology 197(1): 159-173
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Banks-Davis, H.J. 1928: Loss of Function in Left Internal Ear and Labyrinth, caused by War Injury. Proceedings of the Royal Society of Medicine 21(5): 876-877
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Ortolano, S.; Vieitez, I.; Agis-Balboa, R.C.; Spuch, C. 2014: Loss of GABAergic cortical neurons underlies the neuropathology of Lafora disease. Molecular Brain 7: 7
Meisner, J.G.; Marsh, A.D.; Marsh, D.R. 2010: Loss of GABAergic interneurons in laminae I-III of the spinal cord dorsal horn contributes to reduced GABAergic tone and neuropathic pain after spinal cord injury. Journal of Neurotrauma 27(4): 729-737
Sgadò, P.; Genovesi, S.; Kalinovsky, A.; Zunino, G.; Macchi, F.; Allegra, M.; Murenu, E.; Provenzano, G.; Tripathi, P.P.; Casarosa, S.; Joyner, A.L.; Bozzi, Y. 2013: Loss of GABAergic neurons in the hippocampus and cerebral cortex of Engrailed-2 null mutant mice: implications for autism spectrum disorders. Experimental Neurology 247: 496-505
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Jamsai, D.; O'Connor, A.E.; Deboer, K.D.; Clark, B.J.; Smith, S.J.; Browne, C.M.; Bensley, J.G.; Merriman, J.A.; Yuen, W.S.; Koopman, P.; Jones, K.T.; O'Bryan, M.K. 2013: Loss of GGN leads to pre-implantation embryonic lethality and compromised male meiotic DNA double strand break repair in the mouse. Plos one 8(2): E56955
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Stein, A.B.; Jones, T.A.; Herron, T.J.; Patel, S.R.; Day, S.M.; Noujaim, S.F.; Milstein, M.L.; Klos, M.; Furspan, P.B.; Jalife, J.é; Dressler, G.R. 2011: Loss of H3K4 methylation destabilizes gene expression patterns and physiological functions in adult murine cardiomyocytes. Journal of Clinical Investigation 121(7): 2641-2650
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Schellens, I.M.M.; Navis, M.; van Deutekom, H.W.M.; Boeser-Nunnink, B.; Berkhout, B.; Kootstra, N.; Miedema, F.; Keşmir, C.; Schuitemaker, H.; van Baarle, D.; Borghans, J.é A.M. 2011: Loss of HIV-1-derived cytotoxic T lymphocyte epitopes restricted by protective HLA-B alleles during the HIV-1 epidemic. Aids 25(14): 1691-1700
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Bernd, H.-W.; Ziepert, M.; Thorns, C.; Klapper, W.; Wacker, H.-H.; Hummel, M.; Stein, H.; Hansmann, M.-L.; Ott, G.; Rosenwald, A.; Müller-Hermelink, H.-K.; Barth, T.F.E.; Möller, P.; Cogliatti, S.B.; Pfreundschuh, M.; Schmitz, N.; Trümper, L.; Höller, S.; Löffler, M.; Feller, A.C. 2009: Loss of HLA-DR expression and immunoblastic morphology predict adverse outcome in diffuse large B-cell lymphoma - analyses of cases from two prospective randomized clinical trials. Haematologica 94(11): 1569-1580
Ranji, P.; Rauthan, M.; Pitot, C.; Pilon, M. 2014: Loss of HMG-CoA reductase in C. elegans causes defects in protein prenylation and muscle mitochondria. Plos one 9(2): E100033
Nakayama, I.; Shibazaki, M.; Yashima-Abo, A.; Miura, F.; Sugiyama, T.; Masuda, T.; Maesawa, C. 2013: Loss of HOXD10 expression induced by upregulation of miR-10b accelerates the migration and invasion activities of ovarian cancer cells. International Journal of Oncology 43(1): 63-71
Xue, Y.; Lim, D.; Zhi, L.; He, P.; Abastado, J.-P.; Thierry, F.ço. 2012: Loss of HPV16 E2 Protein Expression Without Disruption of the E2 ORF Correlates with Carcinogenic Progression. Open Virology Journal 6: 163-172
Kaneko, M.; Koike, H.; Saito, R.; Kitamura, Y.; Okuma, Y.; Nomura, Y. 2010: Loss of HRD1-mediated protein degradation causes amyloid precursor protein accumulation and amyloid-beta generation. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 30(11): 3924-3932
Li, Q.; Martinez, J.D. 2011: Loss of HSF1 results in defective radiation-induced G(2) arrest and DNA repair. Radiation Research 176(1): 17-24
He, X.; Khurana, A.; Roy, D.; Kaufmann, S.; Shridhar, V. 2014: Loss of HSulf-1 expression enhances tumorigenicity by inhibiting Bim expression in ovarian cancer. International Journal of Cancer 135(8): 1783-1789
Roy, D.; Mondal, S.; Wang, C.; He, X.; Khurana, A.; Giri, S.; Hoffmann, R.; Jung, D.-B.; Kim, S.H.; Chini, E.N.; Periera, J.C.; Folmes, C.D.; Mariani, A.; Dowdy, S.C.; Bakkum-Gamez, J.N.; Riska, S.M.; Oberg, A.L.; Karoly, E.D.; Bell, L.N.; Chien, J.; Shridhar, V. 2014: Loss of HSulf-1 promotes altered lipid metabolism in ovarian cancer. Cancer and Metabolism 2: 13
VanDusen, N.J.; Vincentz, J.W.; Firulli, B.A.; Howard, M.J.; Rubart, M.; Firulli, A.B. 2014: Loss of Hand2 in a population of Periostin lineage cells results in pronounced bradycardia and neonatal death. Developmental Biology 388(2): 149-158
Lake, R. 1918: Loss of Hearing due to Delay in Operating. Proceedings of the Royal Society of Medicine 11(Otol Sect): 60
Kim, J.H.; Choi, K.Y.; Lee, D.J.; Rho, Y.-S.; Jo, S.-J. 2014: Loss of Heterozygosities in Five Tumor Suppressor Genes (FHIT Gene, p16, pRb, E-Cadherin and p53) in Thyroid Tumors. Clinical and Experimental Otorhinolaryngology 7(1): 53-58
Gnana-Prakasam, J.P.; Veeranan-Karmegam, R.; Coothankandaswamy, V.; Reddy, S.K.; Martin, P.M.; Thangaraju, M.; Smith, S.B.; Ganapathy, V. 2013: Loss of Hfe leads to progression of tumor phenotype in primary retinal pigment epithelial cells. Investigative Ophthalmology and Visual Science 54(1): 63-71
Eroglu, B.; Moskophidis, D.; Mivechi, N.F. 2010: Loss of Hsp110 leads to age-dependent tau hyperphosphorylation and early accumulation of insoluble amyloid beta. Molecular and Cellular Biology 30(19): 4626-4643
Wacker, J.L.; Huang, S.-Y.; Steele, A.D.; Aron, R.; Lotz, G.P.; Nguyen, Q.; Giorgini, F.; Roberson, E.D.; Lindquist, S.; Masliah, E.; Muchowski, P.J. 2009: Loss of Hsp70 exacerbates pathogenesis but not levels of fibrillar aggregates in a mouse model of Huntington's disease. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 29(28): 9104-9114
Hashimoto, M.; Tsugawa, T.; Kawagishi, H.; Asai, A.; Sugimoto, M. 2014: Loss of HuR leads to senescence-like cytokine induction in rodent fibroblasts by activating NF-κB. Biochimica et Biophysica Acta 1840(10): 3079-3087
Boulay, G.; Malaquin, N.; Loison, I.; Foveau, Bénédicte.; Van Rechem, C.; Rood, B.R.; Pourtier, A.; Leprince, D. 2012: Loss of Hypermethylated in Cancer 1 (HIC1) in breast cancer cells contributes to stress-induced migration and invasion through β-2 adrenergic receptor (ADRB2) misregulation. Journal of Biological Chemistry 287(8): 5379-5389
Petersson, S.; Shubbar, E.; Yhr, M.; Kovacs, A.; Enerbäck, C. 2011: Loss of ICAM-1 signaling induces psoriasin (S100A7) and MUC1 in mammary epithelial cells. Breast Cancer Research and Treatment 125(1): 13-25
Duncan, T.J.; Rolland, P.; Deen, S.; Scott, I.V.; Liu, D.T.Y.; Spendlove, I.; Durrant, L.G. 2007: Loss of IFN gamma receptor is an independent prognostic factor in ovarian cancer. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 13(14): 4139-4145
Sabatino, J.J.; Shires, J.; Altman, J.D.; Ford, M.L.; Evavold, B.D. 2008: Loss of IFN-gamma enables the expansion of autoreactive CD4+ T cells to induce experimental autoimmune encephalomyelitis by a nonencephalitogenic myelin variant antigen. Journal of Immunology 180(7): 4451-4457
Vu, T.H.; Nguyen, A.H.; Hoffman, A.R. 2010: Loss of IGF2 imprinting is associated with abrogation of long-range intrachromosomal interactions in human cancer cells. Human Molecular Genetics 19(5): 901-919
Yang, P.-M.; Huang, W.-C.; Lin, Y.-C.; Huang, W.-Y.; Wu, H.-A.; Chen, W.-L.; Chang, Y.-F.; Chou, C.-W.; Tzeng, C.-C.; Chen, Y.-L.; Chen, C.-C. 2010: Loss of IKKbeta activity increases p53 stability and p21 expression leading to cell cycle arrest and apoptosis. Journal of Cellular and Molecular Medicine 14(3): 687-698
Masso-Welch, P.A.; Merhige, P.M.; Veeranki, O.L.M.; Kuo, S.-M. 2012: Loss of IL-10 decreases mouse postpubertal mammary gland development in the absence of inflammation. Immunological Investigations 41(5): 521-537
Pistilli, E.E.; Bogdanovich, S.; Garton, F.; Yang, N.; Gulbin, J.P.; Conner, J.D.; Anderson, B.G.; Quinn, L.S.; North, K.; Ahima, R.S.; Khurana, T.S. 2011: Loss of IL-15 receptor α alters the endurance, fatigability, and metabolic characteristics of mouse fast skeletal muscles. Journal of Clinical Investigation 121(8): 3120-3132
Nigam, P.; Kwa, S.; Velu, V.; Amara, R.R. 2011: Loss of IL-17-producing CD8 T cells during late chronic stage of pathogenic simian immunodeficiency virus infection. Journal of Immunology 186(2): 745-753
Burch-Smith, T.M.; Zambryski, P.C. 2010: Loss of increased Size Exclusion limit (Ise)1 or Ise2 Increases the Formation of Secondary Plasmodesmata. Current Biology: Cb 20(11): 989-993
Hornick, J.L.; Dal Cin, P.; Fletcher, C.D.M. 2009: Loss of INI1 expression is characteristic of both conventional and proximal-type epithelioid sarcoma. American Journal of Surgical Pathology 33(4): 542-550
Miller, S.; Ward, J.H.; Rogers, H.A.; Lowe, J.; Grundy, R.G. 2013: Loss of INI1 protein expression defines a subgroup of aggressive central nervous system primitive neuroectodermal tumors. Brain Pathology 23(1): 19-27
Subramanian, M.; Jayakumar, S.; Richhariya, S.; Hasan, G. 2013: Loss of IP3 receptor function in neuropeptide secreting neurons leads to obesity in adult Drosophila. Bmc Neuroscience 14: 157
Landreville, S.; Ma, D.; Wu, J.; Harbour, J.W. 2010: Loss of Id2 potentiates the tumorigenic effect of Rb inactivation in a mouse model of retinoblastoma. Current Eye Research 35(5): 435-439
Lipinski, M.J.; Campbell, K.A.; Duong, S.Q.; Welch, T.J.; Garmey, J.C.; Doran, A.C.; Skaflen, M.D.; Oldham, S.N.; Kelly, K.A.; McNamara, C.A. 2012: Loss of Id3 increases VCAM-1 expression, macrophage accumulation, and atherogenesis in Ldlr-/- mice. Arteriosclerosis Thrombosis and Vascular Biology 32(12): 2855-2861
Chatterjee, S.; Bacopulos, S.; Yang, W.; Amemiya, Y.; Spyropoulos, D.; Raouf, A.; Seth, A. 2014: Loss of Igfbp7 causes precocious involution in lactating mouse mammary gland. Plos one 9(2): E87858
Van Dop, W.A.; Heijmans, J.; Büller, N.è V.J.A.; Snoek, S.A.; Rosekrans, S.L.; Wassenberg, E.A.; van den Bergh Weerman, M.A.; Lanske, B.; Clarke, A.R.; Winton, D.J.; Wijgerde, M.; Offerhaus, G.J.; Hommes, D.W.; Hardwick, J.C.; de Jonge, W.J.; Biemond, I.; van den Brink, G.R. 2010: Loss of Indian Hedgehog activates multiple aspects of a wound healing response in the mouse intestine. Gastroenterology 139(5): 1665-1676; 1676.E1-10
Sozubir, S.; Barber, T.; Wang, Y.; Ahn, C.; Zhang, S.; Verma, S.; Lonergan, D.; Lorenzo, A.J.; Nef, S.; Baker, L.A. 2010: Loss of Insl3: a potential predisposing factor for testicular torsion. Journal of Urology 183(6): 2373-2379
Kim, J.-H.; Byun, H.-M.; Chung, E.-C.; Chung, H.-Y.; Bae, O.-N. 2013: Loss of Integrity: Impairment of the Blood-brain Barrier in Heavy Metal-associated Ischemic Stroke. Toxicological Research 29(3): 157-164
Lou, P.-H.; Lucchinetti, E.; Zhang, L.; Affolter, A.; Gandhi, M.; Hersberger, M.; Warren, B.E.; Lemieux, H.él.èn.; Sobhi, H.F.; Clanachan, A.S.; Zaugg, M. 2014: Loss of Intralipid®- but not sevoflurane-mediated cardioprotection in early type-2 diabetic hearts of fructose-fed rats: importance of ROS signaling. Plos one 9(8): E104971
Koenigsmann, J.; Carstanjen, D. 2009: Loss of Irf8 does not co-operate with overexpression of BCL-2 in the induction of leukemias in vivo. Leukemia and Lymphoma 50(12): 2078-2082
Xuanyuan, Z.; Wu, Z.; Li, R.; Jiang, D.; Su, J.; Xu, H.; Bai, Y.; Zhang, X.; Saris, P.E.J.; Qiao, M. 2010: Loss of IrpT function in Lactococcus lactis subsp. lactis N8 results in increased nisin resistance. Current Microbiology 61(4): 329-334
Bi, X.; Pohl, N.M.; Yin, Z.; Yang, W. 2011: Loss of JNK2 increases intestinal tumor susceptibility in Apc1638+/- mice with dietary modulation. Carcinogenesis 32(4): 584-588
Zhong, J.; Yang, P.; Muta, K.; Dong, R.; Marrero, M.; Gong, F.; Wang, C.-Y. 2010: Loss of Jak2 selectively suppresses DC-mediated innate immune response and protects mice from lethal dose of LPS-induced septic shock. Plos one 5(3): E9593
Grubb, S.ør.; Speerschneider, T.; Occhipinti, D.; Fiset, C.él.; Olesen, S.ør.-P.; Thomsen, M.B.; Calloe, K. 2014: Loss of K+ currents in heart failure is accentuated in KChIP2 deficient mice. Journal of Cardiovascular Electrophysiology 25(8): 896-904
Zhang, P.; Singh, A.; Yegnasubramanian, S.; Esopi, D.; Kombairaju, P.; Bodas, M.; Wu, H.; Bova, S.G.; Biswal, S. 2010: Loss of Kelch-like ECH-associated protein 1 function in prostate cancer cells causes chemoresistance and radioresistance and promotes tumor growth. Molecular Cancer Therapeutics 9(2): 336-346
Ussar, S.; Moser, M.; Widmaier, M.; Rognoni, E.; Harrer, C.; Genzel-Boroviczeny, O.; Fässler, R. 2008: Loss of Kindlin-1 causes skin atrophy and lethal neonatal intestinal epithelial dysfunction. Plos Genetics 4(12): E1000289
Manevich-Mendelson, E.; Feigelson, S.W.; Pasvolsky, R.; Aker, M.; Grabovsky, V.; Shulman, Z.; Kilic, S.S.; Rosenthal-Allieri, M.A.; Ben-Dor, S.; Mory, A.; Bernard, A.; Moser, M.; Etzioni, A.; Alon, R. 2009: Loss of Kindlin-3 in LAD-IIi eliminates LFA-1 but not VLA-4 adhesiveness developed under shear flow conditions. Blood 114(11): 2344-2353
Izbeki, F.; Asuzu, D.T.; Lorincz, A.; Bardsley, M.R.; Popko, L.N.; Choi, K.M.; Young, D.L.; Hayashi, Y.; Linden, D.R.; Kuro-o, M.; Farrugia, G.; Ordog, T. 2010: Loss of Kitlow progenitors, reduced stem cell factor and high oxidative stress underlie gastric dysfunction in progeric mice. Journal of Physiology 588(Part 16): 3101-3117
Zhou, L.; Li, Y.; Zhou, D.; Tan, R.J.; Liu, Y. 2013: Loss of Klotho contributes to kidney injury by derepression of Wnt/β-catenin signaling. Journal of the American Society of Nephrology: Jasn 24(5): 771-785
Camilli, T.C.; Xu, M.; O'Connell, M.P.; Chien, B.; Frank, B.P.; Subaran, S.; Indig, F.E.; Morin, P.J.; Hewitt, S.M.; Weeraratna, A.T. 2011: Loss of Klotho during melanoma progression leads to increased filamin cleavage, increased Wnt5A expression, and enhanced melanoma cell motility. Pigment Cell and Melanoma Research 24(1): 175-186
Odelin, G.ël.; Faure, E.; Kober, F.; Maurel-Zaffran, C.; Théron, A.; Coulpier, F.; Guillet, B.; Bernard, M.; Avierinos, J.-F.ço.; Charnay, P.; Topilko, P.; Zaffran, S.ép. 2014: Loss of Krox20 results in aortic valve regurgitation and impaired transcriptional activation of fibrillar collagen genes. Cardiovascular Research 104(3): 443-455
Bell-Anderson, K.S.; Funnell, A.P.; Williams, H.; Mat Jusoh, H.; Scully, T.; Lim, W.F.; Burdach, J.G.; Mak, K.Sin.; Knights, A.J.; Hoy, A.J.; Nicholas, H.R.; Sainsbury, A.; Turner, N.; Pearson, R.C.; Crossley, M. 2013: Loss of Krüppel-like factor 3 (KLF3/BKLF) leads to upregulation of the insulin-sensitizing factor adipolin (FAM132A/CTRP12/C1qdc2). Diabetes 62(8): 2728-2737
Clementi, A.H.; Gaudy, A.M.; van Rooijen, N.; Pierce, R.H.; Mooney, R.A. 2009: Loss of Kupffer cells in diet-induced obesity is associated with increased hepatic steatosis, STAT3 signaling, and further decreases in insulin signaling. Biochimica et Biophysica Acta 1792(11): 1062-1072
Nalame, N.; Chaisri, W.; Suriyasathaporn, W. 2009: Loss of L-ascorbic acid in commercial drinking milk caused by milk processing and storage times. Southeast Asian Journal of Tropical Medicine and Public Health 40(4): 848-851
Gotic, I.; Schmidt, W.M.; Biadasiewicz, K.; Leschnik, M.; Spilka, R.; Braun, J.; Stewart, C.L.; Foisner, R. 2010: Loss of LAP2 alpha delays satellite cell differentiation and affects postnatal fiber-type determination. Stem Cells 28(3): 480-488
Esser, A.K.; Miller, M.R.; Huang, Q.; Meier, M.M.; Beltran-Valero de Bernabé, D.; Stipp, C.S.; Campbell, K.P.; Lynch, C.F.; Smith, B.J.; Cohen, M.B.; Henry, M.D. 2013: Loss of LARGE2 disrupts functional glycosylation of α-dystroglycan in prostate cancer. Journal of Biological Chemistry 288(4): 2132-2142
Buchholtz, M.-L.; Jückstock, J.; Weber, E.; Mylonas, I.; Dian, D.; Brüning, A. 2013: Loss of LDOC1 expression by promoter methylation in cervical cancer cells. Cancer Investigation 31(9): 571-577
Pierre, A.; Peigné, Mëliss.; Grynberg, Mël.; Arouche, N.; Taieb, Jëlle.; Hesters, L.; Gonzalès, J.; Picard, J-Yves.; Dewailly, D.; Fanchin, R.; Catteau-Jonard, S.; di Clemente, N. 2013: Loss of LH-induced down-regulation of anti-Müllerian hormone receptor expression may contribute to anovulation in women with polycystic ovary syndrome. Human Reproduction 28(3): 762-769
Tanwar, P.S.; Mohapatra, G.; Chiang, S.; Engler, D.A.; Zhang, L.; Kaneko-Tarui, T.; Ohguchi, Y.; Birrer, M.J.; Teixeira, J.M. 2014: Loss of LKB1 and PTEN tumor suppressor genes in the ovarian surface epithelium induces papillary serous ovarian cancer. Carcinogenesis 35(3): 546-553
Li, J.; Liu, J.; Li, P.; Mao, X.; Li, W.; Yang, J.; Liu, P. 2014: Loss of LKB1 disrupts breast epithelial cell polarity and promotes breast cancer metastasis and invasion. Journal of Experimental and Clinical Cancer Research: Cr 33: 70
Andrade-Vieira, R.; Xu, Z.; Colp, P.; Marignani, P.A. 2013: Loss of LKB1 expression reduces the latency of ErbB2-mediated mammary gland tumorigenesis, promoting changes in metabolic pathways. Plos one 8(2): E56567
Co, N.N.; Iglesias, D.; Celestino, J.; Kwan, S.Y.; Mok, S.C.; Schmandt, R.; Lu, K.H. 2014: Loss of LKB1 in high-grade endometrial carcinoma: LKB1 is a novel transcriptional target of p53. Cancer 120(22): 3457-3468
Duquette, P.M.; Zhou, X.; Yap, N.L.; MacLaren, E.J.; Lu, J.J.; Wallace, V.A.; Chen, H.-H. 2010: Loss of LMO4 in the retina leads to reduction of GABAergic amacrine cells and functional deficits. Plos one 5(10): E13232
Tsukamoto, T.; Palanivelu, R. 2010: Loss of LORELEi function in the pistil delays initiation but does not affect embryo development in Arabidopsis thaliana. Plant Signaling and Behavior 5(11): 1487-1490
Dodson, S.E.; Andersen, O.M.; Karmali, V.; Fritz, J.J.; Cheng, D.; Peng, J.; Levey, A.I.; Willnow, T.E.; Lah, J.J. 2008: Loss of LR11/SORLA enhances early pathology in a mouse model of amyloidosis: evidence for a proximal role in Alzheimer's disease. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 28(48): 12877-12886
Thompson, P.A.; Ljuslinder, I.; Tsavachidis, S.; Brewster, A.; Sahin, A.; Hedman, H.åk.; Henriksson, R.; Bondy, M.L.; Melin, B.S. 2014: Loss of LRIG1 locus increases risk of early and late relapse of stage I/Ii breast cancer. Cancer Research 74(11): 2928-2935
Mourier, A.; Ruzzenente, B.; Brandt, T.; Kühlbrandt, W.; Larsson, N.-G.ör. 2014: Loss of LRPPRC causes ATP synthase deficiency. Human Molecular Genetics 23(10): 2580-2592
Jin, L.; Hanigan, C.L.; Wu, Y.; Wang, W.; Park, B.H.; Woster, P.M.; Casero, R.A. 2013: Loss of LSD1 (lysine-specific demethylase 1) suppresses growth and alters gene expression of human colon cancer cells in a p53- and DNMT1(DNA methyltransferase 1)-independent manner. Biochemical Journal 449(2): 459-468
Tanaka, S.S.; Yamaguchi, Y.L.; Steiner, K.A.; Nakano, T.; Nishinakamura, R.; Kwan, K.M.; Behringer, R.R.; Tam, P.P.L. 2010: Loss of Lhx1 activity impacts on the localization of primordial germ cells in the mouse. Developmental Dynamics: An Official Publication of the American Association of Anatomists 239(11): 2851-2859
Xu, C.; Fillmore, C.M.; Koyama, S.; Wu, H.; Zhao, Y.; Chen, Z.; Herter-Sprie, G.S.; Akbay, E.A.; Tchaicha, J.H.; Altabef, A.; Reibel, J.B.; Walton, Z.; Ji, H.; Watanabe, H.; Jänne, P.A.; Castrillon, D.H.; Rustgi, A.K.; Bass, A.J.; Freeman, G.J.; Padera, R.F.; Dranoff, G.; Hammerman, P.S.; Kim, C.F.; Wong, K.-K. 2014: Loss of Lkb1 and Pten leads to lung squamous cell carcinoma with elevated PD-L1 expression. Cancer Cell 25(5): 590-604
Fu, A.; Ng, A.C.-H.; Depatie, C.; Wijesekara, N.; He, Y.; Wang, G.-S.; Bardeesy, N.; Scott, F.W.; Touyz, R.M.; Wheeler, M.B.; Screaton, R.A. 2009: Loss of Lkb1 in adult beta cells increases beta cell mass and enhances glucose tolerance in mice. Cell Metabolism 10(4): 285-295
Clark, B.S.; Cui, S.; Miesfeld, J.B.; Klezovitch, O.; Vasioukhin, V.; Link, B.A. 2012: Loss of Llgl1 in retinal neuroepithelia reveals links between apical domain size, Notch activity and neurogenesis. Development 139(9): 1599-1610
Kur, E.; Christa, A.; Veth, K.N.; Gajera, C.R.; Andrade-Navarro, M.A.; Zhang, J.; Willer, J.R.; Gregg, R.G.; Abdelilah-Seyfried, S.; Bachmann, S.; Link, B.A.; Hammes, A.; Willnow, T.E. 2011: Loss of Lrp2 in zebrafish disrupts pronephric tubular clearance but not forebrain development. Developmental Dynamics: An Official Publication of the American Association of Anatomists 240(6): 1567-1577
Zizer, E.; Beilke, S.; Bäuerle, T.; Schilling, K.; Möhnle, U.; Adler, G.; Fischer, K.-D.; Wagner, M. 2010: Loss of Lsc/p115 protein leads to neuronal hypoplasia in the esophagus and an achalasia-like phenotype in mice. Gastroenterology 139(4): 1344-1354
Steele, S.L.; Lo, K.H.A.; Li, V.W.T.; Cheng, S.H.; Ekker, M.; Perry, S.F. 2009: Loss of M2 muscarinic receptor function inhibits development of hypoxic bradycardia and alters cardiac beta-adrenergic sensitivity in larval zebrafish (Danio rerio). American Journal of Physiology. Regulatory Integrative and Comparative Physiology 297(2): R412-R420
Li, F.-Y.; Lenardo, M.J.; Chaigne-Delalande, B. 2011: Loss of MAGT1 abrogates the Mg2+ flux required for T cell signaling and leads to a novel human primary immunodeficiency. Magnesium Research 24(3): S109-S114
Ma, Q.-L.; Zuo, X.; Yang, F.; Ubeda, O.J.; Gant, D.J.; Alaverdyan, M.; Kiosea, N.C.; Nazari, S.; Chen, P.P.; Nothias, F.; Chan, P.; Teng, E.; Frautschy, S.A.; Cole, G.M. 2014: Loss of MAP function leads to hippocampal synapse loss and deficits in the Morris Water Maze with aging. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 34(21): 7124-7136
Mongan, M.; Wang, J.; Liu, H.; Fan, Y.; Jin, C.; Kao, W.Y.-W.; Xia, Y. 2011: Loss of MAP3K1 enhances proliferation and apoptosis during retinal development. Development 138(18): 4001-4012
Park, Y-Yea.; Lee, S.; Karbowski, M.; Neutzner, A.; Youle, R.J.; Cho, H. 2010: Loss of MARCH5 mitochondrial E3 ubiquitin ligase induces cellular senescence through dynamin-related protein 1 and mitofusin 1. Journal of Cell Science 123(Pt 4): 619-626
Batra, R.; Charizanis, K.; Manchanda, M.; Mohan, A.; Li, M.; Finn, D.J.; Goodwin, M.; Zhang, C.; Sobczak, K.; Thornton, C.A.; Swanson, M.S. 2014: Loss of MBNL leads to disruption of developmentally regulated alternative polyadenylation in RNA-mediated disease. Molecular Cell 56(2): 311-322
Thomas, R.L.; Roberts, D.J.; Kubli, D.A.; Lee, Y.; Quinsay, M.N.; Owens, J.B.; Fischer, K.M.; Sussman, M.A.; Miyamoto, S.; Gustafsson, Ås.B. 2013: Loss of MCL-1 leads to impaired autophagy and rapid development of heart failure. Genes and Development 27(12): 1365-1377
Neumann, B.; Hilliard, M.A. 2014: Loss of MEC-17 leads to microtubule instability and axonal degeneration. Cell Reports 6(1): 93-103
Yu, J.; Xiao, Y.; Liu, J.; Ji, Y.; Liu, H.; Xu, J.; Jin, X.; Liu, L.; Guan, M.-X.; Jiang, P. 2014: Loss of MED1 triggers mitochondrial biogenesis in C2C12 cells. Mitochondrion 14(1): 18-25
Zhang, M.; Truscott, J.; Davie, J. 2013: Loss of MEF2D expression inhibits differentiation and contributes to oncogenesis in rhabdomyosarcoma cells. Molecular Cancer 12(1): 150
Ishikawa, R.; Kajikawa, M.; Ishido, S. 2014: Loss of MHC Ii ubiquitination inhibits the activation and differentiation of CD4 T cells. International Immunology 26(5): 283-289
Taylor, S.S.; Jenkins, D.A.; Arcese, P. 2012: Loss of MHC and neutral variation in Peary caribou: genetic drift is not mitigated by balancing selection or exacerbated by MHC allele distributions. Plos one 7(5): E36748
Lin, K.; Farahani, M.; Yang, Y.; Johnson, G.G.; Oates, M.; Atherton, M.; Douglas, A.; Kalakonda, N.; Pettitt, A.R. 2014: Loss of MIR15A and MIR16-1 at 13q14 is associated with increased TP53 mRNA, de-repression of BCL2 and adverse outcome in chronic lymphocytic leukaemia. British Journal of Haematology 167(3): 346-355
Capowski, E.E.; Simonett, J.M.; Clark, E.M.; Wright, L.S.; Howden, S.E.; Wallace, K.A.; Petelinsek, A.M.; Pinilla, I.; Phillips, M.J.; Meyer, J.S.; Schneider, B.L.; Thomson, J.A.; Gamm, D.M. 2014: Loss of MITF expression during human embryonic stem cell differentiation disrupts retinal pigment epithelium development and optic vesicle cell proliferation. Human Molecular Genetics 23(23): 6332-6344
Yeasmin, S.; Nakayama, K.; Rahman, M.T.; Rahman, M.; Ishikawa, M.; Katagiri, A.; Iida, K.; Nakayama, N.; Miyazaki, K. 2011: Loss of MKK4 expression in ovarian cancer: a potential role for the epithelial to mesenchymal transition. International Journal of Cancer 128(1): 94-104
Chan, D.W.; Liu, V.W.S.; Tsao, G.S.W.; Yao, K.-M.; Furukawa, T.; Chan, K.K.L.; Ngan, H.Y.S. 2008: Loss of MKP3 mediated by oxidative stress enhances tumorigenicity and chemoresistance of ovarian cancer cells. Carcinogenesis 29(9): 1742-1750
Chen, J.; Santillan, D.A.; Koonce, M.; Wei, W.; Luo, R.; Thirman, M.J.; Zeleznik-Le, N.J.; Diaz, M.O. 2008: Loss of MLL PHD finger 3 is necessary for MLL-ENL-induced hematopoietic stem cell immortalization. Cancer Research 68(15): 6199-6207
Heuser, M.; Yap, D.B.; Leung, M.; de Algara, T.R.; Tafech, A.; McKinney, S.; Dixon, J.; Thresher, R.; Colledge, B.; Carlton, M.; Humphries, R.K.; Aparicio, S.A. 2009: Loss of MLL5 results in pleiotropic hematopoietic defects, reduced neutrophil immune function, and extreme sensitivity to DNA demethylation. Blood 113(7): 1432-1443
Mosig, R.A.; Martignetti, J.A. 2013: Loss of MMP-2 in murine osteoblasts upregulates osteopontin and bone sialoprotein expression in a circuit regulating bone homeostasis. Disease Models and Mechanisms 6(2): 397-403
Vlatković, N.; El-Fert, A.; Devling, T.; Ray-Sinha, A.; Gore, D.M.; Rubbi, C.P.; Dodson, A.; Jones, A.S.; Helliwell, T.R.; Jones, T.M.; Boyd, M.T. 2011: Loss of MTBP expression is associated with reduced survival in a biomarker-defined subset of patients with squamous cell carcinoma of the head and neck. Cancer 117(13): 2939-2950
Rossetti, S.; Hoogeveen, A.é T.; Esposito, J.; Sacchi, N. 2010: Loss of MTG16a (CBFA2T3), a novel rDNA repressor, leads to increased ribogenesis and disruption of breast acinar morphogenesis. Journal of Cellular and Molecular Medicine 14(6a): 1358-1370
Li, X.; Liu, H.; Yu, T.; Dong, Z.; Tang, L.; Sun, X. 2014: Loss of MTUS1 in gastric cancer promotes tumor growth and metastasis. Neoplasma 61(2): 128-135
Rogler, A.; Hoja, S.; Giedl, J.; Ekici, A.B.; Wach, S.; Taubert, H.; Goebell, P.J.; Wullich, B.; Stöckle, M.; Lehmann, J.; Petsch, S.; Hartmann, A.; Stoehr, R. 2014: Loss of MTUS1/ATIP expression is associated with adverse outcome in advanced bladder carcinomas: data from a retrospective study. Bmc Cancer 14: 214
Dombret, C.; Nguyen, T.; Schakman, O.; Michaud, J.L.; Hardin-Pouzet, H.él.èn.; Bertrand, M.J.M.; De Backer, O. 2012: Loss of Maged1 results in obesity, deficits of social interactions, impaired sexual behavior and severe alteration of mature oxytocin production in the hypothalamus. Human Molecular Genetics 21(21): 4703-4717
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Samaco, R.C.; Mandel-Brehm, C.; Chao, H.-T.; Ward, C.S.; Fyffe-Maricich, S.L.; Ren, J.; Hyland, K.; Thaller, C.; Maricich, S.M.; Humphreys, P.; Greer, J.J.; Percy, A.; Glaze, D.G.; Zoghbi, H.Y.; Neul, J.L. 2009: Loss of MeCP2 in aminergic neurons causes cell-autonomous defects in neurotransmitter synthesis and specific behavioral abnormalities. Proceedings of the National Academy of Sciences of the United States of America 106(51): 21966-21971
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Kim, H.-J.; Roh, M.S.; Son, C.H.; Kim, A.J.; Jee, H.J.; Song, N.; Kim, M.; Seo, S.-Y.; Yoo, Y.H.; Yun, J. 2012: Loss of Med1/TRAP220 promotes the invasion and metastasis of human non-small-cell lung cancer cells by modulating the expression of metastasis-related genes. Cancer Letters 321(2): 195-202
Won, H-Young.; Lee, J-Yeon.; Shin, D-Hui.; Park, J-Hye.; Nam, J-Seok.; Kim, H-Chin.; Kong, G. 2012: Loss of Mel-18 enhances breast cancer stem cell activity and tumorigenicity through activating Notch signaling mediated by the Wnt/TCF pathway. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 26(12): 5002-5013
Haenzi, B.; Bonny, O.; Masson, Régis.; Lienhard, S.; Dey, J.H.; Kuro-o, M.; Hynes, N.E. 2014: Loss of Memo, a novel FGFR regulator, results in reduced lifespan. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 28(1): 327-336
Pham, A.H.; Meng, S.; Chu, Q.N.; Chan, D.C. 2012: Loss of Mfn2 results in progressive, retrograde degeneration of dopaminergic neurons in the nigrostriatal circuit. Human Molecular Genetics 21(22): 4817-4826
Dabrowska, M.Julia.; Dybkaer, K.; Johnsen, H.Erik.; Wang, B.; Wabl, M.; Pedersen, F.Skou. 2009: Loss of MicroRNA targets in the 3' untranslated region as a mechanism of retroviral insertional activation of growth factor independence 1. Journal of Virology 83(16): 8051-8061
Seok, H.Y.; Chen, J.; Kataoka, M.; Huang, Z.-P.; Ding, J.; Yan, J.; Hu, X.; Wang, D.-Z. 2014: Loss of MicroRNA-155 protects the heart from pathological cardiac hypertrophy. Circulation Research 114(10): 1585-1595
Krupa, A.; Jenkins, R.; Luo, D.D.; Lewis, A.; Phillips, A.; Fraser, D. 2010: Loss of MicroRNA-192 promotes fibrogenesis in diabetic nephropathy. Journal of the American Society of Nephrology: Jasn 21(3): 438-447
Nguyen, T.T.; Oh, S.S.; Weaver, D.; Lewandowska, A.; Maxfield, D.; Schuler, M.-H.; Smith, N.K.; Macfarlane, J.; Saunders, G.; Palmer, C.A.; Debattisti, V.; Koshiba, T.; Pulst, S.; Feldman, E.L.; Hajnóczky, G.ör.; Shaw, J.M. 2014: Loss of Miro1-directed mitochondrial movement results in a novel murine model for neuron disease. Proceedings of the National Academy of Sciences of the United States of America 111(35): E3631-E3640
Zhao, J.; Kawai, K.; Wang, H.; Wu, D.; Wang, M.; Yue, Z.; Zhang, J.; Liu, Y.-H. 2012: Loss of Msx2 function down-regulates the FoxE3 expression and results in anterior segment dysgenesis resembling Peters anomaly. American Journal of Pathology 180(6): 2230-2239
Ziabreva, I.; Ballard, C.; Johnson, M.; Larsen, J.P.; McKeith, I.; Perry, R.; Aarsland, D.; Perry, E. 2007: Loss of Musashi1 in Lewy body dementia associated with cholinergic deficit. Neuropathology and Applied Neurobiology 33(5): 586-590
Powner, M.B.; Gillies, M.C.; Zhu, M.; Vevis, K.; Hunyor, A.P.; Fruttiger, M. 2013: Loss of Müller's cells and photoreceptors in macular telangiectasia type 2. Ophthalmology 120(11): 2344-2352
Pohl, S.; Encarnacão, M.; Castrichini, M.; Müller-Loennies, S.; Muschol, N.; Braulke, T. 2010: Loss of N-acetylglucosamine-1-phosphotransferase gamma subunit due to intronic mutation in GNPTG causes mucolipidosis type IIi gamma: Implications for molecular and cellular diagnostics. American Journal of Medical Genetics. Part a 152a (1): 124-132
Vassilev, V.S.; Mandai, M.; Yonemura, S.; Takeichi, M. 2012: Loss of N-cadherin from the endothelium causes stromal edema and epithelial dysgenesis in the mouse cornea. Investigative Ophthalmology and Visual Science 53(11): 7183-7193
Yap, K.L.; Sysa-Shah, P.; Bolon, B.; Wu, R.-C.; Gao, M.; Herlinger, A.L.; Wang, F.; Faiola, F.; Huso, D.; Gabrielson, K.; Wang, T.-L.; Wang, J.; Shih, I.-M. 2013: Loss of NAC1 expression is associated with defective bony patterning in the murine vertebral axis. Plos one 8(7): E69099
Padgett, L.E.; Burg, A.R.; Lei, W.; Tse, H.M. 2015: Loss of NADPH oxidase-derived superoxide skews macrophage phenotypes to delay type 1 diabetes. Diabetes 64(3): 937-946
Ghosh, R.; Schoolfield, J.; Yeh, I.-T.; Smith, M.L.; Hursting, S.D.; Chan, D.C.; Lucia, M.S.; Kumar, A.P. 2009: Loss of NADPH quinone oxidoreductase in the prostate and enhanced serum levels of cytokine-induced neutrophil chemoattractant 2alpha in hormone-stimulated noble rats: potential role in prostatic intraepithelial neoplasia development. Translational Oncology 2(2): 65-72
Shames, D.S.; Elkins, K.; Walter, K.; Holcomb, T.; Du, P.; Mohl, D.; Xiao, Y.; Pham, T.; Haverty, P.M.; Liederer, B.; Liang, X.; Yauch, R.L.; O'Brien, T.; Bourgon, R.; Koeppen, H.; Belmont, L.D. 2013: Loss of NAPRT1 expression by tumor-specific promoter methylation provides a novel predictive biomarker for NAMPT inhibitors. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 19(24): 6912-6923
Huang, X.; Sun, J.; Zhao, T.; Wu, K.-W.; Watanabe, K.; Xiao, Z.-C.; Zhu, L.-L.; Fan, M. 2011: Loss of NB-3 aggravates cerebral ischemia by impairing neuron survival and neurite growth. Stroke 42(10): 2910-2916
Brejning, J.; Nørgaard, S.; Schøler, L.; Morthorst, T.H.; Jakobsen, H.; Lithgow, G.J.; Jensen, L.T.; Olsen, A. 2014: Loss of NDG-4 extends lifespan and stress resistance in Caenorhabditis elegans. Aging Cell 13(1): 156-164
Fatma, N.; Kubo, E.; Takamura, Y.; Ishihara, K.; Garcia, C.; Beebe, D.C.; Singh, D.P. 2009: Loss of NF-kappaB control and repression of Prdx6 gene transcription by reactive oxygen species-driven SMAD3-mediated transforming growth factor beta signaling. Journal of Biological Chemistry 284(34): 22758-22772
Bajaj, A.; Li, Q.-f.; Zheng, Q.; Pumiglia, K. 2012: Loss of NF1 expression in human endothelial cells promotes autonomous proliferation and altered vascular morphogenesis. Plos one 7(11): E49222
Nissan, M.H.; Pratilas, C.A.; Jones, A.M.; Ramirez, R.; Won, H.; Liu, C.; Tiwari, S.; Kong, L.; Hanrahan, A.J.; Yao, Z.; Merghoub, T.; Ribas, A.; Chapman, P.B.; Yaeger, R.; Taylor, B.S.; Schultz, N.; Berger, M.F.; Rosen, N.; Solit, D.B. 2014: Loss of NF1 in cutaneous melanoma is associated with RAS activation and MEK dependence. Cancer Research 74(8): 2340-2350
Cačev, T.; Aralica, G.; Lončar, B.žo.; Kapitanović, S. 2014: Loss of NF2/Merlin expression in advanced sporadic colorectal cancer. Cellular Oncology 37(1): 69-77
Müller, M.; Triaca, V.; Besusso, D.; Costanzi, M.; Horn, J.M.; Koudelka, J.; Geibel, M.; Cestari, V.; Minichiello, L. 2012: Loss of NGF-TrkA signaling from the CNS is not sufficient to induce cognitive impairments in young adult or intermediate-aged mice. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 32(43): 14885-14898
Prasad, V.; Lorenz, J.N.; Miller, M.L.; Vairamani, K.; Nieman, M.L.; Wang, Y.; Shull, G.E. 2013: Loss of NHE1 activity leads to reduced oxidative stress in heart and mitigates high-fat diet-induced myocardial stress. Journal of Molecular and Cellular Cardiology 65: 33-42
Engevik, M.A.; Aihara, E.; Montrose, M.H.; Shull, G.E.; Hassett, D.J.; Worrell, R.T. 2013: Loss of NHE3 alters gut microbiota composition and influences Bacteroides thetaiotaomicron growth. American Journal of Physiology. Gastrointestinal and Liver Physiology 305(10): G697-G711
Xu, H.; Zhao, Y.; Li, J.; Wang, M.; Lian, F.; Gao, M.; Ghishan, F.K. 2015: Loss of NHE8 expression impairs ocular surface function in mice. American Journal of Physiology. Cell Physiology 308(1): C79-C87
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Benlahrech, A.; Gotch, F.; Kelleher, P.; Patterson, S. 2011: Loss of NK stimulatory capacity by plasmacytoid and monocyte-derived DC but not myeloid DC in HIV-1 infected patients. Plos one 6(3): E17525
Miyaguchi, K.; Uzawa, N.; Mogushi, K.; Takahashi, K.-I.; Michikawa, C.; Nakata, Y.; Sumino, J.; Okada, N.; Mizushima, H.; Fukuoka, Y.; Tanaka, H. 2012: Loss of NKX3-1 as a potential marker for an increased risk of occult lymph node metastasis and poor prognosis in oral squamous cell carcinoma. International Journal of Oncology 40(6): 1907-1914
Zhang, H.; Muders, M.H.; Li, J.; Rinaldo, F.; Tindall, D.J.; Datta, K. 2008: Loss of NKX3.1 favors vascular endothelial growth factor-C expression in prostate cancer. Cancer Research 68(21): 8770-8778
Boulay, J.-L.; Miserez, A.é R.; Zweifel, C.; Sivasankaran, B.; Kana, V.; Ghaffari, A.; Luyken, C.; Sabel, M.; Zerrouqi, A.; Wasner, M.; Van Meir, E.; Tolnay, M.; Reifenberger, G.; Merlo, A. 2007: Loss of NOTCH2 positively predicts survival in subgroups of human glial brain tumors. Plos one 2(6): E576
Parajuli, N.; Patel, V.B.; Wang, W.; Basu, R.; Oudit, G.Y. 2014: Loss of NOX2 (gp91phox) prevents oxidative stress and progression to advanced heart failure. Clinical Science 127(5): 331-340
Kirk, J.; Porter, K.M.; Parker, V.; Barroso, I.; O'Rahilly, S.; Hendriksz, C.; Semple, R.K. 2010: Loss of NPC1 function in a patient with a co-inherited novel insulin receptor mutation does not grossly modify the severity of the associated insulin resistance. Journal of Inherited Metabolic Disease 33(Suppl 3): S227-S232
Pagadala, P.; Park, C.-K.; Bang, S.; Xu, Z.-Z.; Xie, R.-G.; Liu, T.; Han, B.-X.; Tracey, W.D.; Wang, F.; Ji, R.-R. 2013: Loss of NR1 subunit of NMDARs in primary sensory neurons leads to hyperexcitability and pain hypersensitivity: involvement of Ca(2+)-activated small conductance potassium channels. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 33(33): 13425-13430
Schmid, T.; Günther, S.; Mendler, L.; Braun, T. 2013: Loss of NSCL-2 in gonadotropin releasing hormone neurons leads to reduction of pro-opiomelanocortin neurons in specific hypothalamic nuclei and causes visceral obesity. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 33(25): 10459-10470
Luan, Z.; Reddig, K.; Li, H.-S. 2014: Loss of Na(+)/K(+)-ATPase in Drosophila photoreceptors leads to blindness and age-dependent neurodegeneration. Experimental Neurology 261: 791-801
Larade, K.; Jiang, Z.; Zhang, Y.; Wang, W.; Bonner-Weir, S.; Zhu, H.; Bunn, H.F. 2008: Loss of Ncb5or results in impaired fatty acid desaturation, lipoatrophy, and diabetes. Journal of Biological Chemistry 283(43): 29285-29291
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Meola, D.; Huang, Z.; Ha, G.K.; Petitto, J.M. 2013: Loss of Neuronal Phenotype and Neurodegeneration: Effects of T Lymphocytes and Brain Interleukin-2. Journal of Alzheimer's Disease and Parkinsonism Suppl 10
Dixit, S.S.; Jadot, M.; Sohar, I.; Sleat, D.E.; Stock, A.M.; Lobel, P. 2011: Loss of Niemann-Pick C1 or C2 protein results in similar biochemical changes suggesting that these proteins function in a common lysosomal pathway. Plos one 6(8): E23677
Fujimoto, K.; Ford, E.L.; Tran, H.; Wice, B.M.; Crosby, S.D.; Dorn, G.W.; Polonsky, K.S. 2010: Loss of Nix in Pdx1-deficient mice prevents apoptotic and necrotic β cell death and diabetes. Journal of Clinical Investigation 120(11): 4031-4039
Khalili, M.; Mutton, L.N.; Gurel, B.; Hicks, J.L.; De Marzo, A.M.; Bieberich, C.J. 2010: Loss of Nkx3.1 expression in bacterial prostatitis: a potential link between inflammation and neoplasia. American Journal of Pathology 176(5): 2259-2268
Durán, E.; Cárdenas, J.é M.; Reina, M.Án.; Arriazu, R.án. 2015: Loss of Nm23 is associated with a more favorable tumor microenvironment in patients with breast cancer. Histology and Histopathology 30(3): 345-352
Borrie, S.C.; Sartori, S.B.; Lehmann, J.; Sah, A.; Singewald, N.; Bandtlow, C.E. 2014: Loss of Nogo receptor homolog NgR2 alters spine morphology of CA1 neurons and emotionality in adult mice. Frontiers in Behavioral Neuroscience 8: 175
Benedito, R.; Trindade, A.; Hirashima, M.; Henrique, D.; da Costa, L.L.; Rossant, J.; Gill, P.S.; Duarte, A.ón. 2008: Loss of Notch signalling induced by Dll4 causes arterial calibre reduction by increasing endothelial cell response to angiogenic stimuli. Bmc Developmental Biology 8: 117
Movahedan, A.; Afsharkhamseh, N.; Sagha, H.M.; Shah, J.R.; Milani, B.Y.; Milani, F.Y.; Logothetis, H.D.; Chan, C.-C.; Djalilian, A.R. 2013: Loss of Notch1 disrupts the barrier repair in the corneal epithelium. Plos one 8(7): E69113
Cialfi, S.; Palermo, R.; Manca, S.; De Blasio, C.; Vargas Romero, P.; Checquolo, S.; Bellavia, D.; Uccelletti, D.; Saliola, M.; D'Alessandro, A.; Zolla, L.; Gulino, A.; Screpanti, I.; Talora, C. 2014: Loss of Notch1-dependent p21(Waf1/Cip1) expression influences the Notch1 outcome in tumorigenesis. Cell Cycle 13(13): 2046-2055
Rana, T.; Schultz, M.A.; Freeman, M.L.; Biswas, S. 2012: Loss of Nrf2 accelerates ionizing radiation-induced bone loss by upregulating RANKL. Free Radical Biology and Medicine 53(12): 2298-2307
Skoko, J.J.; Wakabayashi, N.; Noda, K.; Kimura, S.; Tobita, K.; Shigemura, N.; Tsujita, T.; Yamamoto, M.; Kensler, T.W. 2014: Loss of Nrf2 in mice evokes a congenital intrahepatic shunt that alters hepatic oxygen and protein expression gradients and toxicity. Toxicological Sciences: An Official Journal of the Society of Toxicology 141(1): 112-119
Chowdhry, S.; Nazmy, M.H.; Meakin, P.J.; Dinkova-Kostova, A.T.; Walsh, S.V.; Tsujita, T.; Dillon, J.F.; Ashford, M.L.J.; Hayes, J.D. 2010: Loss of Nrf2 markedly exacerbates nonalcoholic steatohepatitis. Free Radical Biology and Medicine 48(2): 357-371
Dorfman, M.D.; Garcia-Rudaz, C.; Alderman, Z.; Kerr, B.; Lomniczi, A.; Dissen, G.A.; Castellano, J.M.; Garcia-Galiano, D.; Gaytan, F.; Xu, B.; Tena-Sempere, M.; Ojeda, S.R. 2014: Loss of Ntrk2/Kiss1r signaling in oocytes causes premature ovarian failure. Endocrinology 155(8): 3098-3111
Pratt, E.; Sissung, T.M.; Figg, W.D. 2012: Loss of OATP1B3 function causes Rotor syndrome: implications for potential use of inhibitors in cancer. Cancer Biology and Therapy 13(14): 1374-1375
Chen, H.; Ye, F.; Zhang, J.; Lu, W.; Cheng, Q.; Xie, X. 2007: Loss of OPCML expression and the correlation with CpG island methylation and LOH in ovarian serous carcinoma. European Journal of Gynaecological Oncology 28(6): 464-467
Cheng, T.; Orlow, S.J.; Manga, P. 2013: Loss of Oca2 disrupts the unfolded protein response and increases resistance to endoplasmic reticulum stress in melanocytes. Pigment Cell and Melanoma Research 26(6): 826-834
Madsen, O.; Kortum, T.T.; Hupkes, M.; Kohlen, W.; van Rheede, T.; de Jong, W.W. 2010: Loss of Octarepeats in two processed prion pseudogenes in the red squirrel, Sciurus vulgaris. Journal of Molecular Evolution 71(5-6): 356-363
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Housset, M.; Samuel, A.; Ettaiche, M.; Bemelmans, A.; Béby, F.; Billon, N.; Lamonerie, T. 2013: Loss of Otx2 in the adult retina disrupts retinal pigment epithelium function, causing photoreceptor degeneration. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 33(24): 9890-9904
Raguz, S.; Adams, C.; Masrour, N.; Rasul, S.; Papoutsoglou, P.; Hu, Y.; Cazzanelli, G.; Zhou, Y.; Patel, N.; Coombes, C.; Yagüe, E. 2013: Loss of O⁶-methylguanine-DNA methyltransferase confers collateral sensitivity to carmustine in topoisomerase II-mediated doxorubicin resistant triple negative breast cancer cells. Biochemical Pharmacology 85(2): 186-196
Dehay, B.; Ramirez, A.; Martinez-Vicente, M.; Perier, C.; Canron, M.-H.él.èn.; Doudnikoff, E.; Vital, A.; Vila, M.; Klein, C.; Bezard, E. 2012: Loss of P-type ATPase ATP13A2/PARK9 function induces general lysosomal deficiency and leads to Parkinson disease neurodegeneration. Proceedings of the National Academy of Sciences of the United States of America 109(24): 9611-9616
Irshaid, F.; Tarawneh, K.; Alshdefat, A.; Dilmi, F.; Jaran, A.; Al-Hadithi, R.; Al-Khatib, A. 2013: Loss of P16 Protein Expression and Its Association with Epstein-Barr Virus LMP-1 Expression in Hodgkin's Lymphoma. Iranian Journal of Cancer Prevention 6(2): 78-84
Beaucage, K.L.; Xiao, A.; Pollmann, S.I.; Grol, M.W.; Beach, R.J.; Holdsworth, D.W.; Sims, S.M.; Darling, M.R.; Dixon, S.J. 2014: Loss of P2X7 nucleotide receptor function leads to abnormal fat distribution in mice. Purinergic Signalling 10(2): 291-304
Le Gall, S.M.; Legrand, J.; Benbijja, M.; Safya, H.; Benihoud, K.; Kanellopoulos, J.M.; Bobé, P. 2012: Loss of P2X7 receptor plasma membrane expression and function in pathogenic B220+ double-negative T lymphocytes of autoimmune MRL/lpr mice. Plos one 7(12): E52161
Garrison, B.S.; Rossi, D.J. 2014: Loss of P2Y₁₄ results in an arresting response to hematological stress. Journal of Clinical Investigation 124(7): 2846-2848
Ajit, D.; Woods, L.T.; Camden, J.M.; Thebeau, C.N.; El-Sayed, F.G.; Greeson, G.W.; Erb, L.; Petris, M.J.; Miller, D.C.; Sun, G.Y.; Weisman, G.A. 2014: Loss of P2Y₂ nucleotide receptors enhances early pathology in the TgCRND8 mouse model of Alzheimer's disease. Molecular Neurobiology 49(2): 1031-1042
Wang, Y.; Zhang, Y.X.; Kong, C.Z.; Zhang, Z.; Zhu, Y.Y. 2013: Loss of P53 facilitates invasion and metastasis of prostate cancer cells. Molecular and Cellular Biochemistry 384(1-2): 121-127
Page, R.M.; Münch, A.; Horn, T.; Kuhn, P.-H.; Colombo, A.; Reiner, O.; Boutros, M.; Steiner, H.; Lichtenthaler, S.F.; Haass, C. 2012: Loss of PAFAH1B2 reduces amyloid-β generation by promoting the degradation of amyloid precursor protein C-terminal fragments. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 32(50): 18204-18214
Liwak, U.; Jordan, L.E.; Von-Holt, S.Davidson.; Singh, P.; Hanson, J.E.L.; Lorimer, I.A.; Roncaroli, F.; Holcik, M. 2013: Loss of PDCD4 contributes to enhanced chemoresistance in Glioblastoma multiforme through de-repression of Bcl-xL translation. Oncotarget 4(9): 1365-1372
Johnson, T.R.; Koul, S.; Kumar, B.; Khandrika, L.; Venezia, S.; Maroni, P.D.; Meacham, R.B.; Koul, H.K. 2010: Loss of PDEF, a prostate-derived Ets factor is associated with aggressive phenotype of prostate cancer: regulation of MMP 9 by PDEF. Molecular Cancer 9: 148
Chen, M.; Sultan, A.; Cinar, A.; Yeruva, S.; Riederer, B.; Singh, A.K.; Li, J.; Bonhagen, J.; Chen, G.; Yun, C.; Donowitz, M.; Hogema, B.; de Jonge, H.; Seidler, U. 2010: Loss of PDZ-adaptor protein NHERF2 affects membrane localization and cGMP- and [Ca2+]- but not cAMP-dependent regulation of Na+/H+ exchanger 3 in murine intestine. Journal of Physiology 588(Part 24): 5049-5063
Yesilaltay, A.; Daniels, K.; Pal, R.; Krieger, M.; Kocher, O. 2009: Loss of PDZK1 causes coronary artery occlusion and myocardial infarction in Paigen diet-fed apolipoprotein e deficient mice. Plos one 4(12): E8103
Zhang, C.; Liu, Y.; Feng, C.; Wang, Q.; Shi, H.; Zhao, D.; Yu, R.; Su, Z. 2015: Loss of PEG chain in routine SDS-PAGE analysis of PEG-maleimide modified protein. Electrophoresis 36(2): 371-374
Ye, Y.; Li, Q.; Hu, W.Lai.; Tseng, H-Yi.; Jin, L.; Zhang, X.Dong.; Zhang, L.Jie.; Yang, S. 2013: Loss of PI(4,5)P2 5-Phosphatase A Contributes to Resistance of Human Melanoma Cells to RAF/MEK Inhibitors. Translational Oncology 6(4): 470-481
Guo, D.; Kassiri, Z.; Basu, R.; Chow, F.L.; Kandalam, V.; Damilano, F.; Liang, W.; Izumo, S.; Hirsch, E.; Penninger, J.M.; Backx, P.H.; Oudit, G.Y. 2010: Loss of PI3Kγ enhances cAMP-dependent MMP remodeling of the myocardial N-cadherin adhesion complexes and extracellular matrix in response to early biomechanical stress. Circulation Research 107(10): 1275-1289
Lin, W.; Wadlington, N.L.; Chen, L.; Zhuang, X.; Brorson, J.R.; Kang, U.Jung. 2014: Loss of PINK1 attenuates HIF-1α induction by preventing 4E-BP1-dependent switch in protein translation under hypoxia. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 34(8): 3079-3089
Gautier, C.A.; Kitada, T.; Shen, J. 2008: Loss of PINK1 causes mitochondrial functional defects and increased sensitivity to oxidative stress. Proceedings of the National Academy of Sciences of the United States of America 105(32): 11364-11369
Moisoi, N.; Fedele, V.; Edwards, J.; Martins, L.M. 2014: Loss of PINK1 enhances neurodegeneration in a mouse model of Parkinson's disease triggered by mitochondrial stress. Neuropharmacology 77: 350-357
Anichtchik, O.; Diekmann, H.; Fleming, A.; Roach, A.; Goldsmith, P.; Rubinsztein, D.C. 2008: Loss of PINK1 function affects development and results in neurodegeneration in zebrafish. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 28(33): 8199-8207
Dagda, R.K.; Cherra, S.J.; Kulich, S.M.; Tandon, A.; Park, D.; Chu, C.T. 2009: Loss of PINK1 function promotes mitophagy through effects on oxidative stress and mitochondrial fission. Journal of Biological Chemistry 284(20): 13843-13855
Parganlija, D.; Klinkenberg, M.; Domínguez-Bautista, J.; Hetzel, M.; Gispert, S.; Chimi, M.A.; Dröse, S.; Mai, S.ör.; Brandt, U.; Auburger, G.; Jendrach, M. 2014: Loss of PINK1 impairs stress-induced autophagy and cell survival. Plos one 9(4): E95288
Matsui, H.; Taniguchi, Y.; Inoue, H.; Kobayashi, Y.; Sakaki, Y.; Toyoda, A.; Uemura, K.; Kobayashi, D.; Takeda, S.; Takahashi, R. 2010: Loss of PINK1 in medaka fish (Oryzias latipes) causes late-onset decrease in spontaneous movement. Neuroscience Research 66(2): 151-161
Siddall, H.K.; Yellon, D.M.; Ong, S.-B.; Mukherjee, U.A.; Burke, N.; Hall, A.R.; Angelova, P.R.; Ludtmann, M.H.R.; Deas, E.; Davidson, S.M.; Mocanu, M.M.; Hausenloy, D.J. 2013: Loss of PINK1 increases the heart's vulnerability to ischemia-reperfusion injury. Plos one 8(4): E62400
Wang, Y.; Chen, X.; Lian, L.; Tang, T.; Stalker, T.J.; Sasaki, T.; Kanaho, Y.; Brass, L.F.; Choi, J.K.; Hartwig, J.H.; Abrams, C.S. 2008: Loss of PIP5KIbeta demonstrates that PIP5Ki isoform-specific PIP2 synthesis is required for IP3 formation. Proceedings of the National Academy of Sciences of the United States of America 105(37): 14064-14069
Wang, Y.; Litvinov, R.I.; Chen, X.; Bach, T.L.; Lian, L.; Petrich, B.G.; Monkley, S.J.; Kanaho, Y.; Critchley, D.R.; Sasaki, T.; Birnbaum, M.J.; Weisel, J.W.; Hartwig, J.; Abrams, C.S. 2008: Loss of PIP5KIgamma, unlike other PIP5KI isoforms, impairs the integrity of the membrane cytoskeleton in murine megakaryocytes. Journal of Clinical Investigation 118(2): 812-819
Restuccia, D.F.; Hynx, D.; Hemmings, B.A. 2012: Loss of PKBβ/Akt2 predisposes mice to ovarian cyst formation and increases the severity of polycystic ovary formation in vivo. Disease Models and Mechanisms 5(3): 403-411
Yang, J.-Q.; Leitges, M.; Duran, A.; Diaz-Meco, M.T.; Moscat, J. 2009: Loss of PKC lambda/iota impairs Th2 establishment and allergic airway inflammation in vivo. Proceedings of the National Academy of Sciences of the United States of America 106(4): 1099-1104
Haupt, S.; Mitchell, C.; Corneille, V.; Shortt, J.; Fox, S.; Pandolfi, P.P.; Castillo-Martin, M.; Bonal, D.M.; Cordon-Cardo, C.; Lozano, G.; Haupt, Y. 2013: Loss of PML cooperates with mutant p53 to drive more aggressive cancers in a gender-dependent manner. Cell Cycle 12(11): 1722-1731
Zhang, H.; Liu, J.; Zhao, X.; Liang, B.; Wen, Z.; Li, M. 2014: Loss of PP2A and PTEN immunoexpression coexists with survivin overexpression in adenomyosis. Reproductive biology 14(3): 200-205
Guri, A.J.; Hontecillas, R.; Ferrer, G.; Casagran, O.; Wankhade, U.; Noble, A.M.; Eizirik, D.L.; Ortis, F.; Cnop, M.; Liu, D.; Si, H.; Bassaganya-Riera, J. 2008: Loss of PPAR gamma in immune cells impairs the ability of abscisic acid to improve insulin sensitivity by suppressing monocyte chemoattractant protein-1 expression and macrophage infiltration into white adipose tissue. Journal of nutritional biochemistry 19(4): 216-228
Apostoli, A.J.; Skelhorne-Gross, G.E.A.; Rubino, R.E.; Peterson, N.T.; Di Lena, M.A.; Schneider, M.M.; SenGupta, S.K.; Nicol, C.J.B. 2014: Loss of PPARγ expression in mammary secretory epithelial cells creates a pro-breast tumorigenic environment. International journal of cancer 134(5): 1055-1066
Geng, J.; Fan, J.; Ouyang, Q.; Zhang, X.; Zhang, X.; Yu, J.; Xu, Z.; Li, Q.; Yao, X.; Liu, X.; Zheng, J. 2014: Loss of PPM1A expression enhances invasion and the epithelial-to-mesenchymal transition in bladder cancer by activating the TGF-β/Smad signaling pathway. Oncotarget 5(14): 5700-5711
Kalev, P.; Simicek, M.; Vazquez, I.; Munck, S.; Chen, L.; Soin, T.; Danda, N.; Chen, W.; Sablina, A. 2012: Loss of PPP2R2A inhibits homologous recombination DNA repair and predicts tumor sensitivity to PARP inhibition. Cancer research 72(24): 6414-6424
Anonymous 2014: Loss of PRC2 function promotes MPNST pathogenesis. Cancer discovery 4(11): OF14
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Woods, G.F.; Oh, W.Chan.; Boudewyn, L.C.; Mikula, S.K.; Zito, K. 2011: Loss of PSD-95 enrichment is not a prerequisite for spine retraction. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 31(34): 12129-12138
Wesley, C.S.; Guo, H.; Chaudhry, K.A.; Thali, M.J.; Yin, J.C.; Clason, T.; Wesley, U.V. 2011: Loss of PTB or negative regulation of Notch mRNA reveals distinct zones of Notch and actin protein accumulation in Drosophila embryo. Plos one 6(7): E21876
Molina, J.R.; Morales, F.C.; Hayashi, Y.; Aldape, K.D.; Georgescu, M-Magdalena. 2010: Loss of PTEN binding adapter protein NHERF1 from plasma membrane in glioblastoma contributes to PTEN inactivation. Cancer Research 70(17): 6697-6703
Lin, F.d.M.L.; Bacchi, C.E.; Baracat, E.C.; Carvalho, F.M. 2014: Loss of PTEN expression and AKT activation in HER2-positive breast carcinomas. Revista Brasileira de Ginecologia e Obstetricia: Revista da Federacao Brasileira das Sociedades de Ginecologia e Obstetricia 36(8): 340-346
Yamamoto, C.; Basaki, Y.; Kawahara, A.; Nakashima, K.; Kage, M.; Izumi, H.; Kohno, K.; Uramoto, H.; Yasumoto, K.; Kuwano, M.; Ono, M. 2010: Loss of PTEN expression by blocking nuclear translocation of EGR1 in gefitinib-resistant lung cancer cells harboring epidermal growth factor receptor-activating mutations. Cancer Research 70(21): 8715-8725
Dean, S.J.R.; Perks, C.M.; Holly, J.M.P.; Bhoo-Pathy, N.; Looi, L.-M.; Mohammed, N.A.T.; Mun, K.-S.; Teo, S.-H.; Koobotse, M.O.; Yip, C.-H.; Rhodes, A. 2014: Loss of PTEN expression is associated with IGFBP2 expression, younger age, and late stage in triple-negative breast cancer. American Journal of Clinical Pathology 141(3): 323-333
Sawai, H.; Yasuda, A.; Ochi, N.; Ma, J.; Matsuo, Y.; Wakasugi, T.; Takahashi, H.; Funahashi, H.; Sato, M.; Takeyama, H. 2008: Loss of PTEN expression is associated with colorectal cancer liver metastasis and poor patient survival. Bmc Gastroenterology 8: 56
Garcia-Carracedo, D.; Turk, A.T.; Fine, S.A.; Akhavan, N.; Tweel, B.C.; Parsons, R.; Chabot, J.A.; Allendorf, J.D.; Genkinger, J.M.; Remotti, H.E.; Su, G.H. 2013: Loss of PTEN expression is associated with poor prognosis in patients with intraductal papillary mucinous neoplasms of the pancreas. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 19(24): 6830-6841
Kanda, S.; Kanetake, H.; Miyata, Y. 2009: Loss of PTEN function may account for reduced proliferation pathway sensitivity to LY294002 in human prostate and bladder cancer cells. Journal of Cancer Research and Clinical Oncology 135(2): 303-311
Leinonen, K.A.; Saramäki, O.R.; Furusato, B.; Kimura, T.; Takahashi, H.; Egawa, S.; Suzuki, H.; Keiger, K.; Ho Hahm, S.; Isaacs, W.B.; Tolonen, T.T.; Stenman, U.-H.åk.; Tammela, T.L.J.; Nykter, M.; Bova, G.S.; Visakorpi, T. 2013: Loss of PTEN is associated with aggressive behavior in ERG-positive prostate cancer. Cancer Epidemiology Biomarkers and Prevention: a Publication of the American Association for Cancer Research Cosponsored by the American Society of Preventive Oncology 22(12): 2333-2344
Carico, C.; Nuño, M.; Mukherjee, D.; Elramsisy, A.; Dantis, J.; Hu, J.; Rudnick, J.; Yu, J.S.; Black, K.L.; Bannykh, S.I.; Patil, C.G. 2012: Loss of PTEN is not associated with poor survival in newly diagnosed glioblastoma patients of the temozolomide era. Plos one 7(3): E33684
Chetram, M.A.; Odero-Marah, V.; Hinton, C.V. 2011: Loss of PTEN permits CXCR4-mediated tumorigenesis through ERK1/2 in prostate cancer cells. Molecular Cancer Research: Mcr 9(1): 90-102
Vignarajan, S.; Xie, C.; Yao, M.; Sun, Y.; Simanainen, U.; Sved, P.; Liu, T.; Dong, Q. 2014: Loss of PTEN stabilizes the lipid modifying enzyme cytosolic phospholipase A₂α via AKT in prostate cancer cells. Oncotarget 5(15): 6289-6299
Grill, C.; Guelly, C.; Ebner, B.; Leuschner, I.; Hauser-Kronberger, C.; Hoefler, G.; Guertl, B. 2010: Loss of PTEN/MMAC1 activity is a rare and late event in the pathogenesis of nephroblastomas. Human Pathology 41(8): 1172-1177
Lennerz, J.K.; Hurov, J.B.; White, L.S.; Lewandowski, K.T.; Prior, J.L.; Planer, G.J.; Gereau, R.W.; Piwnica-Worms, D.; Schmidt, R.E.; Piwnica-Worms, H. 2010: Loss of Par-1a/MARK3/C-TAK1 kinase leads to reduced adiposity, resistance to hepatic steatosis, and defective gluconeogenesis. Molecular and Cellular Biology 30(21): 5043-5056
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Kawano, Y.; Nakae, J.; Watanabe, N.; Fujisaka, S.; Iskandar, K.; Sekioka, R.; Hayashi, Y.; Tobe, K.; Kasuga, M.; Noda, T.; Yoshimura, A.; Onodera, M.; Itoh, H. 2012: Loss of Pdk1-Foxo1 signaling in myeloid cells predisposes to adipose tissue inflammation and insulin resistance. Diabetes 61(8): 1935-1948
Kellert, L.; Herweh, C.; Sykora, M.; Gussmann, P.; Martin, E.; Ringleb, P.A.; Steiner, T.; Bösel, J. 2012: Loss of Penumbra by Impaired Oxygen Supply? Decreasing Hemoglobin Levels Predict Infarct Growth after Acute Ischemic Stroke: Stroke: Relevant Impact of Hemoglobin, Hematocrit and Transfusion (STRAIGHT) - An Observational Study. Cerebrovascular Diseases Extra 2(1): 99-107
Sczelecki, S.; Besse-Patin, A.èl.; Abboud, A.; Kleiner, S.; Laznik-Bogoslavski, D.; Wrann, C.D.; Ruas, J.L.; Haibe-Kains, B.; Estall, J.L. 2014: Loss of Pgc-1α expression in aging mouse muscle potentiates glucose intolerance and systemic inflammation. American Journal of Physiology. Endocrinology and Metabolism 306(2): E157-E167
Hamada, Y.; Nakamura, K.; Tajika, K.; Dan, K. 2011: Loss of Philadelphia chromosome after graft failure following cord blood transplantation for Philadelphia chromosome-positive acute myeloid leukemia. Japanese Journal of Clinical Hematology 52(2): 58-62
Miller, T.W.; Pérez-Torres, M.; Narasanna, A.; Guix, M.; Stål, O.; Pérez-Tenorio, G.; Gonzalez-Angulo, A.M.; Hennessy, B.T.; Mills, G.B.; Kennedy, J.P.; Lindsley, C.W.; Arteaga, C.L. 2009: Loss of Phosphatase and Tensin homologue deleted on chromosome 10 engages ErbB3 and insulin-like growth factor-i receptor signaling to promote antiestrogen resistance in breast cancer. Cancer Research 69(10): 4192-4201
Wallingford, M.C.; Giachelli, C.M. 2014: Loss of PiT-1 results in abnormal endocytosis in the yolk sac visceral endoderm. Mechanisms of Development 133: 189-202
Rody, A.; Karn, T.; Ruckhäberle, E.; Hanker, L.; Metzler, D.; Müller, V.; Solbach, C.; Ahr, A.; Gätje, R.; Holtrich, U.; Kaufmann, M. 2009: Loss of Plexin B1 is highly prognostic in low proliferating ER positive breast cancers--results of a large scale microarray analysis. European Journal of Cancer 45(3): 405-413
Leu, S.; Lin, Y.-M.; Wu, C.-H.; Ouyang, P. 2012: Loss of Pnn expression results in mouse early embryonic lethality and cellular apoptosis through SRSF1-mediated alternative expression of Bcl-xS and ICAD. Journal of Cell Science 125(Part 13): 3164-3172
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Anonymous 1962: Loss of Protein in the Gut. British Medical Journal 2(5308): 841-842
Petchey, L.K.; Risebro, C.A.; Vieira, J.M.; Roberts, T.; Bryson, J.B.; Greensmith, L.; Lythgoe, M.F.; Riley, P.R. 2014: Loss of Prox1 in striated muscle causes slow to fast skeletal muscle fiber conversion and dilated cardiomyopathy. Proceedings of the National Academy of Sciences of the United States of America 111(26): 9515-9520
Lindgren, A.G.; Natsuhara, K.; Tian, E.; Vincent, J.J.; Li, X.; Jiao, J.; Wu, H.; Banerjee, U.; Clark, A.T. 2011: Loss of Pten causes tumor initiation following differentiation of murine pluripotent stem cells due to failed repression of Nanog. Plos one 6(1): E16478
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Ueno, T.; Sato, W.; Horie, Y.; Komatsu, M.; Tanida, I.; Yoshida, M.; Ohshima, S.; Mak, T.W.; Watanabe, S.; Kominami, E. 2008: Loss of Pten, a tumor suppressor, causes the strong inhibition of autophagy without affecting LC3 lipidation. Autophagy 4(5): 692-700
Zhang, Y.; Snider, A.; Willard, L.; Takemoto, D.J.; Lin, D. 2009: Loss of Purkinje cells in the PKCgamma H101Y transgenic mouse. Biochemical and Biophysical Research Communications 378(3): 524-528
Auguste, A.; Chassot, A.-A.; Grégoire, E.P.; Renault, L.; Pannetier, M.; Treier, M.; Pailhoux, E.; Chaboissier, M.-C. 2011: Loss of R-spondin1 and Foxl2 amplifies female-to-male sex reversal in XX mice. Sexual Development: Genetics Molecular Biology Evolution Endocrinology Embryology and Pathology of Sex Determination and Differentiation 5(6): 304-317
Kapfhamer, D.; Bettinger, J.C.; Davies, A.G.; Eastman, C.L.; Smail, E.A.; Heberlein, U.; McIntire, S.L. 2008: Loss of RAB-3/A in Caenorhabditis elegans and the mouse affects behavioral response to ethanol. Genes Brain and Behavior 7(6): 669-676
Queisser, M.A.; Kouri, F.M.; Königshoff, M.; Wygrecka, M.; Schubert, U.; Eickelberg, O.; Preissner, K.T. 2008: Loss of RAGE in pulmonary fibrosis: molecular relations to functional changes in pulmonary cell types. American Journal of Respiratory Cell and Molecular Biology 39(3): 337-345
Cao, D.; Chen, Y.; Tang, Y.; Peng, X-Chen.; Dong, H.; Li, L-Hao.; Cheng, K.; Ge, J.; Liu, J-Yan. 2013: Loss of RASSF1A expression in colorectal cancer and its association with K-ras status. Biomed Research International 2013: 976765
Van der Weyden, L.; Papaspyropoulos, A.; Poulogiannis, G.; Rust, A.G.; Rashid, M.; Adams, D.J.; Arends, M.J.; O'Neill, E. 2012: Loss of RASSF1A synergizes with deregulated RUNX2 signaling in tumorigenesis. Cancer Research 72(15): 3817-3827
Clark, J.; Freeman, J.; Donninger, H. 2012: Loss of RASSF2 Enhances Tumorigencity of Lung Cancer Cells and Confers Resistance to Chemotherapy. Molecular Biology International 2012: 705948
Nicolay, B.N.; Gameiro, P.A.; Tschöp, K.; Korenjak, M.; Heilmann, A.M.; Asara, J.M.; Stephanopoulos, G.; Iliopoulos, O.; Dyson, N.J. 2013: Loss of RBF1 changes glutamine catabolism. Genes and Development 27(2): 182-196
Sato, C.; Turkoz, M.; Dearborn, J.T.; Wozniak, D.F.; Kopan, R.; Hass, M.R. 2012: Loss of RBPj in postnatal excitatory neurons does not cause neurodegeneration or memory impairments in aged mice. Plos one 7(10): E48180
Argasinska, J.; Rana, A.A.; Gilchrist, M.J.; Lachani, K.; Young, A.; Smith, J.C. 2009: Loss of REEP4 causes paralysis of the Xenopus embryo. International Journal of Developmental Biology 53(1): 37-43
Martinho, O.; Gouveia, A.ón.; Silva, P.; Pimenta, A.; Reis, R.M.; Lopes, J.é M. 2009: Loss of RKIP expression is associated with poor survival in GISTs. Virchows Archiv: An International Journal of Pathology 455(3): 277-284
Jia, Y.; Lisch, D.R.; Ohtsu, K.; Scanlon, M.J.; Nettleton, D.; Schnable, P.S. 2009: Loss of RNA-dependent RNA polymerase 2 (RDR2) function causes widespread and unexpected changes in the expression of transposons, genes, and 24-nt small RNAs. Plos Genetics 5(11): E1000737
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Charpentier, X.; Faucher, S.éb.P.; Kalachikov, S.; Shuman, H.A. 2008: Loss of RNase R induces competence development in Legionella pneumophila. Journal of Bacteriology 190(24): 8126-8136
Singh, A.; Vajpayee, M.; Ali, S.A.; Chauhan, N.K. 2013: Loss of RORγt DNA binding activity inhibits IL-17 expression in HIV-1 infected Indian individuals. Viral Immunology 26(1): 60-67
Shio, S.; Kodama, Y.; Ida, H.; Shiokawa, M.; Kitamura, K.; Hatano, E.; Uemoto, S.; Chiba, T. 2011: Loss of RUNX3 expression by histone deacetylation is associated with biliary tract carcinogenesis. Cancer Science 102(4): 776-783
Hsu, P.-I.; Hsieh, H.-L.; Lee, J.; Lin, L.-F.; Chen, H.-C.; Lu, P.-J.; Hsiao, M. 2009: Loss of RUNX3 expression correlates with differentiation, nodal metastasis, and poor prognosis of gastric cancer. Annals of Surgical Oncology 16(6): 1686-1694
Jin, Z.; Han, Y-Xin.; Han, X-Rui. 2013: Loss of RUNX3 expression may contribute to poor prognosis in patients with chondrosarcoma. Journal of Molecular Histology 44(6): 645-652
Cheng, H.-C.; Liu, Y.-P.; Shan, Y.-S.; Huang, C.-Y.; Lin, F.-C.; Lin, L.-C.; Lee, L.; Tsai, C.-H.; Hsiao, M.; Lu, P.-J. 2013: Loss of RUNX3 increases osteopontin expression and promotes cell migration in gastric cancer. Carcinogenesis 34(11): 2452-2459
Nam, K.T.; Lee, H.-J.; Smith, J.J.; Lapierre, L.A.; Kamath, V.P.; Chen, X.; Aronow, B.J.; Yeatman, T.J.; Bhartur, S.G.; Calhoun, B.C.; Condie, B.; Manley, N.R.; Beauchamp, R.D.; Coffey, R.J.; Goldenring, J.R. 2010: Loss of Rab25 promotes the development of intestinal neoplasia in mice and is associated with human colorectal adenocarcinomas. Journal of Clinical Investigation 120(3): 840-849
Bolasco, G.; Tracey-White, D.C.; Tolmachova, T.; Thorley, A.J.; Tetley, T.D.; Seabra, M.C.; Hume, A.N. 2011: Loss of Rab27 function results in abnormal lung epithelium structure in mice. American Journal of Physiology. Cell Physiology 300(3): C466-C476
Takino, K.; Ohsawa, S.; Igaki, T. 2014: Loss of Rab5 drives non-autonomous cell proliferation through TNF and Ras signaling in Drosophila. Developmental Biology 395(1): 19-28
Tumiati, M.; Hemmes, A.; Uusivirta, S.; Koopal, S.; Kankainen, M.; Lehtonen, E.; Kuznetsov, S.G. 2015: Loss of Rad51c accelerates tumourigenesis in sebaceous glands of Trp53-mutant mice. Journal of Pathology 235(1): 136-146
Kuznetsov, S.G.; Haines, D.C.; Martin, B.K.; Sharan, S.K. 2009: Loss of Rad51c leads to embryonic lethality and modulation of Trp53-dependent tumorigenesis in mice. Cancer Research 69(3): 863-872
Karamitopoulou, E.; Zlobec, I.; Gloor, B.; Kondi-Pafiti, A.; Lugli, A.; Perren, A. 2013: Loss of Raf-1 kinase inhibitor protein (RKIP) is strongly associated with high-grade tumor budding and correlates with an aggressive phenotype in pancreatic ductal adenocarcinoma (PDAC). Journal of Translational Medicine 11: 311
Eun, Y.G.; Kim, S.W.; Kim, Y.W.; Kwon, K.H. 2010: Loss of Raf-1 kinase inhibitor protein expression is associated with lymph node metastasis in papillary thyroid cancer. Otolaryngology--Head and Neck Surgery: Official Journal of American Academy of Otolaryngology-Head and Neck Surgery 143(4): 544-548
Subramanian, B.; Anand, M.; Khan, N.W.; Khanna, H. 2014: Loss of Raf-1 kinase inhibitory protein delays early-onset severe retinal ciliopathy in Cep290rd16 mouse. Investigative Ophthalmology and Visual Science 55(9): 5788-5794
Kim, H.-S.; Kim, G.Y.; Lim, S.-J.; Kim, Y.W. 2010: Loss of Raf-1 kinase inhibitory protein in pancreatic ductal adenocarcinoma. Pathology 42(7): 655-660
Sfeir, A.; Kabir, S.; van Overbeek, M.; Celli, G.B.; de Lange, T. 2010: Loss of Rap1 induces telomere recombination in the absence of NHEJ or a DNA damage signal. Science 327(5973): 1657-1661
Nellore, A.; Paziana, K.; Ma, C.; Tsygankova, O.M.; Wang, Y.; Puttaswamy, K.; Iqbal, A.U.; Franks, S.R.; Lv, Y.; Troxel, A.B.; Feldman, M.D.; Meinkoth, J.L.; Brose, M.S. 2009: Loss of Rap1GAP in papillary thyroid cancer. Journal of Clinical Endocrinology and Metabolism 94(3): 1026-1032
Collins, M.J.; Napoli, I.; Ribeiro, S.; Roberts, S.; Lloyd, A.C. 2012: Loss of Rb cooperates with Ras to drive oncogenic growth in mammalian cells. Current Biology: Cb 22(19): 1765-1773
Van Harn, T.; Foijer, F.; van Vugt, M.; Banerjee, R.; Yang, F.; Oostra, A.; Joenje, H.; te Riele, H. 2010: Loss of Rb proteins causes genomic instability in the absence of mitogenic signaling. Genes and Development 24(13): 1377-1388
Kucherlapati, M.H.; Yang, K.; Fan, K.; Kuraguchi, M.; Sonkin, D.; Rosulek, A.; Lipkin, M.; Bronson, R.T.; Aronow, B.J.; Kucherlapati, R. 2008: Loss of Rb1 in the gastrointestinal tract of Apc1638N mice promotes tumors of the cecum and proximal colon. Proceedings of the National Academy of Sciences of the United States of America 105(40): 15493-15498
Luo, J.; Zhu, Y.; Yang, G.; Gong, L.; Wang, B.; Liu, H. 2011: Loss of Reprimo and S100A2 expression in human gastric adenocarcinoma. Diagnostic Cytopathology 39(10): 752-757
Kiratli, H.; Erkan, K. 2010: Loss of Retinal Pigment Epithelium Associated with Bilateral Diffuse Uveal Melanocytic Proliferation. Ophthalmic Surgery Lasers and Imaging: the Official Journal of the International Society for Imaging in the Eye 2010: 1-4
Barone, I.; Brusco, L.; Gu, G.; Selever, J.; Beyer, A.; Covington, K.R.; Tsimelzon, A.; Wang, T.; Hilsenbeck, S.G.; Chamness, G.C.; Andò, S.; Fuqua, S.A.W. 2011: Loss of Rho GDIα and resistance to tamoxifen via effects on estrogen receptor α. Journal of the National Cancer Institute 103(7): 538-552
DeWard, A.D.; Leali, K.; West, R.A.; Prendergast, G.C.; Alberts, A.S. 2009: Loss of RhoB expression enhances the myelodysplastic phenotype of mammalian diaphanous-related Formin mDia1 knockout mice. Plos one 4(9): E7102
Bousquet, E.; Mazières, J.; Privat, M.; Rizzati, V.; Casanova, A.; Ledoux, A.; Mery, E.; Couderc, B.; Favre, G.; Pradines, A. 2009: Loss of RhoB expression promotes migration and invasion of human bronchial cells via activation of AKT1. Cancer Research 69(15): 6092-6099
Li, W.; Wang, H.; Jin, X.; Zhao, L. 2013: Loss of RhoGdi is a novel independent prognostic factor in hepatocellular carcinoma. International Journal of Clinical and Experimental Pathology 6(11): 2535-2541
Lee, S.Yu-Chien.; De la Mota-Peynado, A.; Roelofs, J. 2011: Loss of Rpt5 protein interactions with the core particle and Nas2 protein causes the formation of faulty proteasomes that are inhibited by Ecm29 protein. Journal of Biological Chemistry 286(42): 36641-36651
Adhami, M.D.; Rashid, H.; Chen, H.; Clarke, J.C.; Yang, Y.; Javed, A. 2015: Loss of Runx2 in committed osteoblasts impairs postnatal skeletogenesis. Journal of Bone and Mineral Research: the Official Journal of the American Society for Bone and Mineral Research 30(1): 71-82
Sakuma, A.; Fukamachi, H.; Ito, K.; Ito, Y.; Takeuchi, S.; Takahashi, S. 2008: Loss of Runx3 affects ovulation and estrogen-induced endometrial cell proliferation in female mice. Molecular Reproduction and Development 75(11): 1653-1661
Ito, K.; Chuang, L.Shyue.Huey.; Ito, T.; Chang, T.Ling.; Fukamachi, H.; Salto-Tellez, M.; Ito, Y. 2011: Loss of Runx3 is a key event in inducing precancerous state of the stomach. Gastroenterology 140(5): 1536-46.E8
Kim, G.; Chung, J.-Y.; Jun, S.-Y.; Eom, D.W.; Bae, Y.K.; Jang, K.-T.; Kim, J.; Yu, E.; Hong, S.-M. 2013: Loss of S100A14 expression is associated with the progression of adenocarcinomas of the small intestine. Pathobiology: Journal of Immunopathology Molecular and Cellular Biology 80(2): 95-101
Dwight, T.; Benn, D.E.; Clarkson, A.; Vilain, R.; Lipton, L.; Robinson, B.G.; Clifton-Bligh, R.J.; Gill, A.J. 2013: Loss of SDHA expression identifies SDHA mutations in succinate dehydrogenase-deficient gastrointestinal stromal tumors. American Journal of Surgical Pathology 37(2): 226-233
Lee, J.; Wang, J.; Torbenson, M.; Lu, Y.; Liu, Q.Z.; Li, S. 2010: Loss of SDHB and NF1 genes in a malignant phyllodes tumor of the breast as detected by oligo-array comparative genomic hybridization. Cancer Genetics and Cytogenetics 196(2): 179-183
Raymond, A.S.; Elder, B.; Ensslin, M.; Shur, B.D. 2010: Loss of SED1/MFG-E8 results in altered luminal physiology in the epididymis. Molecular Reproduction and Development 77(6): 550-563
Lee, C.-H.; Hung, Y.-J.; Lin, C.-Y.; Hung, P.-H.; Hung, H.-W.; Shieh, Y.-S. 2010: Loss of SFRP1 expression is associated with aberrant beta-catenin distribution and tumor progression in mucoepidermoid carcinoma of salivary glands. Annals of Surgical Oncology 17(8): 2237-2246
Benson, E.A.; Goebl, M.G.; Yang, F.-C.; Kapur, R.; McClintick, J.; Sanghani, S.; Clapp, D.W.; Harrington, M.A. 2010: Loss of SIMPL compromises TNF-alpha-dependent survival of hematopoietic progenitors. Experimental Hematology 38(2): 71-81
Jang, S.-H.; Min, K.-W.; Paik, S.S.; Jang, K.-S. 2012: Loss of SIRT1 histone deacetylase expression associates with tumour progression in colorectal adenocarcinoma. Journal of Clinical Pathology 65(8): 735-739
Shih, J.; Liu, L.; Mason, A.; Higashimori, H.; Donmez, G. 2014: Loss of SIRT4 decreases GLT-1-dependent glutamate uptake and increases sensitivity to kainic acid. Journal of Neurochemistry 131(5): 573-581
Yeo, M.; Park, H.J.; Kim, D.-K.; Kim, Y.B.; Cheong, J.Y.; Lee, K.J.; Cho, S.W. 2010: Loss of SM22 is a characteristic signature of colon carcinogenesis and its restoration suppresses colon tumorigenicity in vivo and in vitro. Cancer 116(11): 2581-2589
Voorneveld, P.W.; Kodach, L.L.; Jacobs, R.J.; Liv, N.; Zonnevylle, A.C.; Hoogenboom, J.P.; Biemond, I.; Verspaget, H.W.; Hommes, D.W.; de Rooij, K.; van Noesel, C.J.M.; Morreau, H.; van Wezel, T.; Offerhaus, G.J.A.; van den Brink, G.R.; Peppelenbosch, M.P.; Ten Dijke, P.; Hardwick, J.C.H. 2014: Loss of SMAD4 alters BMP signaling to promote colorectal cancer cell metastasis via activation of Rho and ROCK. Gastroenterology 147(1): 196-208.E13
Itatani, Y.; Kawada, K.; Fujishita, T.; Kakizaki, F.; Hirai, H.; Matsumoto, T.; Iwamoto, M.; Inamoto, S.; Hatano, E.; Hasegawa, S.; Maekawa, T.; Uemoto, S.; Sakai, Y.; Taketo, M.M. 2013: Loss of SMAD4 from colorectal cancer cells promotes CCL15 expression to recruit CCR1+ myeloid cells and facilitate liver metastasis. Gastroenterology 145(5): 1064-1075.E11
Davison, J.M.; Hartman, D.A.; Singhi, A.D.; Choudry, H.A.; Ahrendt, S.A.; Zureikat, A.H.; Ramalingam, L.; Nikiforova, M.; Pai, R.K. 2014: Loss of SMAD4 protein expression is associated with high tumor grade and poor prognosis in disseminated appendiceal mucinous neoplasms. American Journal of Surgical Pathology 38(5): 583-592
Boone, B.A.; Sabbaghian, S.; Zenati, M.; Marsh, J.Wallis.; Moser, A.James.; Zureikat, A.H.; Singhi, A.D.; Zeh, H.J.; Krasinskas, A.M. 2014: Loss of SMAD4 staining in pre-operative cell blocks is associated with distant metastases following pancreaticoduodenectomy with venous resection for pancreatic cancer. Journal of Surgical Oncology 110(2): 171-175
Mobley, B.C.; McKenney, J.K.; Bangs, C.D.; Callahan, K.; Yeom, K.W.; Schneppenheim, R.; Hayden, M.G.; Cherry, A.M.; Gokden, M.; Edwards, M.S.B.; Fisher, P.G.; Vogel, H. 2010: Loss of SMARCB1/INI1 expression in poorly differentiated chordomas. Acta Neuropathologica 120(6): 745-753
Tao, T.; Li, G.; Dong, Q.; Liu, D.; Liu, C.; Han, D.; Huang, Y.; Chen, S.; Xu, B.; Chen, M. 2014: Loss of SNAIL inhibits cellular growth and metabolism through the miR-128-mediated RPS6KB1/HIF-1α/PKM2 signaling pathway in prostate cancer cells. Tumour Biology: the Journal of the International Society for Oncodevelopmental Biology and Medicine 35(9): 8543-8550
Qian, P.; Banerjee, A.; Wu, Z.-S.; Zhang, X.; Wang, H.; Pandey, V.; Zhang, W.-J.; Lv, X.-F.; Tan, S.; Lobie, P.E.; Zhu, T. 2012: Loss of SNAIL regulated miR-128-2 on chromosome 3p22.3 targets multiple stem cell factors to promote transformation of mammary epithelial cells. Cancer Research 72(22): 6036-6050
Rapaport, D.; Lugassy, Y.; Sprecher, E.; Horowitz, M. 2010: Loss of SNAP29 impairs endocytic recycling and cell motility. Plos one 5(3): E9759
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Taleb, S.; Romain, M.él.; Ramkhelawon, B.; Uyttenhove, C.; Pasterkamp, G.; Herbin, O.; Esposito, B.; Perez, N.; Yasukawa, H.; Van Snick, J.; Yoshimura, A.; Tedgui, A.; Mallat, Z. 2009: Loss of SOCS3 expression in T cells reveals a regulatory role for interleukin-17 in atherosclerosis. Journal of Experimental Medicine 206(10): 2067-2077
Ying, M.; Li, D.; Yang, L.; Wang, M.; Wang, N.; Chen, Y.; He, M.; Wang, Y. 2010: Loss of SOCS3 expression is associated with an increased risk of recurrent disease in breast carcinoma. Journal of Cancer Research and Clinical Oncology 136(10): 1617-1626
Knisz, J.; Banks, A.; McKeag, L.; Metcalfe, D.D.; Rothman, P.B.; Brown, J.M. 2009: Loss of SOCS7 in mice results in severe cutaneous disease and increased mast cell activation. Clinical Immunology 132(2): 277-284
Doddrell, R.D.S.; Dun, X-Peng.; Shivane, A.; Feltri, M.Laura.; Wrabetz, L.; Wegner, M.; Sock, E.; Hanemann, C.Oliver.; Parkinson, D.B. 2013: Loss of SOX10 function contributes to the phenotype of human Merlin-null schwannoma cells. Brain: a Journal of Neurology 136(Pt 2): 549-563
Said, N.; Frierson, H.F.; Sanchez-Carbayo, M.; Brekken, R.A.; Theodorescu, D. 2013: Loss of SPARC in bladder cancer enhances carcinogenesis and progression. Journal of Clinical Investigation 123(2): 751-766
Ehninger, A.; Boch, T.; Medyouf, H.; Müdder, K.; Orend, G.; Trumpp, A. 2014: Loss of SPARC protects hematopoietic stem cells from chemotherapy toxicity by accelerating their return to quiescence. Blood 123(26): 4054-4063
Manning-Tobin, J.J.; Moore, K.J.; Seimon, T.A.; Bell, S.A.; Sharuk, M.; Alvarez-Leite, J.I.; de Winther, M.P.J.; Tabas, I.; Freeman, M.W. 2009: Loss of SR-A and CD36 activity reduces atherosclerotic lesion complexity without abrogating foam cell formation in hyperlipidemic mice. Arteriosclerosis Thrombosis and Vascular Biology 29(1): 19-26
Carmody Soni, E.E.; Schlottman, S.; Erkizan, H.V.; Uren, A.; Toretsky, J.A. 2014: Loss of SS18-SSX1 inhibits viability and induces apoptosis in synovial sarcoma. Clinical Orthopaedics and Related Research 472(3): 874-882
Murphy, N.C.; Biankin, A.V.; Millar, E.K.A.; McNeil, C.M.; O'Toole, S.A.; Segara, D.; Crea, P.; Olayioye, M.A.; Lee, C.S.; Fox, S.B.; Morey, A.L.; Christie, M.; Musgrove, E.A.; Daly, R.J.; Lindeman, G.J.; Henshall, S.M.; Visvader, J.E.; Sutherland, R.L. 2010: Loss of STARD10 expression identifies a group of poor prognosis breast cancers independent of HER2/Neu and triple negative status. International Journal of Cancer 126(6): 1445-1453
Klover, P.J.; Muller, W.J.; Robinson, G.W.; Pfeiffer, R.M.; Yamaji, D.; Hennighausen, L. 2010: Loss of STAT1 from mouse mammary epithelium results in an increased Neu-induced tumor burden. Neoplasia 12(11): 899-905
Gao, Y.; Li, Y.; Guo, X.; Wu, Z.; Zhang, W. 2012: Loss of STAT1 in bone marrow-derived cells accelerates skeletal muscle regeneration. Plos one 7(5): E37656
Eagleton, M.J.; Xu, J.; Liao, M.; Parine, B.; Chisolm, G.M.; Graham, L.M. 2010: Loss of STAT1 is associated with increased aortic rupture in an experimental model of aortic dissection and aneurysm formation. Journal of Vascular Surgery 51(4): 951
Putz, E.M.; Hoelzl, M.A.; Baeck, J.; Bago-Horvath, Z.; Schuster, C.; Reichholf, B.; Kern, D.; Aberger, F.; Sexl, V.; Hoelbl-Kovacic, A. 2014: Loss of STAT3 in Lymphoma Relaxes NK Cell-Mediated Tumor Surveillance. Cancers 6(1): 193-210
Zouein, F.A.; Duhé, R.J.; Arany, I.; Shirey, K.; Hosler, J.P.; Liu, H.; Saad, I.; Kurdi, M.; Booz, G.W. 2014: Loss of STAT3 in mouse embryonic fibroblasts reveals its Janus-like actions on mitochondrial function and cell viability. Cytokine 66(1): 7-16
Gotthardt, D.; Putz, E.M.; Straka, E.; Kudweis, P.; Biaggio, M.; Poli, V.; Strobl, B.; Müller, M.; Sexl, V. 2014: Loss of STAT3 in murine NK cells enhances NK cell-dependent tumor surveillance. Blood 124(15): 2370-2379
Hosui, A.; Kimura, A.; Yamaji, D.; Zhu, B-mei.; Na, R.; Hennighausen, L. 2009: Loss of STAT5 causes liver fibrosis and cancer development through increased TGF-{beta} and STAT3 activation. Journal of Experimental Medicine 206(4): 819-831
Benardais, K.; Kasem, B.; Couegnas, A.; Samama, B.; Fernandez, S.; Schaeffer, C.; Antal, M.-C.; Job, D.; Schweitzer, A.; Andrieux, A.; Giersch, A.; Nehlig, A.; Boehm, N. 2010: Loss of STOP protein impairs peripheral olfactory neurogenesis. Plos one 5(9): E12753
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Wang, C.-M.; Yang, W.-H. 2013: Loss of SUMOylation on ATF3 inhibits proliferation of prostate cancer cells by modulating CCND1/2 activity. International Journal of Molecular Sciences 14(4): 8367-8380
Tang, H.; Li, A.; Bi, J.; Veltman, D.M.; Zech, T.; Spence, H.J.; Yu, X.; Timpson, P.; Insall, R.H.; Frame, M.C.; Machesky, L.M. 2013: Loss of Scar/WAVE complex promotes N-WASP- and FAK-dependent invasion. Current Biology: Cb 23(2): 107-117
Norman, M.; Wisniewska, K.A.; Lawrenson, K.; Garcia-Miranda, P.; Tada, M.; Kajita, M.; Mano, H.; Ishikawa, S.; Ikegawa, M.; Shimada, T.; Fujita, Y. 2012: Loss of Scribble causes cell competition in mammalian cells. Journal of Cell Science 125(Part 1): 59-66
Iwaisako, K.; Hatano, E.; Taura, K.; Nakajima, A.; Tada, M.; Seo, S.; Tamaki, N.; Sato, F.; Ikai, I.; Uemoto, S.; Kinoshita, M. 2008: Loss of Sept4 exacerbates liver fibrosis through the dysregulation of hepatic stellate cells. Journal of Hepatology 49(5): 768-778
Luaces, J.P.; Rossi, L.F.; Sciurano, R.B.; Rebuzzini, P.; Merico, V.; Zuccotti, M.; Merani, M.S.; Garagna, S. 2014: Loss of Sertoli-germ cell adhesion determines the rapid germ cell elimination during the seasonal regression of the seminiferous epithelium of the large hairy armadillo Chaetophractus villosus. Biology of Reproduction 90(3): 48
Majumdar, S.; Gong, E.M.; Di Vizio, D.; Dreyfuss, J.; Degraff, D.J.; Hager, M.H.; Park, P.J.; Bellmunt, J.; Matusik, R.J.; Rosenberg, J.E.; Adam, R.M. 2013: Loss of Sh3gl2/endophilin A1 is a common event in urothelial carcinoma that promotes malignant behavior. Neoplasia 15(7): 749-760
Zhang, X.; Zhang, Y.; Tao, B.; Teng, L.; Li, Y.; Cao, R.; Gui, Q.; Ye, M.; Mou, X.; Cheng, H.; Hu, H.; Zhou, R.; Wu, X.; Xie, Q.; Ning, W.; Lai, M.; Shen, H.; Feng, G-Sheng.; Ke, Y. 2012: Loss of Shp2 in alveoli epithelia induces deregulated surfactant homeostasis, resulting in spontaneous pulmonary fibrosis. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 26(6): 2338-2350
Manthey, A.L.; Lachke, S.A.; FitzGerald, P.G.; Mason, R.W.; Scheiblin, D.A.; McDonald, J.H.; Duncan, M.K. 2014: Loss of Sip1 leads to migration defects and retention of ectodermal markers during lens development. Mechanisms of Development 131: 86-110
Lo Sasso, G.; Ryu, D.; Mouchiroud, L.; Fernando, S.C.; Anderson, C.L.; Katsyuba, E.; Piersigilli, A.; Hottiger, M.O.; Schoonjans, K.; Auwerx, J. 2014: Loss of Sirt1 function improves intestinal anti-bacterial defense and protects from colitis-induced colorectal cancer. Plos one 9(7): E102495
Zeng, H.; Li, L.; Chen, J.-X. 2014: Loss of Sirt3 limits bone marrow cell-mediated angiogenesis and cardiac repair in post-myocardial infarction. Plos one 9(9): E107011
Liu, X.; Li, T.; Riederer, B.; Lenzen, H.; Ludolph, L.; Yeruva, S.; Tuo, B.; Soleimani, M.; Seidler, U. 2015: Loss of Slc26a9 anion transporter alters intestinal electrolyte and HCO3(-) transport and reduces survival in CFTR-deficient mice. Pflugers Archiv: European Journal of Physiology 467(6): 1261-1275
Hailey, D.W.; Roberts, B.; Owens, K.N.; Stewart, A.K.; Linbo, T.; Pujol, R.; Alper, S.L.; Rubel, E.W.; Raible, D.W. 2012: Loss of Slc4a1b chloride/bicarbonate exchanger function protects mechanosensory hair cells from aminoglycoside damage in the zebrafish mutant persephone. Plos Genetics 8(10): E1002971
Kawakatsu, M.; Kanno, S.; Gui, T.; Gai, Z.; Itoh, S.; Tanishima, H.; Oikawa, K.; Muragaki, Y. 2011: Loss of Smad3 gives rise to poor soft callus formation and accelerates early fracture healing. Experimental and Molecular Pathology 90(1): 107-115
Tanaka, T.; Watanabe, T.; Kazama, Y.; Tanaka, J.; Kanazawa, T.; Kazama, S.; Nagawa, H. 2008: Loss of Smad4 protein expression and 18qLOH as molecular markers indicating lymph node metastasis in colorectal cancer--a study matched for tumor depth and pathology. Journal of Surgical Oncology 97(1): 69-73
Allaire, J.M.; Darsigny, M.; Marcoux, S.éb.S.; Roy, S.éb.A.B.; Schmouth, J.-F.; Umans, L.; Zwijsen, A.; Boudreau, F.ço.; Perreault, N. 2011: Loss of Smad5 leads to the disassembly of the apical junctional complex and increased susceptibility to experimental colitis. American Journal of Physiology. Gastrointestinal and Liver Physiology 300(4): G586-G597
Moreno, N.; Schmidt, C.; Ahlfeld, J.; Pöschl, J.; Dittmar, S.; Pfister, S.M.; Kool, M.; Kerl, K.; Schüller, U. 2014: Loss of Smarc proteins impairs cerebellar development. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 34(40): 13486-13491
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Gagné-Sansfaçon, J.; Allaire, J.M.; Jones, C.; Boudreau, F.ço.; Perreault, N. 2014: Loss of Sonic hedgehog leads to alterations in intestinal secretory cell maturation and autophagy. Plos one 9(6): E98751
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Thomas, S.L.; Schultz, C.R.; Mouzon, E.; Golembieski, W.A.; El Naili, R.; Radakrishnan, A.; Lemke, N.; Poisson, L.M.; Gutiérrez, J.A.; Cottingham, S.; Rempel, S.A. 2015: Loss of Sparc in p53-null Astrocytes Promotes Macrophage Activation and Phagocytosis Resulting in Decreased Tumor Size and Tumor Cell Survival. Brain Pathology 25(4): 391-400
Kaja, S.; Sumien, N.; Shah, V.V.; Puthawala, I.; Maynard, A.N.; Khullar, N.; Payne, A.J.; Forster, M.J.; Koulen, P. 2015: Loss of Spatial Memory, Learning, and Motor Function During Normal Aging Is Accompanied by Changes in Brain Presenilin 1 and 2 Expression Levels. Molecular Neurobiology 52(1): 545-554
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Miyamoto, R.; Jijiwa, M.; Asai, M.; Kawai, K.; Ishida-Takagishi, M.; Mii, S.; Asai, N.; Enomoto, A.; Murakumo, Y.; Yoshimura, A.; Takahashi, M. 2011: Loss of Sprouty2 partially rescues renal hypoplasia and stomach hypoganglionosis but not intestinal aganglionosis in Ret Y1062F mutant mice. Developmental Biology 349(2): 160-168
Fukaya, T.; Someya, K.; Hibino, S.; Okada, M.; Yamane, H.; Taniguchi, K.; Yoshimura, A. 2014: Loss of Sprouty4 in T cells ameliorates experimental autoimmune encephalomyelitis in mice by negatively regulating IL-1β receptor expression. Biochemical and Biophysical Research Communications 447(3): 471-478
Duek, A.; Lundberg, P.; Shimizu, T.; Grisouard, J.; Karow, A.; Kubovcakova, L.; Hao-Shen, H.; Dirnhofer, S.; Skoda, R.C. 2014: Loss of Stat1 decreases megakaryopoiesis and favors erythropoiesis in a JAK2-V617F-driven mouse model of MPNs. Blood 123(25): 3943-3950
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Insaidoo, F.K.; Borbulevych, O.Y.; Hossain, M.; Santhanagopolan, S.M.; Baxter, T.K.; Baker, B.M. 2011: Loss of T cell antigen recognition arising from changes in peptide and major histocompatibility complex protein flexibility: implications for vaccine design. Journal of Biological Chemistry 286(46): 40163-40173
Joetham, A.; Ohnishi, H.; Okamoto, M.; Takeda, K.; Schedel, M.; Domenico, J.; Dakhama, A.; Gelfand, E.W. 2012: Loss of T regulatory cell suppression following signaling through glucocorticoid-induced tumor necrosis receptor (GITR) is dependent on c-Jun N-terminal kinase activation. Journal of Biological Chemistry 287(21): 17100-17108
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Jones, C.L.; Bhatla, T.; Blum, R.; Wang, J.; Paugh, S.W.; Wen, X.; Bourgeois, W.; Bitterman, D.S.; Raetz, E.A.; Morrison, D.J.; Teachey, D.T.; Evans, W.E.; Garabedian, M.J.; Carroll, W.L. 2014: Loss of TBL1XR1 disrupts glucocorticoid receptor recruitment to chromatin and results in glucocorticoid resistance in a B-lymphoblastic leukemia model. Journal of Biological Chemistry 289(30): 20502-20515
Kameda, T.; Shide, K.; Yamaji, T.; Kamiunten, A.; Sekine, M.; Taniguchi, Y.; Hidaka, T.; Kubuki, Y.; Shimoda, H.; Marutsuka, K.; Sashida, G.; Aoyama, K.; Yoshimitsu, M.; Harada, T.; Abe, H.; Miike, T.; Iwakiri, H.; Tahara, Y.; Sueta, M.; Yamamoto, S.; Hasuike, S.; Nagata, K.; Iwama, A.; Kitanaka, A.; Shimoda, K. 2015: Loss of TET2 has dual roles in murine myeloproliferative neoplasms: disease sustainer and disease accelerator. Blood 125(2): 304-315
Sharoyko, V.V.; Abels, M.; Sun, J.; Nicholas, L.M.; Mollet, I.G.; Stamenkovic, J.A.; Göhring, I.; Malmgren, S.; Storm, P.; Fadista, J.ão.; Spégel, P.; Metodiev, M.D.; Larsson, N.-G.ör.; Eliasson, L.; Wierup, N.; Mulder, H. 2014: Loss of TFB1M results in mitochondrial dysfunction that leads to impaired insulin secretion and diabetes. Human Molecular Genetics 23(21): 5733-5749
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Roarty, K.; Baxley, S.E.; Crowley, M.R.; Frost, A.R.; Serra, R. 2009: Loss of TGF-beta or Wnt5a results in an increase in Wnt/beta-catenin activity and redirects mammary tumour phenotype. Breast Cancer Research: Bcr 11(2): R19
Song, S.; Maru, D.M.; Ajani, J.A.; Chan, C.-H.; Honjo, S.; Lin, H.-K.; Correa, A.; Hofstetter, W.L.; Davila, M.; Stroehlein, J.; Mishra, L. 2013: Loss of TGF-β adaptor β2SP activates notch signaling and SOX9 expression in esophageal adenocarcinoma. Cancer Research 73(7): 2159-2169
Li, X.; Sterling, J.A.; Fan, K.-H.; Vessella, R.L.; Shyr, Y.; Hayward, S.W.; Matrisian, L.M.; Bhowmick, N.A. 2012: Loss of TGF-β responsiveness in prostate stromal cells alters chemokine levels and facilitates the development of mixed osteoblastic/osteolytic bone lesions. Molecular Cancer Research: Mcr 10(4): 494-503
Guasch, G.ér.; Schober, M.; Pasolli, H.A.; Conn, E.B.; Polak, L.; Fuchs, E. 2007: Loss of TGFbeta signaling destabilizes homeostasis and promotes squamous cell carcinomas in stratified epithelia. Cancer Cell 12(4): 313-327
Wei, E.; Ben Ali, Y.; Lyon, J.; Wang, H.; Nelson, R.; Dolinsky, V.W.; Dyck, J.R.B.; Mitchell, G.; Korbutt, G.S.; Lehner, R. 2010: Loss of TGH/Ces3 in mice decreases blood lipids, improves glucose tolerance, and increases energy expenditure. Cell Metabolism 11(3): 183-193
Wu, D.-W.; Tsai, L.-H.; Chen, P.-M.; Lee, M.-C.; Wang, L.; Chen, C.-Y.; Cheng, Y.-W.; Lee, H. 2012: Loss of TIMP-3 promotes tumor invasion via elevated IL-6 production and predicts poor survival and relapse in HPV-infected non-small cell lung cancer. American Journal of Pathology 181(5): 1796-1806
Kassiri, Z.; Oudit, G.Y.; Kandalam, V.; Awad, A.; Wang, X.; Ziou, X.; Maeda, N.; Herzenberg, A.M.; Scholey, J.W. 2009: Loss of TIMP3 enhances interstitial nephritis and fibrosis. Journal of the American Society of Nephrology: Jasn 20(6): 1223-1235
Stöhr, R.; Cavalera, M.; Menini, S.; Mavilio, M.; Casagrande, V.; Rossi, C.; Urbani, A.; Cardellini, M.; Pugliese, G.; Menghini, R.; Federici, M. 2014: Loss of TIMP3 exacerbates atherosclerosis in ApoE null mice. Atherosclerosis 235(2): 438-443
Fiorentino, L.; Cavalera, M.; Menini, S.; Marchetti, V.; Mavilio, M.; Fabrizi, M.; Conserva, F.; Casagrande, V.; Menghini, R.; Pontrelli, P.; Arisi, I.; D'Onofrio, M.; Lauro, D.; Khokha, R.; Accili, D.; Pugliese, G.; Gesualdo, L.; Lauro, R.; Federici, M. 2013: Loss of TIMP3 underlies diabetic nephropathy via FoxO1/STAT1 interplay. Embo Molecular Medicine 5(3): 441-455
Morales-Nebreda, L.; Mutlu, Gökhan.M.; Scott Budinger, G.R.; Radigan, K.A. 2014: Loss of TLR4 does not prevent influenza A-induced mortality. American Journal of Respiratory and Critical Care Medicine 189(10): 1280-1281
Ousingsawat, J.; Martins, J.R.; Schreiber, R.; Rock, J.R.; Harfe, B.D.; Kunzelmann, K. 2009: Loss of TMEM16A causes a defect in epithelial Ca2+-dependent chloride transport. Journal of Biological Chemistry 284(42): 28698-28703
Bel, S.; Elkis, Y.; Lerer-Goldstein, T.; Nyska, A.; Shpungin, S.; Nir, U. 2012: Loss of TMF/ARA160 protein renders colonic mucus refractory to bacterial colonization and diminishes intestinal susceptibility to acute colitis. Journal of Biological Chemistry 287(30): 25631-25639
Gallmeier, E.; Bader, D.C.; Kriegl, L.; Berezowska, S.; Seeliger, H.; Göke, B.; Kirchner, T.; Bruns, C.; De Toni, E.N. 2013: Loss of TRAIL-receptors is a recurrent feature in pancreatic cancer and determines the prognosis of patients with no nodal metastasis after surgery. Plos one 8(2): E56760
Humphrey, R.K.; Ray, A.; Gonuguntla, S.; Hao, E.; Jhala, U.S. 2014: Loss of TRB3 alters dynamics of MLK3-JNK signaling and inhibits cytokine-activated pancreatic beta cell death. Journal of Biological Chemistry 289(43): 29994-30004
Quintás-Cardama, A.; Zhang, N.; Qiu, Y.H.; Post, S.; Creighton, C.J.; Cortes, J.; Coombes, K.R.; Kornblau, S.M. 2015: Loss of TRIM62 expression is an independent adverse prognostic factor in acute myeloid leukemia. Clinical Lymphoma Myeloma and Leukemia 15(2): 115-127.E15
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Coblentz, J.; St Croix, C.; Kiselyov, K. 2014: Loss of TRPML1 promotes production of reactive oxygen species: is oxidative damage a factor in mucolipidosis type IV?. Biochemical Journal 457(2): 361-368
Liberati, S.; Morelli, M.B.; Amantini, C.; Farfariello, V.; Santoni, M.; Conti, A.; Nabissi, M.; Cascinu, S.; Santoni, G. 2014: Loss of TRPV2 Homeostatic Control of Cell Proliferation Drives Tumor Progression. Cells 3(1): 112-128
Bolkan, B.J.; Kretzschmar, D. 2014: Loss of Tau results in defects in photoreceptor development and progressive neuronal degeneration in Drosophila. Developmental Neurobiology 74(12): 1210-1225
Funato, N.; Nakamura, M.; Richardson, J.A.; Srivastava, D.; Yanagisawa, H. 2015: Loss of Tbx1 induces bone phenotypes similar to cleidocranial dysplasia. Human Molecular Genetics 24(2): 424-435
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Bolognesi, R.; Fischer, T.D.; Brown, S.J. 2009: Loss of Tc-arrow and canonical Wnt signaling alters posterior morphology and pair-rule gene expression in the short-germ insect, Tribolium castaneum. Development Genes and Evolution 219(7): 369-375
Dawlaty, M.M.; Breiling, A.; Le, T.; Barrasa, M.I.; Raddatz, G.ün.; Gao, Q.; Powell, B.E.; Cheng, A.W.; Faull, K.F.; Lyko, F.; Jaenisch, R. 2014: Loss of Tet enzymes compromises proper differentiation of embryonic stem cells. Developmental Cell 29(1): 102-111
Taniguchi, K.; Anderson, A.E.; Sutherland, A.E.; Wotton, D. 2012: Loss of Tgif function causes holoprosencephaly by disrupting the SHH signaling pathway. Plos Genetics 8(2): E1002524
Page, E.E.; Greathead, L.; Metcalf, R.; Clark, S.-A.; Hart, M.; Fuchs, D.; Pantelidis, P.; Gotch, F.; Pozniak, A.; Nelson, M.; Boasso, A.; Gazzard, B.; Kelleher, P. 2014: Loss of Th22 cells is associated with increased immune activation and IDO-1 activity in HIV-1 infection. Journal of Acquired Immune Deficiency Syndromes 67(3): 227-235
Nicola, T.; Hagood, J.S.; James, M.L.; Macewen, M.W.; Williams, T.A.; Hewitt, M.M.; Schwiebert, L.; Bulger, A.; Oparil, S.; Chen, Y.-F.; Ambalavanan, N. 2009: Loss of Thy-1 inhibits alveolar development in the newborn mouse lung. American Journal of Physiology. Lung Cellular and Molecular Physiology 296(5): L738-L750
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Pap, R.ób.; Klausz, G.; Balázs, T.; Sághy, L.ás.ó 2013: Loss of biventricular pacing and inappropriate therapy by a cardiac resynchronization implantable defibrillator. Pacing and Clinical Electrophysiology: Pace 36(8): 1030-1031
Korantzopoulos, P.; Kyrlas, K.; Goudevenos, J.A. 2013: Loss of biventricular pacing due to T wave oversensing: case report and review of the literature. International Journal of Cardiology 168(2): 1626-1628
Arias, M.A.; Colchero, T.; Puchol, A.; Castellanos, E.; Rodríguez-Padial, L. 2010: Loss of biventricular pacing due to T-wave oversensing. Europace: European Pacing Arrhythmias and Cardiac Electrophysiology: Journal of the Working Groups on Cardiac Pacing Arrhythmias and Cardiac Cellular Electrophysiology of the European Society of Cardiology 12(6): 890-892
Lim, S.; Marshall, H. 2009: Loss of biventricular pacing: what is the mechanism?. Heart Rhythm 6(6): 863-864
Shah-Khan, F.; Shah, P. 2008: Loss of bladder sensation following taxane therapy. ChemoTherapy 54(6): 425-426
Lowalekar, S.K.; Cristofaro, V.; Radisavljevic, Z.M.; Yalla, S.V.; Sullivan, M.P. 2012: Loss of bladder smooth muscle caveolae in the aging bladder. Neurourology and Urodynamics 31(4): 586-592
Jevremovic, D.; Timm, M.M.; Reichard, K.K.; Morice, W.G.; Hanson, C.A.; Viswanatha, D.S.; Howard, M.T.; Nguyen, P.L. 2014: Loss of blast heterogeneity in myelodysplastic syndrome and other chronic myeloid neoplasms. American Journal of Clinical Pathology 142(3): 292-298
Tas, A.; Köklü, S.; Celik, H. 2012: Loss of body hair as a side effect of albendazole. Wiener Klinische Wochenschrift 124(5-6): 220
Cho, K.-D.; Han, C.-K.; Lee, B.-H. 2013: Loss of body weight and fat and improved lipid profiles in obese rats fed apple pomace or apple juice concentrate. Journal of Medicinal Food 16(9): 823-830
Ma, L.; Carr, P.W. 2007: Loss of bonded phase in reversed-phase liquid chromatography in acidic eluents and practical ways to improve column stability. Analytical Chemistry 79(12): 4681-4686
Hanafy, E.; Elhafez, S.; Aly, F.; Elazhary, M. 2008: Loss of bone calcium in exposure to 50 Hz magnetic fields. Electromagnetic Biology and Medicine 27(4): 402-408
Morote, J.; Planas, J. 2011: Loss of bone mass in patients with prostate cancer subjected to androgenic deprivation. Actas Urologicas Espanolas 35(4): 232-239
Brown, T.T.; McComsey, G.A.; King, M.S.; Qaqish, R.B.; Bernstein, B.M.; da Silva, B.A. 2009: Loss of bone mineral density after antiretroviral therapy initiation, independent of antiretroviral regimen. Journal of Acquired Immune Deficiency Syndromes 51(5): 554-561
Ria, R.; Scarponi, A.Maria.; Falzetti, F.; Ballanti, S.; Di Ianni, M.; Sportoletti, P.; Cimminiello, M.; Gasbarrino, C.; Pallone, B.; Vacca, A.; Dammacco, F.; Mannarino, E.; Tabilio, A. 2007: Loss of bone mineral density and secondary hyperparathyroidism are complications of autologous stem cell transplantation. Leukemia and Lymphoma 48(5): 923-930
Unal, A.; Kocyigit, I.; Sipahioglu, M.H.; Tokgoz, B.; Kavuncuoglu, F.; Oymak, O.; Utas, C. 2010: Loss of bone mineral density in renal transplantation recipients. Transplantation Proceedings 42(9): 3550-3553
Li, M.; Vattulainen, S.; Aho, J.; Orcholski, M.; Rojas, V.; Yuan, K.; Helenius, M.; Taimen, P.; Myllykangas, S.; De Jesus Perez, V.; Koskenvuo, J.W.; Alastalo, T.-P. 2014: Loss of bone morphogenetic protein receptor 2 is associated with abnormal DNA repair in pulmonary arterial hypertension. American Journal of Respiratory Cell and Molecular Biology 50(6): 1118-1128
Shea, K.L.; Gozansky, W.S.; Sherk, V.D.; Swibas, T.A.; Wolfe, P.; Scherzinger, A.; Stamm, E.; Kohrt, W.M. 2014: Loss of bone strength in response to exercise-induced weight loss in obese postmenopausal women: results from a pilot study. Journal of Musculoskeletal and Neuronal Interactions 14(2): 229-238
Kruit, J.K.; Wijesekara, N.; Westwell-Roper, C.; Vanmierlo, T.; de Haan, W.; Bhattacharjee, A.; Tang, R.; Wellington, C.L.; LütJohann, D.; Johnson, J.D.; Brunham, L.R.; Verchere, C.B.; Hayden, M.R. 2012: Loss of both ABCA1 and ABCG1 results in increased disturbances in islet sterol homeostasis, inflammation, and impaired β-cell function. Diabetes 61(3): 659-664
Wende, A.R.; Soto, J.; Olsen, C.D.; Pires, K.M.P.; Schell, J.C.; Larrieu-Lahargue, F.; Litwin, S.E.; Kakoki, M.; Takahashi, N.; Smithies, O.; Abel, E.D. 2010: Loss of bradykinin signaling does not accelerate the development of cardiac dysfunction in type 1 diabetic akita mice. Endocrinology 151(8): 3536-3542
Xia, H.; Cheung, W.K.C.; Ng, S.S.; Jiang, X.; Jiang, S.; Sze, J.; Leung, G.K.K.; Lu, G.; Chan, D.T.M.; Bian, X.-W.; Kung, H.-F.; Poon, W.S.; Lin, M.C. 2012: Loss of brain-enriched miR-124 microRNA enhances stem-like traits and invasiveness of glioma cells. Journal of Biological Chemistry 287(13): 9962-9971
Guyenet, P.G. 2011: Loss of brainstem serotonergic neurons impairs autoresuscitation in neonate rats: is this relevant to the sudden infant death syndrome?. Journal of Physiology 589(Pt 22): 5343-5344
Gilli, F.; Navone, N.D.és.ée.; Perga, S.; Marnetto, F.; Caldano, M.; Capobianco, M.; Pulizzi, A.; Malucchi, S.; Bertolotto, A. 2011: Loss of braking signals during inflammation: a factor affecting the development and disease course of multiple sclerosis. Archives of Neurology 68(7): 879-888
Kanekiyo, K.; Inamori, K.-i.; Kitazume, S.; Sato, K.; Maeda, J.; Higuchi, M.; Kizuka, Y.; Korekane, H.; Matsuo, I.; Honke, K.; Taniguchi, N. 2013: Loss of branched O-mannosyl glycans in astrocytes accelerates remyelination. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 33(24): 10037-10047
Sheng, X.-J.; Zhou, Y.-Q.; Song, Q.-Y.; Zhou, D.-M.; Liu, Q.-C. 2012: Loss of breast cancer metastasis suppressor 1 promotes ovarian cancer cell metastasis by increasing chemokine receptor 4 expression. Oncology Reports 27(4): 1011-1018
Vagnoni, A.; Glennon, E.B.C.; Perkinton, M.S.; Gray, E.H.; Noble, W.; Miller, C.C.J. 2013: Loss of c-Jun N-terminal kinase-interacting protein-1 does not affect axonal transport of the amyloid precursor protein or Aβ production. Human Molecular Genetics 22(22): 4646-4652
Marquardt, J.U.; Seo, D.; Gómez-Quiroz, L.E.; Uchida, K.; Gillen, M.C.; Kitade, M.; Kaposi-Novak, P.; Conner, E.A.; Factor, V.M.; Thorgeirsson, S.S. 2012: Loss of c-Met accelerates development of liver fibrosis in response to CCl(4) exposure through deregulation of multiple molecular pathways. Biochimica et Biophysica Acta 1822(6): 942-951
Factor, V.M.; Seo, D.; Ishikawa, T.; Kaposi-Novak, P.; Marquardt, J.U.; Andersen, J.B.; Conner, E.A.; Thorgeirsson, S.S. 2010: Loss of c-Met disrupts gene expression program required for G2/M progression during liver regeneration in mice. Plos one 5(9)
Kim, H-Seon.; Park, S-Young.; Lee, S.; Adams, E.L.; Czymmek, K.; Kang, S. 2011: Loss of cAMP-dependent protein kinase A affects multiple traits important for root pathogenesis by Fusarium oxysporum. Molecular plant-microbe interactions: MPMI 24(6): 719-732
Schwebs, D.J.; Nguyen, H.-N.; Miller, J.A.; Hadwiger, J.A. 2014: Loss of cAMP-specific phosphodiesterase rescues spore development in G protein mutant in dictyostelium. Cellular Signalling 26(2): 409-418
Enwere, E.K.; Boudreault, L.; Holbrook, J.; Timusk, K.; Earl, N.; LaCasse, E.; Renaud, J.-M.; Korneluk, R.G. 2013: Loss of cIAP1 attenuates soleus muscle pathology and improves diaphragm function in mdx mice. Human Molecular Genetics 22(5): 867-878
Swope, D.; Cheng, L.; Gao, E.; Li, J.; Radice, G.L. 2012: Loss of cadherin-binding proteins β-catenin and plakoglobin in the heart leads to gap junction remodeling and arrhythmogenesis. Molecular and Cellular Biology 32(6): 1056-1067
Miletic, G.; Lippitt, J.A.; Sullivan, K.M.; Miletic, V. 2013: Loss of calcineurin in the spinal dorsal horn contributes to neuropathic pain, and intrathecal administration of the phosphatase provides prolonged analgesia. Pain 154(10): 2024-2033
Leitch, B.; Shevtsova, O.; Guévremont, D.; Williams, J. 2009: Loss of calcium channels in the cerebellum of the ataxic and epileptic stargazer mutant mouse. Brain Research 1279: 156-167
Ashpole, N.M.; Chawla, A.R.; Martin, M.P.; Brustovetsky, T.; Brustovetsky, N.; Hudmon, A. 2013: Loss of calcium/calmodulin-dependent protein kinase Ii activity in cortical astrocytes decreases glutamate uptake and induces neurotoxic release of ATP. Journal of Biological Chemistry 288(20): 14599-14611
Griebe, M.; Förster, A.; Wessa, M.èl.; Rossmanith, C.; Bäzner, H.ör.; Sauer, T.; Zohsel, K.; Blahak, C.; King, A.V.; Linke, J.; Hennerici, M.G.; Gass, A.; Szabo, K. 2011: Loss of callosal fibre integrity in healthy elderly with age-related white matter changes. Journal of Neurology 258(8): 1451-1459
Kawai-Yamada, M.; Hori, Z.; Ogawa, T.; Ihara-Ohori, Y.; Tamura, K.; Nagano, M.; Ishikawa, T.; Uchimiya, H. 2009: Loss of calmodulin binding to Bax inhibitor-1 affects Pseudomonas-mediated hypersensitive response-associated cell death in Arabidopsis thaliana. Journal of Biological Chemistry 284(41): 27998-28003
Smith, M.A.; Covington, M.D.; Schnellmann, R.G. 2012: Loss of calpain 10 causes mitochondrial dysfunction during chronic hyperglycemia. Archives of Biochemistry and Biophysics 523(2): 161-168
Nakajima, T.; Shearer, T.R.; Azuma, M. 2014: Loss of calpastatin leads to activation of calpain in human lens epithelial cells. Investigative Ophthalmology and Visual Science 55(8): 5278-5283
Massaeli, H.; Jalali, S.; Viswanathan, D.; Mesaeli, N. 2014: Loss of calreticulin function decreases NFκB activity by stabilizing IκB protein. Biochimica et Biophysica Acta 1843(11): 2385-2393
Hayashi, S.; Amari, M.; Okamoto, K. 2013: Loss of calretinin- and parvalbumin-immunoreactive axons in anterolateral columns beyond the corticospinal tracts of amyotrophic lateral sclerosis spinal cords. Journal of the Neurological Sciences 331(1-2): 61-66
Walsh, S.éa.; Mnich, K.; Mackie, K.; Gorman, A.M.; Finn, D.P.; Dowd, E.ís. 2010: Loss of cannabinoid CB1 receptor expression in the 6-hydroxydopamine-induced nigrostriatal terminal lesion model of Parkinson's disease in the rat. Brain Research Bulletin 81(6): 543-548
Wang, D.; Wang, H.; Ning, W.; Backlund, M.G.; Dey, S.K.; DuBois, R.N. 2008: Loss of cannabinoid receptor 1 accelerates intestinal tumor growth. Cancer Research 68(15): 6468-6476
Wang, H.; Xie, H.; Dey, S.K. 2008: Loss of cannabinoid receptor CB1 induces preterm birth. Plos one 3(10): E3320
Leung, L.; Radulovich, N.; Zhu, C.-Q.; Wang, D.; To, C.; Ibrahimov, E.; Tsao, M.-S. 2013: Loss of canonical Smad4 signaling promotes KRAS driven malignant transformation of human pancreatic duct epithelial cells and metastasis. Plos one 8(12): E84366
Lightell, D.J.; Moss, S.C.; Woods, T.C. 2011: Loss of canonical insulin signaling accelerates vascular smooth muscle cell proliferation and migration through changes in p27Kip1 regulation. Endocrinology 152(2): 651-658
Hollingsworth, K.G.; Newton, J.L.; Robinson, L.; Taylor, R.; Blamire, A.M.; Jones, D.E.J. 2010: Loss of capacity to recover from acidosis in repeat exercise is strongly associated with fatigue in primary biliary cirrhosis. Journal of Hepatology 53(1): 155-161
Jones, D.E.J.; Hollingsworth, K.G.; Jakovljevic, D.G.; Fattakhova, G.; Pairman, J.; Blamire, A.M.; Trenell, M.I.; Newton, J.L. 2012: Loss of capacity to recover from acidosis on repeat exercise in chronic fatigue syndrome: a case-control study. European Journal of Clinical Investigation 42(2): 186-194
Lin, A.H.; Francisco, G.M. 2012: Loss of capture due to hyperkalemia: is that the whole story?. Pacing and Clinical Electrophysiology: Pace 35(10): 1273-1275
Seegers, J.; Lüthje, L.; Zabel, M.; Vollmann, D. 2009: Loss of capture late after right ventricular pacing lead revision: what is the mechanism?. Clinical Research in Cardiology: Official Journal of the German Cardiac Society 98(8): 517-520
Cardona, D.M.; Zhang, X.; Liu, C. 2009: Loss of carbamoyl phosphate synthetase i in small-intestinal adenocarcinoma. American Journal of Clinical Pathology 132(6): 877-882
Tsukada, M.; Wakai, T.; Matsuda, Y.; Korita, P.V.; Shirai, Y.; Ajioka, Y.; Hatakeyama, K.; Kubota, M. 2009: Loss of carcinoembryonic antigen-related cell adhesion molecule 1 expression predicts metachronous pulmonary metastasis and poor survival in patients with hepatoblastoma. Journal of Pediatric Surgery 44(8): 1522-1528
Rao, P.K.; Toyama, Y.; Chiang, H.R.; Gupta, S.; Bauer, M.; Medvid, R.; Reinhardt, F.; Liao, R.; Krieger, M.; Jaenisch, R.; Lodish, H.F.; Blelloch, R. 2009: Loss of cardiac microRNA-mediated regulation leads to dilated cardiomyopathy and heart failure. Circulation Research 105(6): 585-594
Lu, Z.; Jiang, Y-Ping.; Wang, W.; Xu, X-Hua.; Mathias, R.T.; Entcheva, E.; Ballou, L.M.; Cohen, I.S.; Lin, R.Z. 2009: Loss of cardiac phosphoinositide 3-kinase p110 alpha results in contractile dysfunction. Circulation 120(4): 318-325
Tian, Y.; Zhang, P.; Li, D.; Guo, J. 2013: Loss of cardiac resynchronization during DDD pacing: what is the mechanism?. International Journal of Cardiology 168(6): 5455-5457
Zhou, J.; Zhong, Q.; Li, G.; Greenberg, M.L. 2009: Loss of cardiolipin leads to longevity defects that are alleviated by alterations in stress response signaling. Journal of Biological Chemistry 284(27): 18106-18114
Patil, V.A.; Fox, J.L.; Gohil, V.M.; Winge, D.R.; Greenberg, M.L. 2013: Loss of cardiolipin leads to perturbation of mitochondrial and cellular iron homeostasis. Journal of Biological Chemistry 288(3): 1696-1705
Cokkinos, A.D.; Tzeis, S.; Moraitis, P.; Pantos, C.; Carageorgiou, H.; Panousopoulos, D.; Varonos, D.D.; Cokkinos, D.V. 2003: Loss of cardioprotection induced by ischemic preconditioning after an initial ischemic period in isolated rat hearts. Experimental and Clinical Cardiology 8(1): 5-9
Boengler, K.; Schulz, R.; Heusch, G. 2009: Loss of cardioprotection with ageing. Cardiovascular Research 83(2): 247-261
Ford, N.A.; Clinton, S.K.; von Lintig, J.; Wyss, A.; Erdman, J.W. 2010: Loss of carotene-9',10'-monooxygenase expression increases serum and tissue lycopene concentrations in lycopene-fed mice. Journal of Nutrition 140(12): 2134-2138
Coles, J.M.; Zhang, L.; Blum, J.J.; Warman, M.L.; Jay, G.D.; Guilak, F.; Zauscher, S. 2010: Loss of cartilage structure, stiffness, and frictional properties in mice lacking PRG4. Arthritis and Rheumatism 62(6): 1666-1674
Puccini, J.; Shalini, S.; Voss, A.K.; Gatei, M.; Wilson, C.H.; Hiwase, D.K.; Lavin, M.F.; Dorstyn, L.; Kumar, S. 2013: Loss of caspase-2 augments lymphomagenesis and enhances genomic instability in Atm-deficient mice. Proceedings of the National Academy of Sciences of the United States of America 110(49): 19920-19925
Tiwari, M.; Lopez-Cruzan, M.; Morgan, W.W.; Herman, B. 2011: Loss of caspase-2-dependent apoptosis induces autophagy after mitochondrial oxidative stress in primary cultures of young adult cortical neurons. Journal of Biological Chemistry 286(10): 8493-8506
Freimuth, J.; Bangen, J.ör.-M.; Lambertz, D.; Hu, W.; Nevzorova, Y.A.; Sonntag, R.; Gassler, N.; Riethmacher, D.; Trautwein, C.; Liedtke, C. 2013: Loss of caspase-8 in hepatocytes accelerates the onset of liver regeneration in mice through premature nuclear factor kappa B activation. Hepatology 58(5): 1779-1789
Liedtke, C.; Bangen, J.ör.-M.; Freimuth, J.; Beraza, N.; Lambertz, D.; Cubero, F.J.; Hatting, M.; Karlmark, K.R.; Streetz, K.L.; Krombach, G.A.; Tacke, F.; Gassler, N.; Riethmacher, D.; Trautwein, C. 2011: Loss of caspase-8 protects mice against inflammation-related hepatocarcinogenesis but induces non-apoptotic liver injury. Gastroenterology 141(6): 2176-2187
Gupta, V.A.; Hnia, K.; Smith, L.L.; Gundry, S.R.; McIntire, J.E.; Shimazu, J.; Bass, J.R.; Talbot, E.A.; Amoasii, L.; Goldman, N.E.; Laporte, J.; Beggs, A.H. 2013: Loss of catalytically inactive lipid phosphatase myotubularin-related protein 12 impairs myotubularin stability and promotes centronuclear myopathy in zebrafish. Plos Genetics 9(6): E1003583
Polaschegg, H.-D. 2009: Loss of catheter lock fluid is caused by hydraulic effects and not by diffusion. Blood Purification 28(3): 226
Robinson, S.; Mikolaenko, I.; Thompson, I.; Cohen, M.L.; Goyal, M. 2010: Loss of cation-chloride cotransporter expression in preterm infants with white matter lesions: implications for the pathogenesis of epilepsy. Journal of Neuropathology and Experimental Neurology 69(6): 565-572
Shriver-Lake, L.C.; North, S.H.; Rowe Taitt, C. 2013: Loss of cationic peptides with agarose gel-immobilized tris[2-carboxyethyl]phosphine (TCEP). Biotechniques 55(6): 292-294
Head, B.P.; Peart, J.N.; Panneerselvam, M.; Yokoyama, T.; Pearn, M.L.; Niesman, I.R.; Bonds, J.A.; Schilling, J.M.; Miyanohara, A.; Headrick, J.; Ali, S.S.; Roth, D.M.; Patel, P.M.; Patel, H.H. 2010: Loss of caveolin-1 accelerates neurodegeneration and aging. Plos one 5(12): E15697
Cai, L.; Yi, F.; Dai, Z.; Huang, X.; Zhao, Y.D.; Mirza, M.K.; Xu, J.; Vogel, S.M.; Zhao, Y.-Y. 2014: Loss of caveolin-1 and adiponectin induces severe inflammatory lung injury following LPS challenge through excessive oxidative/nitrative stress. American Journal of Physiology. Lung Cellular and Molecular Physiology 306(6): L566-L573
Martins, D.; Beça, F.F.; Sousa, Bárbara.; Baltazar, Fátima.; Paredes, J.; Schmitt, F. 2013: Loss of caveolin-1 and gain of MCT4 expression in the tumor stroma: key events in the progression from an in situ to an invasive breast carcinoma. Cell Cycle 12(16): 2684-2690
Gu, X.; Fliesler, S.J.; Zhao, Y.-Y.; Stallcup, W.B.; Cohen, A.W.; Elliott, M.H. 2014: Loss of caveolin-1 causes blood-retinal barrier breakdown, venous enlargement, and mural cell alteration. American Journal of Pathology 184(2): 541-555
Trushina, E.; Canaria, C.A.; Lee, D.-Y.; McMurray, C.T. 2014: Loss of caveolin-1 expression in knock-in mouse model of Huntington's disease suppresses pathophysiology in vivo. Human Molecular Genetics 23(1): 129-144
Li, X.; McClellan, M.E.; Tanito, M.; Garteiser, P.; Towner, R.; Bissig, D.; Berkowitz, B.A.; Fliesler, S.J.; Woodruff, M.L.; Fain, G.L.; Birch, D.G.; Khan, M.S.; Ash, J.D.; Elliott, M.H. 2012: Loss of caveolin-1 impairs retinal function due to disturbance of subretinal microenvironment. Journal of Biological Chemistry 287(20): 16424-16434
Huang, X.; Pan, L.; Pu, H.; Wang, Y.; Zhang, X.; Li, C.; Yang, Z. 2013: Loss of caveolin-1 promotes endothelial-mesenchymal transition during sepsis: a membrane proteomic study. International Journal of Molecular Medicine 32(3): 585-592
Sotgia, F.; Casimiro, M.C.; Bonuccelli, G.; Liu, M.; Whitaker-Menezes, D.; Er, O.; Daumer, K.M.; Mercier, I.; Witkiewicz, A.K.; Minetti, C.; Capozza, F.; Gormley, M.; Quong, A.A.; Rui, H.; Frank, P.G.; Milliman, J.N.; Knudsen, E.S.; Zhou, J.; Wang, C.; Pestell, R.G.; Lisanti, M.P. 2009: Loss of caveolin-3 induces a lactogenic microenvironment that is protective against mammary tumor formation. American Journal of Pathology 174(2): 613-629
Wang, C.; Tseng, T.; Jhang, Y.; Tseng, J.; Hsieh, C.; Wu, W.-g.; Lee, S. 2014: Loss of cell invasiveness through PKC-mediated syndecan-1 downregulation in melanoma cells under anchorage independency. Experimental Dermatology 23(11): 843-849
Lisovsky, M.; Ogawa, F.; Dresser, K.; Woda, B.; Lauwers, G.Y. 2010: Loss of cell polarity protein Lgl2 in foveolar-type gastric dysplasia: correlation with expression of the apical marker aPKC-zeta. Virchows Archiv: An International Journal of Pathology 457(6): 635-642
Misra, U.K.; Mowery, Y.M.; Gawdi, G.; Pizzo, S.V. 2011: Loss of cell surface TFII-i promotes apoptosis in prostate cancer cells stimulated with activated α₂ -macroglobulin. Journal of Cellular Biochemistry 112(6): 1685-1695
Cowell, C.F.; Yan, I.K.; Eiseler, T.; Leightner, A.C.; Döppler, H.; Storz, P. 2009: Loss of cell-cell contacts induces NF-kappaB via RhoA-mediated activation of protein kinase D1. Journal of Cellular Biochemistry 106(4): 714-728
Akhavan, A.; Griffith, O.L.; Soroceanu, L.; Leonoudakis, D.; Luciani-Torres, M.G.; Daemen, A.; Gray, J.W.; Muschler, J.L. 2012: Loss of cell-surface laminin anchoring promotes tumor growth and is associated with poor clinical outcomes. Cancer Research 72(10): 2578-2588
Senior, P.V.; Zhang, B.X.; Chan, S.T.F. 2010: Loss of cell-surface receptor EphB2 is important for the growth, migration, and invasiveness of a colon cancer cell line. International Journal of Colorectal Disease 25(6): 687-694
Wakasa, T.; Nakamura, M.; Kagiya, T.; Taniguchi, E.; Sakurai, T.; Kakudo, K. 2014: Loss of cellular cohesion in cytology composes a special subgroup of breast tumors - analysis of 37 cases. Acta Cytologica 58(1): 89-95
Sleiman, L.; Beanlands, R.; Hasu, M.; Thabet, M.; Norgaard, A.; Chen, Y.X.; Holcik, M.; Whitman, S. 2013: Loss of cellular inhibitor of apoptosis protein 2 reduces atherosclerosis in atherogenic apoE-/- C57BL/6 mice on high-fat diet. Journal of the American Heart Association 2(5): E000259
Liu, Z.; Kakudo, K.; Bai, Y.; Li, Y.; Ozaki, T.; Miyauchi, A.; Taniguchi, E.; Mori, I. 2011: Loss of cellular polarity/cohesiveness in the invasive front of papillary thyroid carcinoma, a novel predictor for lymph node metastasis; possible morphological indicator of epithelial mesenchymal transition. Journal of Clinical Pathology 64(4): 325-329
Kouass Sahbani, S.; Sanche, L.; Cloutier, P.; Bass, A.D.; Hunting, D.J. 2014: Loss of cellular transformation efficiency induced by DNA irradiation with low-energy (10 eV) electrons. Journal of Physical Chemistry. B 118(46): 13123-13131
Miller, M.A.; Goodheart, J.R.; Izant, T.H.; Rimnac, C.M.; Cleary, R.J.; Mann, K.A. 2014: Loss of cement-bone interlock in retrieved tibial components from total knee arthroplasties. Clinical Orthopaedics and Related Research 472(1): 304-313
Boucherma, R.; Kridane-Miledi, H.éd.; Vives, F.L.; Vauchy, C.; Borg, C.; Kleinclauss, F.ço.; Fiette, L.; Tiberghien, P.; Lemonnier, F.ço.A.; Rohrlich, P.S.; Huetz, F.ço. 2012: Loss of central and peripheral CD8+ T-cell tolerance to HFE in mouse models of human familial hemochromatosis. European Journal of Immunology 42(4): 851-862
Von Jonquieres, G.; Froud, K.E.; Klugmann, C.B.; Wong, A.C.Y.; Housley, G.D.; Klugmann, M. 2014: Loss of central auditory processing in a mouse model of Canavan disease. Plos one 9(5): E97374
Berrocal, Y.A.; Almeida, V.W.; Puentes, R.; Knott, E.P.; Hechtman, J.F.; Garland, M.; Pearse, D.D. 2014: Loss of central inhibition: implications for behavioral hypersensitivity after contusive spinal cord injury in rats. Pain Research and Treatment 2014: 178278
Sir, J.-H.; Pütz, M.; Daly, O.; Morrison, C.G.; Dunning, M.; Kilmartin, J.V.; Gergely, F. 2013: Loss of centrioles causes chromosomal instability in vertebrate somatic cells. Journal of Cell Biology 203(5): 747-756
Bi, F.-C.; Liu, Z.; Wu, J.-X.; Liang, H.; Xi, X.-L.; Fang, C.; Sun, T.-J.; Yin, J.; Dai, G.-Y.; Rong, C.; Greenberg, J.T.; Su, W.-W.; Yao, N. 2014: Loss of ceramide kinase in Arabidopsis impairs defenses and promotes ceramide accumulation and mitochondrial H2O2 bursts. Plant Cell 26(8): 3449-3467
Faucheux, B.A.; Privat, N.; Brandel, J.-P.; Sazdovitch, V.ér.; Laplanche, J.-L.; Maurage, C.-A.; Hauw, J.-J.; Haïk, S.ép. 2009: Loss of cerebellar granule neurons is associated with punctate but not with large focal deposits of prion protein in Creutzfeldt-Jakob disease. Journal of Neuropathology and Experimental Neurology 68(8): 892-901
Louvi, A.; Chen, L.; Two, A.M.; Zhang, H.; Min, W.; Günel, M. 2011: Loss of cerebral cavernous malformation 3 (Ccm3) in neuroglia leads to CCM and vascular pathology. Proceedings of the National Academy of Sciences of the United States of America 108(9): 3737-3742
Lauvsnes, M.B.; Beyer, M.K.; Appenzeller, S.; Greve, O.J.; Harboe, E.; Gøransson, L.G.; Tjensvoll, A.B.; Omdal, R. 2014: Loss of cerebral white matter in primary Sjögren's syndrome: a controlled volumetric magnetic resonance imaging study. European Journal of Neurology 21(10): 1324-1329
Kochunov, P.; Ramage, A.E.; Lancaster, J.L.; Robin, D.A.; Narayana, S.; Coyle, T.; Royall, D.R.; Fox, P. 2009: Loss of cerebral white matter structural integrity tracks the gray matter metabolic decline in normal aging. Neuroimage 45(1): 17-28
Tobin, A.A.; Joseph, B.K.; Al-Kindi, H.N.; Albarwani, S.; Madden, J.A.; Nemetz, L.T.; Rusch, N.J.; Rhee, S.W. 2009: Loss of cerebrovascular Shaker-type K(+) channels: a shared vasodilator defect of genetic and renal hypertensive rats. American Journal of Physiology. Heart and Circulatory Physiology 297(1): H293-H303
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Ramundo, S.; Rochaix, J.-D. 2014: Loss of chloroplast ClpP elicits an autophagy-like response in Chlamydomonas. Autophagy 10(9): 1685-1686
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Buckley, P.G.; Alcock, L.; Heffernan, J.; Woods, J.; Brett, F.; Stallings, R.L.; Farrell, M.A. 2011: Loss of chromosome 1p/19q in oligodendroglial tumors: refinement of chromosomal critical regions and evaluation of internexin immunostaining as a surrogate marker. Journal of Neuropathology and Experimental Neurology 70(3): 177-182
Aust, N.; Schüle, S.; Altendorf-Hofmann, A.K.; Chen, Y.; Knösel, T.; Dirsch, O.; Settmacher, U.; Weise, A.; Mrasek, K.; Liehr, T. 2013: Loss of chromosome 4 correlates with better long-term survival and lower relapse rate after R0-resection of colorectal liver metastases. Journal of Cancer Research and Clinical Oncology 139(11): 1861-1867
Zhang, Y.; Cao, H.; Wang, M.; Zhao, W.-Y.; Shen, Z.-Y.; Shen, D.-P.; Ni, X.-Z.; Wu, Z.-Y.; Shen, Y.-Y.; Song, Y.-Y. 2010: Loss of chromosome 9p21 and decreased p16 expression correlate with malignant gastrointestinal stromal tumor. World Journal of Gastroenterology 16(37): 4716-4724
Gupta, A.; Parihar, M.; Remani, A.S.; Mishra, D.K. 2014: Loss of chromosome y in acute lymphoblastic leukemia: age related or neoplastic phenomenon?. Indian Journal of Pathology and Microbiology 57(3): 431-434
Davey, M.G.; McTeir, L.; Barrie, A.M.; Freem, L.J.; Stephen, L.A. 2014: Loss of cilia causes embryonic lung hypoplasia, liver fibrosis, and cholestasis in the talpid3 ciliopathy mutant. Organogenesis 10(2): 177-185
Yamanaka, Y.; Suzuki, Y.; Todo, T.; Honma, K.-i.; Honma, S. 2010: Loss of circadian rhythm and light-induced suppression of pineal melatonin levels in Cry1 and Cry2 double-deficient mice. Genes to Cells: Devoted to Molecular and Cellular Mechanisms 15(10): 1063-1071
Boswell, K.L.; Paris, R.; Boritz, E.; Ambrozak, D.; Yamamoto, T.; Darko, S.; Wloka, K.; Wheatley, A.; Narpala, S.; McDermott, A.; Roederer, M.; Haubrich, R.; Connors, M.; Ake, J.; Douek, D.C.; Kim, J.; Petrovas, C.; Koup, R.A. 2014: Loss of circulating CD4 T cells with B cell helper function during chronic HIV infection. Plos Pathogens 10(1): E1003853
Krishnan, A.; Nair, S.Asha.; Pillai, M.Radhakrishna. 2010: Loss of cks1 homeostasis deregulates cell division cycle. Journal of Cellular and Molecular Medicine 14(1-2): 154-164
Tamura, A.; Hayashi, H.; Imasato, M.; Yamazaki, Y.; Hagiwara, A.; Wada, M.; Noda, T.; Watanabe, M.; Suzuki, Y.; Tsukita, S. 2011: Loss of claudin-15, but not claudin-2, causes Na+ deficiency and glucose malabsorption in mouse small intestine. Gastroenterology 140(3): 913-923
Yoshizawa, K.; Nozaki, S.; Kato, A.; Hirai, M.; Yanase, M.; Yoshimoto, T.; Kimura, I.; Sugiura, S.; Okamune, A.; Kitahara, H.; Noguchi, N.; Kato, K.; Ueki, K.; Kawashiri, S. 2013: Loss of claudin-7 is a negative prognostic factor for invasion and metastasis in oral squamous cell carcinoma. Oncology Reports 29(2): 445-450
Wada, M.; Tamura, A.; Takahashi, N.; Tsukita, S. 2013: Loss of claudins 2 and 15 from mice causes defects in paracellular Na+ flow and nutrient transport in gut and leads to death from malnutrition. Gastroenterology 144(2): 369-380
Vetrivel, K.S.; Barman, A.; Chen, Y.; Nguyen, P.D.; Wagner, S.L.; Prabhakar, R.; Thinakaran, G. 2011: Loss of cleavage at β'-site contributes to apparent increase in β-amyloid peptide (Aβ) secretion by β-secretase (BACE1)-glycosylphosphatidylinositol (GPI) processing of amyloid precursor protein. Journal of Biological Chemistry 286(29): 26166-26177
Cioffi, J.Marie. 2012: Loss of clinical nursing expertise: a discussion paper. International Journal of Nursing Practice 18(5): 423-428
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Zhou, W.; Guan, Q.; Kwan, C.C.H.; Chen, H.; Gleave, M.E.; Nguan, C.Y.C.; Du, C. 2010: Loss of clusterin expression worsens renal ischemia-reperfusion injury. American Journal of Physiology. Renal Physiology 298(3): F568-F578
Hamada, N.; Miyata, M.; Eto, H.; Ikeda, Y.; Shirasawa, T.; Akasaki, Y.; Miyauchi, T.; Furusho, Y.; Nagaki, A.; Aronow, B.J.; Tei, C. 2011: Loss of clusterin limits atherosclerosis in apolipoprotein E-deficient mice via reduced expression of Egr-1 and TNF-α. Journal of Atherosclerosis and Thrombosis 18(3): 209-216
Cloward, J.M.; Krause, D.C. 2011: Loss of co-chaperone TopJ impacts adhesin P1 presentation and terminal organelle maturation in Mycoplasma pneumoniae. Molecular Microbiology 81(2): 528-539
Lin, C.-W.; Yen, S.-T.; Chang, H.-T.; Chen, S.-J.; Lai, S.-L.; Liu, Y.-C.; Chan, T.-H.; Liao, W.-L.; Lee, S.-J. 2010: Loss of cofilin 1 disturbs actin dynamics, adhesion between enveloping and deep cell layers and cell movements during gastrulation in zebrafish. Plos one 5(12): E15331
Wilkins, N.J.; Rawson, K.A. 2010: Loss of cognitive skill across delays: constraints for theories of cognitive skill acquisition. Journal of Experimental Psychology. Learning Memory and Cognition 36(5): 1134-1149
Omelchenko, I.; Maistrenko, Y.; Hövel, P.; Schöll, E. 2011: Loss of coherence in dynamical networks: spatial chaos and chimera states. Physical Review Letters 106(23): 234102
Tremblay, Fédéric.; Huard, C.; Dow, J.; Gareski, T.; Will, S.; Richard, A-Marie.; Syed, J.; Bailey, S.; Brenneman, K.A.; Martinez, R.V.; Perreault, Mène.; Lin, Q.; Gimeno, R.E. 2012: Loss of coiled-coil domain containing 80 negatively modulates glucose homeostasis in diet-induced obese mice. Endocrinology 153(9): 4290-4303
Gray, R.S.; Wilm, T.P.; Smith, J.; Bagnat, M.; Dale, R.M.; Topczewski, J.; Johnson, S.L.; Solnica-Krezel, L. 2014: Loss of col8a1a function during zebrafish embryogenesis results in congenital vertebral malformations. Developmental Biology 386(1): 72-85
Gross, O.; Girgert, R.; Beirowski, B.; Kretzler, M.; Kang, H.G.; Kruegel, J.; Miosge, N.; Busse, A.-C.; Segerer, S.; Vogel, W.F.; Müller, G.-A.; Weber, M. 2010: Loss of collagen-receptor DDR1 delays renal fibrosis in hereditary type IV collagen disease. Matrix Biology: Journal of the International Society for Matrix Biology 29(5): 346-356
Mukherjee, J.; DeSouza, L.V.; Micallef, J.; Karim, Z.; Croul, S.; Siu, K.W.M.; Guha, A. 2009: Loss of collapsin response mediator Protein1, as detected by iTRAQ analysis, promotes invasion of human gliomas expressing mutant EGFRvIIi. Cancer Research 69(22): 8545-8554
Lu, S.; Bi, W.; Liu, F.; Wu, X.; Xing, B.; Yeow, E.K.L. 2013: Loss of collective motion in swarming bacteria undergoing stress. Physical Review Letters 111(20): 208101
Cechova, S.; Zeng, Q.; Billaud, M.; Mutchler, S.; Rudy, C.K.; Straub, A.C.; Chi, L.; Chan, F.R.; Hu, J.; Griffiths, R.; Howell, N.L.; Madsen, K.; Jensen, B.L.; Palmer, L.A.; Carey, R.M.; Sung, S-Sang.J.; Malakauskas, S.M.; Isakson, B.E.; Le, T.H. 2013: Loss of collectrin, an angiotensin-converting enzyme 2 homolog, uncouples endothelial nitric oxide synthase and causes hypertension and vascular dysfunction. Circulation 128(16): 1770-1780
Takahashi, K.; Yamada, S.'y.; Ono, F.; Watanabe, K. 2013: Loss of color by afterimage masking. I-Perception 4(3): 144-146
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Chary, V.K.; Xenopoulos, P.; Eldar, A.; Piggot, P.J. 2010: Loss of compartmentalization of σ(E) activity need not prevent formation of spores by Bacillus subtilis. Journal of Bacteriology 192(21): 5616-5624
Fabro, G.; Alvarez, M.ía.E. 2012: Loss of compatibility might explain resistance of the Arabidopsis thaliana accession Te-0 to Golovinomyces cichoracearum. Bmc Plant Biology 12: 143
Anttila, J.; Ruokolainen, L.; Kaitala, V.; Laakso, J. 2013: Loss of competition in the outside host environment generates outbreaks of environmental opportunist pathogens. Plos one 8(8): E71621
Mayr, J.A.; Meierhofer, D.; Zimmermann, F.; Feichtinger, R.; Kögler, C.; Ratschek, M.; Schmeller, N.; Sperl, W.; Kofler, B. 2008: Loss of complex i due to mitochondrial DNA mutations in renal oncocytoma. Clinical Cancer Research: An Official Journal of the American Association for Cancer Research 14(8): 2270-2275
Ma, H.; Thapa, A.; Morris, L.M.; Michalakis, S.; Biel, M.; Frank, M.B.; Bebak, M.; Ding, X.-Q. 2013: Loss of cone cyclic nucleotide-gated channel leads to alterations in light response modulating system and cellular stress response pathways: a gene expression profiling study. Human Molecular Genetics 22(19): 3906-3919
Maeda, T.; Cideciyan, A.V.; Maeda, A.; Golczak, M.; Aleman, T.S.; Jacobson, S.G.; Palczewski, K. 2009: Loss of cone photoreceptors caused by chromophore depletion is partially prevented by the artificial chromophore pro-drug, 9-cis-retinyl acetate. Human Molecular Genetics 18(12): 2277-2287
Salber, P.R.; Bestermann, W.; Schwartz, S.; Marchetti, A. 2008: Loss of confidence in diabetes management. Managed Care 17(10): 38-46
Baxa, M.C.; Haddadian, E.J.; Jumper, J.M.; Freed, K.F.; Sosnick, T.R. 2014: Loss of conformational entropy in protein folding calculated using realistic ensembles and its implications for NMR-based calculations. Proceedings of the National Academy of Sciences of the United States of America 111(43): 15396-15401
Anglani, R.; Creanza, T.M.; Liuzzi, V.C.; Piepoli, A.; Panza, A.; Andriulli, A.; Ancona, N. 2014: Loss of connectivity in cancer co-expression networks. Plos one 9(1): E87075
Köster-Patzlaff, C.; Hosseini, S.M.; Reuss, B. 2009: Loss of connexin36 in rat hippocampus and cerebellar cortex in persistent Borna disease virus infection. Journal of Chemical Neuroanatomy 37(2): 118-127
Alonso, F.; Boittin, F.ço.-X.; Bény, J.-L.; Haefliger, J.-A. 2010: Loss of connexin40 is associated with decreased endothelium-dependent relaxations and eNOS levels in the mouse aorta. American Journal of Physiology. Heart and Circulatory Physiology 299(5): H1365-H1373
Gerber, J.; Weider, K.; Hambruch, N.; Brehm, R. 2014: Loss of connexin43 (Cx43) in Sertoli cells leads to spatio-temporal alterations in occludin expression. Histology and Histopathology 29(7): 935-948
Dobrowolski, R.; Hertig, G.; Lechner, H.; Wörsdörfer, P.; Wulf, V.; Dicke, N.; Eckert, D.; Bauer, R.; Schorle, H.; Willecke, K. 2009: Loss of connexin43-mediated gap junctional coupling in the mesenchyme of limb buds leads to altered expression of morphogens in mice. Human Molecular Genetics 18(15): 2899-2911
Brunelle, C.; Hennecker, J.-L.; Scordidis, V. 2012: Loss of consciousness after a minor trauma revealing an aneurysm rupture in a child. Archives de Pediatrie: Organe Officiel de la Societe Francaise de Pediatrie 19(8): 815-818
Marion, D.; Grimes, J.; Kelly, J.; Flores, E. 2013: Loss of consciousness and concussion. Annals of Neurology 74(1): 150-152
Dello, S.A.W.G.; Kievit, C.; Dunselman, P.H.; Alings, M. 2014: Loss of consciousness and convulsion induced by a ventricular tachycardia mimicking epilepsy in a patient with noncompaction cardiomyopathy: a case report. Netherlands Heart Journal: Monthly Journal of the Netherlands Society of Cardiology and the Netherlands Heart Foundation 22(6): 301-303
Yakovlev, P.I. 1949: Loss of consciousness and convulsions in middle-aged patients. Connecticut State Medical Journal 13(6): 521-527
Arance, Gía.M.; Fernández, Jénez.P.E.; Pérez, T.M.C.; Varela, López.R. 2009: Loss of consciousness and respiratory depression after a retrobulbar intraorbital block for eye surgery: a case report. Revista Espanola de Anestesiologia y Reanimacion 56(10): 641-642
Moniaga, N.C.; Griswold, C.A. 2009: Loss of consciousness and seizure during normobaric hypoxia training. Aviation Space and Environmental Medicine 80(5): 485-488
Van Boxel, G.I.; Goodman, A.J.; Green, J.; Orme, R.M. 2010: Loss of consciousness on turning the patient. Bmj 341: C3542
Moharari, R.Shariat.; Khajavi, M.Reza.; Panahkhahi, M.; Mojtahedzadeh, M.; Najafi, A. 2009: Loss of consciousness secondary to lead poisoning--case reports. Middle East Journal of Anaesthesiology 20(3): 453-455
Bryan, C.J.; Clemans, T.A.; Hernandez, A.Marie.; Rudd, M.David. 2013: Loss of consciousness, depression, posttraumatic stress disorder, and suicide risk among deployed military personnel with mild traumatic brain injury. Journal of Head Trauma Rehabilitation 28(1): 13-20
Bertheleme, N.; Singh, S.; Dowell, S.J.; Hubbard, J.; Byrne, B. 2013: Loss of constitutive activity is correlated with increased thermostability of the human adenosine A2A receptor. British Journal of Pharmacology 169(5): 988-998
Cohen, M.Z. 2009: Loss of continuity and lack of closure in therapeutic relationships were associated with feelings of abandonment at the transition to end of life care. Evidence-Based Nursing 12(4): 128
Gorovoy, I.R.; Vagefi, M.R.; Russell, M.S.; Gorovoy, M.; Bloomer, M.M.; Glastonbury, C.M. 2014: Loss of contrast enhancement of the inferior rectus muscle on magnetic resonance imaging in acute fulminant invasive fungal sinusitis. Clinical and Experimental Ophthalmology 42(9): 885-887
Diener, C.; Kuehner, C.; Flor, H. 2010: Loss of control during instrumental learning: a source localization study. Neuroimage 50(2): 717-726
Hilbert, A.; Rief, W.; Tuschen-Caffier, B.; de Zwaan, M.; Czaja, J. 2009: Loss of control eating and psychological maintenance in children: an ecological momentary assessment study. Behaviour Research and Therapy 47(1): 26-33
Conceição, E.; Bastos, A.P.; Brandão, I.; Vaz, A.R.; Ramalho, S.; Arrojado, F.; da Costa, J.é M.; Machado, P.P.P. 2014: Loss of control eating and weight outcomes after bariatric surgery: a study with a Portuguese sample. Eating and Weight Disorders: Ewd 19(1): 103-109
Tanofsky-Kraff, M.; Marcus, M.D.; Yanovski, S.Z.; Yanovski, J.A. 2008: Loss of control eating disorder in children age 12 years and younger: proposed research criteria. Eating Behaviors 9(3): 360-365
Harrison, C.; Mond, J.; Bentley, C.; Gratwick-Sarll, K.; Rieger, E.; Rodgers, B. 2014: Loss of control eating with and without the undue influence of weight or shape on self-evaluation: evidence from an adolescent population. Journal of Eating Disorders 2(1): 31
Greenaway, K.H.; Louis, W.R.; Hornsey, M.J. 2013: Loss of control increases belief in precognition and belief in precognition increases control. Plos one 8(8): E71327
Kent, S.J. 2012: Loss of control of HIV viremia associated with the fat malabsorption drug orlistat. Aids Research and Human Retroviruses 28(9): 961-962
Goossens, L.; Braet, C.; Van Vlierberghe, L.; Mels, S. 2009: Loss of control over eating in overweight youngsters: the role of anxiety, depression and emotional eating. European Eating Disorders Review: the Journal of the Eating Disorders Association 17(1): 68-78
White, M.A.; Kalarchian, M.A.; Masheb, R.M.; Marcus, M.D.; Grilo, C.M. 2010: Loss of control over eating predicts outcomes in bariatric surgery patients: a prospective, 24-month follow-up study. Journal of Clinical Psychiatry 71(2): 175-184
Villarejo, C.; Jiménez-Murcia, S.; Álvarez-Moya, E.; Granero, R.; Penelo, E.; Treasure, J.; Vilarrasa, N.úr.; Gil-Montserrat de Bernabé, M.ón.; Casanueva, F.F.; Tinahones, F.J.; Fernández-Real, J.é M.; Frühbeck, G.; de la Torre, R.; Botella, C.; Agüera, Z.; Menchón, J.é M.; Fernández-Aranda, F. 2014: Loss of control over eating: a description of the eating disorder/obesity spectrum in women. European Eating Disorders Review: the Journal of the Eating Disorders Association 22(1): 25-31
Bhattacharya, N.; Reichenzeller, M.; Caudron-Herger, M.; Haebe, S.; Brady, N.; Diener, S.; Nothing, M.; Döhner, H.; Stilgenbauer, S.; Rippe, K.; Mertens, D. 2015: Loss of cooperativity of secreted CD40L and increased dose-response to IL4 on CLL cell viability correlates with enhanced activation of NF-kB and STAT6. International Journal of Cancer 136(1): 65-73
Hwang-Verslues, W.W.; Chang, P.-H.; Jeng, Y.-M.; Kuo, W.-H.; Chiang, P.-H.; Chang, Y.-C.; Hsieh, T.-H.; Su, F.-Y.; Lin, L.-C.; Abbondante, S.; Yang, C.-Y.; Hsu, H.-M.; Yu, J.-C.; Chang, K.-J.; Shew, J.-Y.; Lee, E.Y.-H.P.; Lee, W.-H. 2013: Loss of corepressor PER2 under hypoxia up-regulates OCT1-mediated EMT gene expression and enhances tumor malignancy. Proceedings of the National Academy of Sciences of the United States of America 110(30): 12331-12336
Kolli, S.; Lako, M.; Figueiredo, F.; Mudhar, H.; Ahmad, S. 2008: Loss of corneal epithelial stem cell properties in outgrowths from human limbal explants cultured on intact amniotic membrane. Regenerative Medicine 3(3): 329-342
Dorsey, J.L.; Mangus, L.M.; Oakley, J.D.; Beck, S.E.; Kelly, K.M.; Queen, S.E.; Metcalf Pate, K.A.; Adams, R.J.; Marfurt, C.F.; Mankowski, J.L. 2014: Loss of corneal sensory nerve fibers in SIV-infected macaques: an alternate approach to investigate HIV-induced PNS damage. American Journal of Pathology 184(6): 1652-1659
Oji, V.; Eckl, K.-M.; Aufenvenne, K.; Nätebus, M.; Tarinski, T.; Ackermann, K.; Seller, N.; Metze, D.; Nürnberg, G.; Fölster-Holst, R.; Schäfer-Korting, M.; Hausser, I.; Traupe, H.; Hennies, H.C. 2010: Loss of corneodesmosin leads to severe skin barrier defect, pruritus, and atopy: unraveling the peeling skin disease. American Journal of Human Genetics 87(2): 274-281
Pornrattanamaneewong, C.; Harnroongroj, T.; Chareancholvanich, K. 2012: Loss of correction after medial opening wedge high tibial osteotomy: a comparison of locking plates without bone grafts and non-locking compression plates with bone grafts. Journal of the Medical Association of Thailand 95 Suppl. 9: S21-S28
Safain, M.G.; Hwang, S.; King, J.; Cahill, P.; Samdani, A. 2014: Loss of correction in spinal cord injury-related scoliosis after pedicle screw fixation. Child's Nervous System: Chns: Official Journal of the International Society for Pediatric Neurosurgery 30(4): 673-680
Zhu, Z.; Wang, X.; Qian, B.; Wang, B.; Yu, Y.; Zhao, Q.; Qiu, Y. 2012: Loss of correction in the treatment of thoracolumbar kyphosis secondary to ankylosing spondylitis: a comparison between Smith-Petersen osteotomies and pedicle subtraction osteotomy. Journal of Spinal Disorders and Techniques 25(7): 383-390
Raju, P.; Kini, S.Gurpur. 2011: Loss of correction in unstable comminuted distal radius fractures with external fixation and bone grafting--a long term followup study. Journal of Orthopaedic Surgery and Research 6: 23
Bhatt, N.B.; Gudo, E.S.; Semá, C.; Bila, D.; Di Mattei, P.; Augusto, O.; Garsia, R.; Jani, I.V. 2009: Loss of correlation between HIV viral load and CD4+ T-cell counts in HIV/HTLV-1 co-infection in treatment naive Mozambican patients. International Journal of Std and Aids 20(12): 863-868
Gornowicz-Porowska, J.; Bowszyc-Dmochowska, M.; Seraszek-Jaros, A.; Kaczmarek, E.żb.; Dmochowski, M. 2011: Loss of correlation between intensities of desmoglein 2 and desmoglein 3 expression in basal cell carcinomas. Acta Dermatovenerologica Croatica: Adc 19(3): 150-155
Ahmed, M.M.; Sturgeon, X.; Ellison, M.; Davisson, M.T.; Gardiner, K.J. 2012: Loss of correlations among proteins in brains of the Ts65Dn mouse model of down syndrome. Journal of Proteome Research 11(2): 1251-1263
Cartner, S.C.; Barlow, S.C.; Ness, T.J. 2007: Loss of cortical function in mice after decapitation, cervical dislocation, potassium chloride injection, and CO2 inhalation. Comparative Medicine 57(6): 570-573
Deng, Y.P.; Wong, T.; Bricker-Anthony, C.; Deng, B.; Reiner, A. 2013: Loss of corticostriatal and thalamostriatal synaptic terminals precedes striatal projection neuron pathology in heterozygous Q140 Huntington's disease mice. Neurobiology of Disease 60: 89-107
Llompart-Pou, J.A.; Pérez, G.; Raurich, J.M.ía.; Riesco, M.ía.; Brell, M.; Ibáñez, J.; Pérez-Bárcena, J.; Abadal, J.M.ía.; Homar, J.; Burguera, B.é 2010: Loss of cortisol circadian rhythm in patients with traumatic brain injury: a microdialysis evaluation. Neurocritical Care 13(2): 211-216
Robinson, D.W.; Stephenson, K.L.; Padgett, E.C. 1946: Loss of coverage of the penis, scrotum and urethra. Plastic and Reconstructive Surgery 1: 58-68
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Avendaño-Pérez, G.; Pin, C. 2013: Loss of culturability of Salmonella enterica subsp. enterica serovar Typhimurium upon cell-cell contact with human fecal bacteria. Applied and Environmental Microbiology 79(10): 3257-3263
Di Piazza, M.; Nowell, C.S.; Koch, U.; Durham, A.é-D.; Radtke, F. 2012: Loss of cutaneous TSLP-dependent immune responses skews the balance of inflammation from tumor protective to tumor promoting. Cancer Cell 22(4): 479-493
Kwon, S.-H.; Park, J.-C.; Ramachandran, S.; Cha, S.-D.; Kwon, K.-Y.; Park, J.-K.; Park, J.-W.; Bae, I.; Cho, C.-H. 2008: Loss of cyclin g1 expression in human uterine leiomyoma cells induces apoptosis. Reproductive Sciences 15(4): 400-410
Daidone, V.; Barbon, G.; Pontara, E.; Cattini, G.M.; Gallinaro, L.; Zampese, E.; Pizzo, P.; Casonato, A. 2014: Loss of cysteine 584 impairs the storage and release, but not the synthesis of von Willebrand factor. Thrombosis and Haemostasis 112(6): 1159-1166
Bérubé, J.; Roussel, L.; Nattagh, L.; Rousseau, S. 2010: Loss of cystic fibrosis transmembrane conductance regulator function enhances activation of p38 and ERK MAPKs, increasing interleukin-6 synthesis in airway epithelial cells exposed to Pseudomonas aeruginosa. Journal of Biological Chemistry 285(29): 22299-22307
Meyerholz, D.K.; Stoltz, D.A.; Namati, E.; Ramachandran, S.; Pezzulo, A.A.; Smith, A.R.; Rector, M.V.; Suter, M.J.; Kao, S.; McLennan, G.; Tearney, G.J.; Zabner, J.; McCray, P.B.; Welsh, M.J. 2010: Loss of cystic fibrosis transmembrane conductance regulator function produces abnormalities in tracheal development in neonatal pigs and young children. American Journal of Respiratory and Critical Care Medicine 182(10): 1251-1261
Brown, M.B.; Hunt, W.R.; Noe, J.E.; Rush, N.I.; Schweitzer, K.S.; Leece, T.C.; Moldobaeva, A.; Wagner, E.M.; Dudek, S.M.; Poirier, C.; Presson, R.G.; Gulbins, E.; Petrache, I. 2014: Loss of cystic fibrosis transmembrane conductance regulator impairs lung endothelial cell barrier function and increases susceptibility to microvascular damage from cigarette smoke. Pulmonary Circulation 4(2): 260-268
Nájera, N.; Garibay, N.; Pastrana, Y.; Palma, I.; Peña, Y.-R.; Pérez, J.; Coyote, N.; Hidalgo, A.; Kofman-Alfaro, S.; Queipo, G. 2009: Loss of cytochrome P450 17A1 protein expression in a 17alpha-hydroxylase/17,20-lyase-deficient 46,XY female caused by two novel mutations in the CYP17A1 gene. Endocrine Pathology 20(4): 249-255
Hiraide, Y.; Oshima, K.; Fujisawa, T.; Uesaka, K.; Hirose, Y.; Tsujimoto, R.; Yamamoto, H.; Okamoto, S.; Nakamura, Y.; Terauchi, K.; Omata, T.; Ihara, K.; Hattori, M.; Fujita, Y. 2015: Loss of cytochrome cM stimulates cyanobacterial heterotrophic growth in the dark. Plant and Cell Physiology 56(2): 334-345
Yanagawa, T.; Yoshida, H.; Yamagata, K.; Onizawa, K.; Tabuchi, K.; Koyama, Y.; Iwasa, S.; Shimoyamada, H.; Harada, H.; Omura, K. 2007: Loss of cytokeratin 13 expression in squamous cell carcinoma of the tongue is a possible sign for local recurrence. Journal of Experimental and Clinical Cancer Research: Cr 26(2): 215-220
Shalin, S.C.; Cifarelli, C.P.; Suen, J.Y.; Gao, L. 2014: Loss of cytokeratin 20 and acquisition of thyroid transcription factor-1 expression in a merkel cell carcinoma metastasis to the brain. American Journal of Dermatopathology 36(11): 904-906
Lee, J.-Y.; Muenzberg, H.; Gavrilova, O.; Reed, J.A.; Berryman, D.; Villanueva, E.C.; Louis, G.W.; Leinninger, G.M.; Bertuzzi, S.; Seeley, R.J.; Robinson, G.W.; Myers, M.G.; Hennighausen, L. 2008: Loss of cytokine-STAT5 signaling in the CNS and pituitary gland alters energy balance and leads to obesity. Plos one 3(2): E1639
Zhang, C.; Elkahloun, A.G.; Robertson, M.; Gills, J.J.; Tsurutani, J.; Shih, J.H.; Fukuoka, J.; Hollander, M.C.; Harris, C.C.; Travis, W.D.; Jen, J.; Dennis, P.A. 2011: Loss of cytoplasmic CDK1 predicts poor survival in human lung cancer and confers chemotherapeutic resistance. Plos one 6(8): E23849
Kunz, H.-H.; Zamani-Nour, S.; Häusler, R.E.; Ludewig, K.; Schroeder, J.I.; Malinova, I.; Fettke, J.; Flügge, U.-I.; Gierth, M. 2014: Loss of cytosolic phosphoglucose isomerase affects carbohydrate metabolism in leaves and is essential for fertility of Arabidopsis. Plant Physiology 166(2): 753-765
Müller, J.ür.R.; Waldmann, T.A.; Dubois, S. 2014: Loss of cytotoxicity and gain of cytokine production in murine tumor-activated NK cells. Plos one 9(8): E102793
Ambrus, A.M.; Islam, A.B.M.M.K.; Holmes, K.B.; Moon, N.S.; Lopez-Bigas, N.; Benevolenskaya, E.V.; Frolov, M.V. 2013: Loss of dE2F compromises mitochondrial function. Developmental Cell 27(4): 438-451
Punzo, C.; Xiong, W.; Cepko, C.L. 2012: Loss of daylight vision in retinal degeneration: are oxidative stress and metabolic dysregulation to blame?. Journal of Biological Chemistry 287(3): 1642-1648
Fukada, M.; Hanai, A.; Nakayama, A.; Suzuki, T.; Miyata, N.; Rodriguiz, R.M.; Wetsel, W.C.; Yao, T.-P.; Kawaguchi, Y. 2012: Loss of deacetylation activity of Hdac6 affects emotional behavior in mice. Plos one 7(2): E30924
Nunn, R.; Murray, A.; Sandler, J. 2011: Loss of deciduous teeth--is timing important to the GDP?. Dental Update 38(1): 55-58; 61-64
Esquerda-Canals, G.; Marti, J.; Rivera-Hernández, G.; Giménez-Llort, L.; Villegas, S. 2013: Loss of deep cerebellar nuclei neurons in the 3xTg-AD mice and protection by an anti-amyloid β antibody fragment. Mabs 5(5): 660-664
Galimba, K.D.; Tolkin, T.R.; Sullivan, A.M.; Melzer, R.; Theißen, G.ün.; Di Stilio, V.ón.S. 2012: Loss of deeply conserved C-class floral homeotic gene function and C- and E-class protein interaction in a double-flowered ranunculid mutant. Proceedings of the National Academy of Sciences of the United States of America 109(34): E2267-E2275
Gourley, S.L.; Koleske, A.J.; Taylor, J.R. 2009: Loss of dendrite stabilization by the Abl-related gene (Arg) kinase regulates behavioral flexibility and sensitivity to cocaine. Proceedings of the National Academy of Sciences of the United States of America 106(39): 16859-16864
Huang, Z.; Walker, M.C.; Shah, M.M. 2009: Loss of dendritic HCN1 subunits enhances cortical excitability and epileptogenesis. Journal of Neuroscience: the Official Journal of the Society for Neuroscience 29(35): 10979-10988
Gibson, M.P.; Zhu, Q.; Liu, Q.; D'Souza, R.N.; Feng, J.Q.; Qin, C. 2013: Loss of dentin sialophosphoprotein leads to periodontal diseases in mice. Journal of Periodontal Research 48(2): 221-227
Müller, T.; Mizumoto, S.; Suresh, I.; Komatsu, Y.; Vodopiutz, J.; Dundar, M.; Straub, V.; Lingenhel, A.; Melmer, A.; Lechner, S.; Zschocke, J.; Sugahara, K.; Janecke, A.R. 2013: Loss of dermatan sulfate epimerase (DSE) function results in musculocontractural Ehlers-Danlos syndrome. Human Molecular Genetics 22(18): 3761-3772
Janecke, A.R.; Baenziger, J.U.; Müller, T.; Dündar, M. 2011: Loss of dermatan-4-sulfotransferase 1 (D4ST1/CHST14) function represents the first dermatan sulfate biosynthesis defect, "dermatan sulfate-deficient adducted thumb-clubfoot syndrome". Human Mutation 32(4): 484-485
Dündar, M.; Müller, T.; Zhang, Q.; Pan, J.; Steinmann, B.; Vodopiutz, J.; Gruber, R.; Sonoda, T.; Krabichler, B.; Utermann, G.; Baenziger, J.U.; Zhang, L.; Janecke, A.R. 2009: Loss of dermatan-4-sulfotransferase 1 function results in adducted thumb-clubfoot syndrome. American Journal of Human Genetics 85(6): 873-882
Pereira, W.V.S.; Faria, J.M.R.; Tonetti, O.A.O.; Silva, E.A.A. 2014: Loss of desiccation tolerance in Copaifera langsdorffii Desf. seeds during germination. Brazilian Journal of Biology 74(2): 501-508
Mohamed, J.S.; Boriek, A.M. 2012: Loss of desmin triggers mechanosensitivity and up-regulation of Ankrd1 expression through Akt-NF-κB signaling pathway in smooth muscle cells. Faseb Journal: Official Publication of the Federation of American Societies for Experimental Biology 26(2): 757-765
Chen, J.; Den, Z.; Koch, P.J. 2008: Loss of desmocollin 3 in mice leads to epidermal blistering. Journal of Cell Science 121(Part 17): 2844-2849
Kolegraff, K.; Nava, P.; Helms, M.N.; Parkos, C.A.; Nusrat, A. 2011: Loss of desmocollin-2 confers a tumorigenic phenotype to colonic epithelial cells through activation of Akt/β-catenin signaling. Molecular Biology of the Cell 22(8): 1121-1134
Has, C.; Jakob, T.; He, Y.; Kiritsi, D.; Hausser, I.; Bruckner-Tuderman, L. 2015: Loss of desmoglein 1 associated with palmoplantar keratoderma, dermatitis and multiple allergies. British Journal of Dermatology 172(1): 257-261
Haeri Mazanderani, A.F.; Du Plessis, N.Marie.; Thomas, W.Nancy.; Venter, E.; Avenant, T. 2014: Loss of detectability and indeterminate results: Challenges facing HIV infant diagnosis in South Africa's expanding ART programme. South African Medical Journal 104(8): 574-577
Foell, J.L.; Volkmer, I.; Giersberg, C.; Kornhuber, M.; Horneff, G.; Staege, M.S. 2008: Loss of detectability of Charcot-Leyden crystal protein transcripts in blood cells after treatment with dimethyl sulfoxide. Journal of Immunological Methods 339(1): 99-103
Koletar, M.M.; Cheng, H.-Y.M.; Penninger, J.M.; Ralph, M.R. 2011: Loss of dexras1 alters nonphotic circadian phase shifts and reveals a role for the intergeniculate leaflet (IGL) in gene-targeted mice. Chronobiology International 28(7): 553-562
Kute, V.B.; Patel, M.P.; Shrimali, J.D.; Gumber, M.R.; Shah, P.R.; Patel, H.V.; Vanikar, A.V.; Trivedi, H.L. 2012: Loss of dialysis catheter guide-wire: How to prevent?. Indian Journal of Critical Care Medicine: Peer-Reviewed Official Publication of Indian Society of Critical Care Medicine 16(2): 114-116
Zhang, S.; Lv, J.-W.; Yang, P.; Yu, Q.; Pang, J.; Wang, Z.; Guo, H.; Liu, S.; Hu, J.; Li, J.; Leng, J.; Huang, Y.; Ye, Z.; Wang, C.-Y. 2012: Loss of dicer exacerbates cyclophosphamide-induced bladder overactivity by enhancing purinergic signaling. American Journal of Pathology 181(3): 937-946
Villanueva, H.; Tijunelis, M.; Shapiro, S.; Henderson, S.O. 2008: Loss of digits after trauma in a patient with systemic lupus erythematosus. Western Journal of Emergency Medicine 9(1): 43-45
Carvajal-Gonzalez, J.M.; Roman, A.C.; Cerezo-Guisado, M.I.; Rico-Leo, E.M.; Martin-Partido, G.; Fernandez-Salguero, P.M. 2009: Loss of dioxin-receptor expression accelerates wound healing in vivo by a mechanism involving TGFbeta. Journal of Cell Science 122(Part 11): 1823-1833
Yamamoto, M.; Raisman, G.; Li, Y. 2009: Loss of directed fore-limb reaching after destruction of spinal grey matter. Brain Research 1265: 47-52
Olaso, E.; Arteta, B.; Benedicto, A.; Crende, O.; Friedman, S.L. 2011: Loss of discoidin domain receptor 2 promotes hepatic fibrosis after chronic carbon tetrachloride through altered paracrine interactions between hepatic stellate cells and liver-associated macrophages. American Journal of Pathology 179(6): 2894-2904
Cerný, J.í; Vondrásek, J.í; Hobza, P. 2009: Loss of dispersion energy changes the stability and folding/unfolding equilibrium of the Trp-cage protein. Journal of Physical Chemistry. B 113(16): 5657-5660
Parikh, R.A.; White, J.S.; Huang, X.; Schoppy, D.W.; Baysal, B.E.; Baskaran, R.; Bakkenist, C.J.; Saunders, W.S.; Hsu, L-Ching.; Romkes, M.; Gollin, S.M. 2007: Loss of distal 11q is associated with DNA repair deficiency and reduced sensitivity to ionizing radiation in head and neck squamous cell carcinoma. Genes Chromosomes and Cancer 46(8): 761-775
Kang, S-Taeg.; Hwang, C-Ha.; Kim, B-Hyeon.; Sung, B-Yoon. 2009: Loss of distal femur combined with popliteal artery occlusion: reconstructive arthroplasty using modular segmental endoprosthesis: a case report. Journal of Korean Medical Science 24(2): 350-353
Valentín, L.; Rajala, T.; Peltoniemi, M.; Heinonsalo, J.; Pennanen, T.; Mäkipää, R. 2014: Loss of diversity in wood-inhabiting fungal communities affects decomposition activity in Norway spruce wood. Frontiers in Microbiology 5: 230
Chew-Graham, C.; Slade, M.; Montâna, C.; Stewart, M.; Gask, L. 2008: Loss of doctor-to-doctor communication: lessons from the reconfiguration of mental health services in England. Journal of Health Services Research and Policy 13(1): 6-12
Philipp, M.; Förster, S.; Klar, E. 2014: Loss of domain-a surgeon's challenge. Surgical approach to an enormous scrotal hernia. Der Chirurg; Zeitschrift für Alle Gebiete der Operativen Medizen 85(11): 1005-1009
Szuszies, C.J.; Hasenkamp, J.; Jung, W.; Koch, R.; Trümper, L.; Wulf, G.G. 2014: Loss of donor chimerism in remission after allogeneic stem cell transplantation of T-prolymphocytic leukemia patients following alemtuzumab induction therapy. International Journal of Hematology 100(5): 425-428
Graham, D.L.; Durai, H.H.; Garden, J.D.; Cohen, E.L.; Echevarria, F.D.; Stanwood, G.D. 2015: Loss of dopamine D2 receptors increases parvalbumin-positive interneurons in the anterior cingulate cortex. Acs Chemical Neuroscience 6(2): 297-305
Fifel, K.; Cooper, H.M. 2014: Loss of dopamine disrupts circadian rhythms in a mouse model of Parkinson's disease. Neurobiology of Disease 71: 359-369
Göttle, M.; Prudente, C.N.; Fu, R.; Sutcliffe, D.; Pang, H.; Cooper, D.; Veledar, E.; Glass, J.D.; Gearing, M.; Visser, J.E.; Jinnah, H.A. 2014: Loss of dopamine phenotype among midbrain neurons in Lesch-Nyhan disease. Annals of Neurology 76(1): 95-107
Mulherkar, S.A.; Jana, N.R. 2010: Loss of dopaminergic neurons and resulting behavioural deficits in mouse model of Angelman syndrome. Neurobiology of Disease 40(3): 586-592
Anonymous 2012: Loss of driving license: even on call duty will not help. MMW Fortschritte der Medizin 154(5): 16
Wang, X.; Huang, W.; Yang, Y.; Wang, Y.; Peng, T.; Chang, J.; Caldwell, C.C.; Zingarelli, B.; Fan, G.-C. 2014: Loss of duplexmiR-223 (5p and 3p) aggravates myocardial depression and mortality in polymicrobial sepsis. Biochimica et Biophysica Acta 1842(5): 701-711
Alawi, F.; Lin, P. 2010: Loss of dyskerin reduces the accumulation of a subset of H/ACA snoRNA-derived miRNA. Cell Cycle 9(12): 2467-2469
Hueston, J.L.; Suprenant, K.A. 2009: Loss of dystrophin and the microtubule-binding protein ELP-1 causes progressive paralysis and death of adult C. elegans. Developmental Dynamics: An Official Publication of the American Association of Anatomists 238(8): 1878-1886
Gawlik, K.I.; Holmberg, J.; Durbeej, M. 2014: Loss of dystrophin and β-sarcoglycan significantly exacerbates the phenotype of laminin α2 chain-deficient animals. American Journal of Pathology 184(3): 740-752
Hashmi, S.; Al-Salam, S. 2013: Loss of dystrophin staining in cardiomyocytes: a novel method for detection early myocardial infarction. International Journal of Clinical and Experimental Pathology 6(2): 249-257
Foody, J.M.; Sajjan, S.G.; Hu, X.H.; Ramey, D.R.; Neff, D.R.; Tershakovec, A.M.; Tomassini, J.E.; Wentworth, C.; Tunceli, K. 2010: Loss of early gains in low-density lipoprotein cholesterol goal attainment among high-risk patients. Journal of Clinical Lipidology 4(2): 126-132
Alkire, M.T. 2008: Loss of effective connectivity during general anesthesia. International Anesthesiology Clinics 46(3): 55-73
Rout, N.; Greene, J.; Yue, S.; O'Connor, D.; Johnson, R.P.; Else, J.G.; Exley, M.A.; Kaur, A. 2012: Loss of effector and anti-inflammatory natural killer T lymphocyte function in pathogenic simian immunodeficiency virus infection. Plos Pathogens 8(9): E1002928
Antonopoulos, A.; Demotte, N.; Stroobant, V.; Haslam, S.M.; van der Bruggen, P.; Dell, A. 2012: Loss of effector function of human cytolytic T lymphocytes is accompanied by major alterations in N- and O-glycosylation. Journal of Biological Chemistry 287(14): 11240-11251
Hassan, C.; Rex, D.K.; Zullo, A.; Cooper, G.S. 2012: Loss of efficacy and cost-effectiveness when screening colonoscopy is performed by nongastroenterologists. Cancer 118(18): 4404-4411
Simonini, G.; Zannin, M.E.; Caputo, R.; Falcini, F.; de Martino, M.; Zulian, F.; Cimaz, R. 2008: Loss of efficacy during long-term infliximab therapy for sight-threatening childhood uveitis. Rheumatology 47(10): 1510-1514
Zhou, Q.; Chen, T.; Ibe, J.C.F.; Raj, J.U.; Zhou, G. 2011: Loss of either hypoxia inducible factor 1 or 2 promotes lung cancer cell colonization. Cell Cycle 10(13): 2233-2234
Chung, A.W.Y.; Au Yeung, K.; Sandor, G.G.S.; Judge, D.P.; Dietz, H.C.; van Breemen, C. 2007: Loss of elastic fiber integrity and reduction of vascular smooth muscle contraction resulting from the upregulated activities of matrix metalloproteinase-2 and -9 in the thoracic aortic aneurysm in Marfan syndrome. Circulation Research 101(5): 512-522
Bakhti, M.; Snaidero, N.; Schneider, D.; Aggarwal, S.; Möbius, W.; Janshoff, A.; Eckhardt, M.; Nave, K.-A.; Simons, M. 2013: Loss of electrostatic cell-surface repulsion mediates myelin membrane adhesion and compaction in the central nervous system. Proceedings of the National Academy of Sciences of the United States of America 110(8): 3143-3148
Scanu, S.; Foerster, J.M.; Timmer, M.; Ullmann, G.M.; Ubbink, M. 2013: Loss of electrostatic interactions causes increase of dynamics within the plastocyanin-cytochrome f complex. Biochemistry 52(38): 6615-6626
Koch, A.J.; Holaska, J.M. 2012: Loss of emerin alters myogenic signaling and miRNA expression in mouse myogenic progenitors. Plos one 7(5): E37262
Hequette, J.; Narme, P.; Perin, B.; Godefroy, O.; Loas, G.é 2013: Loss of emotional responsiveness secondary to left amygdalohippocampectomy performed for the treatment of complex, drug-resistant partial epilepsy. Journal of Neuropsychiatry and Clinical Neurosciences 25(3): E55-E59
Dendooven, A.él.; van Oostrom, O.; van der Giezen, D.M.; Leeuwis, J.W.; Snijckers, C.; Joles, J.A.; Robertson, E.J.; Verhaar, M.C.; Nguyen, T.Q.; Goldschmeding, R. 2011: Loss of endogenous bone morphogenetic protein-6 aggravates renal fibrosis. American Journal of Pathology 178(3): 1069-1079
Meeran, S.M.; Katiyar, N.; Singh, T.; Katiyar, S.K. 2009: Loss of endogenous interleukin-12 activates survival signals in ultraviolet-exposed mouse skin and skin tumors. Neoplasia 11(9): 846-855
Ait-Ghezali, L.; Arbabian, A.; Jeibmann, A.; Hasselblatt, M.; Hallaert, G.G.; Van den Broecke, C.; Gray, F.ço.; Brouland, J.-P.; Varin-Blank, N.; Papp, B. 2014: Loss of endoplasmic reticulum calcium pump expression in choroid plexus tumours. Neuropathology and Applied Neurobiology 40(6): 726-735
D'Amico, G.; Korhonen, E.Anne.; Waltari, M.; Saharinen, P.; Laakkonen, P.; Alitalo, K. 2010: Loss of endothelial Tie1 receptor impairs lymphatic vessel development-brief report. Arteriosclerosis Thrombosis and Vascular Biology 30(2): 207-209
Finnie, J.W.; Manavis, J.; Chidlow, G. 2014: Loss of endothelial barrier antigen immunoreactivity as a marker of Clostridium perfringens type D epsilon toxin-induced microvascular damage in rat brain. Journal of Comparative Pathology 151(2-3): 153-156
Andrulis, M.; Dietrich, S.; Longerich, T.; Koschny, R.; Burian, M.; Schmitt-Gräf, A.; Schirmacher, P.; Ho, A.D.; Dreger, P.; Luft, T. 2012: Loss of endothelial thrombomodulin predicts response to steroid therapy and survival in acute intestinal graft-versus-host disease. Haematologica 97(11): 1674-1677
Han, Y.; Tao, J.; Gomer, A.; Ramirez-Bergeron, D.L. 2014: Loss of endothelial-ARNT in adult mice contributes to dampened circulating proangiogenic cells and delayed wound healing. Vascular Medicine 19(6): 429-441
Maddali, M.M.; Adhikari, R.K.; Al Delamie, T. 2007: Loss of endtidal CO trace creating a scare of tracheal tube dislodgement. Paediatric Anaesthesia 17(4): 401-402
Cheng, H.; Kimura, K.; Peter, A.K.; Cui, L.; Ouyang, K.; Shen, T.; Liu, Y.; Gu, Y.; Dalton, N.D.; Evans, S.M.; Knowlton, K.U.; Peterson, K.L.; Chen, J. 2010: Loss of enigma homolog protein results in dilated cardiomyopathy. Circulation Research 107(3): 348-356
Feng, Y.; Ralls, M.W.; Xiao, W.; Miyasaka, E.; Herman, R.S.; Teitelbaum, D.H. 2012: Loss of enteral nutrition in a mouse model results in intestinal epithelial barrier dysfunction. Annals of the new York Academy of Sciences 1258: 71-77
Du, F.; Wang, L.; Qian, W.; Liu, S. 2009: Loss of enteric neurons accompanied by decreased expression of GDNF and PI3K/Akt pathway in diabetic rats. Neurogastroenterology and Motility: the Official Journal of the European Gastrointestinal Motility Society 21(11): 1229-E114
Derikx, J.P.M.; Blijlevens, N.M.A.; Donnelly, J.P.; Fujii, H.; Kanda, T.; van Bijnen, A.A.; Heineman, E.; Buurman, W.A. 2009: Loss of enterocyte mass is accompanied by diminished turnover of enterocytes after myeloablative therapy in haematopoietic stem-cell transplant recipients. Annals of Oncology: Official Journal of the European Society for Medical Oncology 20(2): 337-342
Mellitzer, G.; Beucher, A.; Lobstein, V.; Michel, P.; Robine, S.; Kedinger, M.èl.; Gradwohl, G.ér. 2010: Loss of enteroendocrine cells in mice alters lipid absorption and glucose homeostasis and impairs postnatal survival. Journal of Clinical Investigation 120(5): 1708-1721
Knoops, A.J.G.; Gerritsen, L.; van der Graaf, Y.; Mali, W.P.T.M.; Geerlings, M.I. 2012: Loss of entorhinal cortex and hippocampal volumes compared to whole brain volume in normal aging: the SMART-Medea study. Psychiatry Research 203(1): 31-37
Badarau, A.; Page, M.I. 2008: Loss of enzyme activity during turnover of the Bacillus cereus beta-lactamase catalysed hydrolysis of beta-lactams due to loss of zinc ion. Journal of Biological Inorganic Chemistry: Jbic: a Publication of the Society of Biological Inorganic Chemistry 13(6): 919-928
Cooper, M.A.; Son, A.I.; Komlos, D.; Sun, Y.; Kleiman, N.J.; Zhou, R. 2008: Loss of ephrin-A5 function disrupts lens fiber cell packing and leads to cataract. Proceedings of the National Academy of Sciences of the United States of America 105(43): 16620-16625
Augustin, I.; Gross, J.; Baumann, D.; Korn, C.; Kerr, G.; Grigoryan, T.; Mauch, C.; Birchmeier, W.; Boutros, M. 2013: Loss of epidermal Evi/Wls results in a phenotype resembling psoriasiform dermatitis. Journal of Experimental Medicine 210(9): 1761-1777
Scalabrino, G.; Galimberti, D.; Mutti, E.; Scalabrini, D.; Veber, D.; De Riz, M.; Bamonti, F.; Capello, E.; Mancardi, G.L.; Scarpini, E. 2010: Loss of epidermal growth factor regulation by cobalamin in multiple sclerosis. Brain Research 1333: 64-71
Rezvani, H.R.; Ali, N.; Serrano-Sanchez, M.; Dubus, P.; Varon, C.; Ged, C.éc.; Pain, C.; Cario-André, M.; Seneschal, J.; Taïeb, A.; de Verneuil, H.; Mazurier, F.éd.ér. 2011: Loss of epidermal hypoxia-inducible factor-1α accelerates epidermal aging and affects re-epithelialization in human and mouse. Journal of Cell Science 124(Part 24): 4172-4183
Ray, A.; Alalem, M.; Ray, B.K. 2013: Loss of epigenetic Kruppel-like factor 4 histone deacetylase (KLF-4-HDAC)-mediated transcriptional suppression is crucial in increasing vascular endothelial growth factor (VEGF) expression in breast cancer. Journal of Biological Chemistry 288(38): 27232-27242
Bettini, M.L.; Pan, F.; Bettini, M.; Finkelstein, D.; Rehg, J.E.; Floess, S.; Bell, B.D.; Ziegler, S.F.; Huehn, J.; Pardoll, D.M.; Vignali, D.A.A. 2012: Loss of epigenetic modification driven by the Foxp3 transcription factor leads to regulatory T cell insufficiency. Immunity 36(5): 717-730
Szpakowski, S.; Sun, X.; Lage, J.é M.; Dyer, A.; Rubinstein, J.; Kowalski, D.; Sasaki, C.; Costa, J.; Lizardi, P.M. 2009: Loss of epigenetic silencing in tumors preferentially affects primate-specific retroelements. Gene 448(2): 151-167
Aragón, G.; Martínez, I.; García, A. 2012: Loss of epiphytic diversity along a latitudinal gradient in southern Europe. Science of the Total Environment 426: 188-195
Chen, Y.-H.; Wu, L.-C.; Wu, W.-R.; Lin, H.-J.; Lee, S.-W.; Lin, C.-Y.; Chang, S.-L.; Chow, N.-H.; Huang, H.-Y.; Li, C.-F.; Hsu, H.-P.; Shiue, Y.-L. 2012: Loss of epithelial membrane protein-2 expression confers an independent prognosticator in nasopharyngeal carcinoma: a cohort study. Bmj Open 2(2): E000900
Chen, M.; Yeh, C.-R.; Chang, H.-C.; Vitkus, S.; Wen, X.-Q.; Bhowmick, N.A.; Wolfe, A.; Yeh, S. 2012: Loss of epithelial oestrogen receptor α inhibits oestrogen-stimulated prostate proliferation and squamous metaplasia via in vivo tissue selective knockout models. Journal of Pathology 226(1): 17-27
Warraich, S.; Bone, D.B.J.; Quinonez, D.; Ii, H.; Choi, D.-S.; Holdsworth, D.W.; Drangova, M.; Dixon, S.J.; Séguin, C.A.; Hammond, J.R. 2013: Loss of equilibrative nucleoside transporter 1 in mice leads to progressive ectopic mineralization of spinal tissues resembling diffuse idiopathic skeletal hyperostosis in humans. Journal of Bone and Mineral Research: the Official Journal of the American Society for Bone and Mineral Research 28(5): 1135-1149
Zhai, Y.; Bommer, G.T.; Feng, Y.; Wiese, A.B.; Fearon, E.R.; Cho, K.R. 2010: Loss of estrogen receptor 1 enhances cervical cancer invasion. American Journal of Pathology 177(2): 884-895
Heikkilä, A.; Hagström, J.; Mäenpää, H.; Louhimo, J.; Siironen, P.äi.; Heiskanen, I.; Haglund, C.; Arola, J. 2013: Loss of estrogen receptor Beta expression in follicular thyroid carcinoma predicts poor outcome. Thyroid: Official Journal of the American Thyroid Association 23(4): 456-465
Jayachandran, M.; Preston, C.C.; Hunter, L.W.; Jahangir, A.; Owen, W.G.; Korach, K.S.; Miller, V.M. 2010: Loss of estrogen receptor beta decreases mitochondrial energetic potential and increases thrombogenicity of platelets in aged female mice. Age 32(1): 109-121
Halon, A.; Nowak-Markwitz, E.; Maciejczyk, A.; Pudelko, M.; Gansukh, T.; Györffy, B.áz.; Donizy, P.; Murawa, D.; Matkowski, R.; Spaczynski, M.; Lage, H.; Surowiak, P. 2011: Loss of estrogen receptor beta expression correlates with shorter overall survival and lack of clinical response to chemotherapy in ovarian cancer patients. Anticancer Research 31(2): 711-718
Suzuki, F.; Akahira, J-Ichi.; Miura, I.; Suzuki, T.; Ito, K.; Hayashi, S-Ichi.; Sasano, H.; Yaegashi, N. 2008: Loss of estrogen receptor beta isoform expression and its correlation with aberrant DNA methylation of the 5'-untranslated region in human epithelial ovarian carcinoma. Cancer Science 99(12): 2365-2372
Bailey, S.T.; Westerling, T.; Brown, M. 2015: Loss of estrogen-regulated microRNA expression increases HER2 signaling and is prognostic of poor outcome in luminal breast cancer. Cancer Research 75(2): 436-445
Hong, E.-J.; Levasseur, M.-P.; Dufour, C.R.; Perry, M.-C.; Giguère, V. 2013: Loss of estrogen-related receptor α promotes hepatocarcinogenesis development via metabolic and inflammatory disturbances. Proceedings of the National Academy of Sciences of the United States of America 110(44): 17975-17980
Blednov, Y.A.; Borghese, C.M.; McCracken, M.L.; Benavidez, J.M.; Geil, C.R.; Osterndorff-Kahanek, E.; Werner, D.F.; Iyer, S.; Swihart, A.; Harrison, N.L.; Homanics, G.E.; Harris, R.A. 2011: Loss of ethanol conditioned taste aversion and motor stimulation in knockin mice with ethanol-insensitive α2-containing GABA(A) receptors. Journal of Pharmacology and Experimental Therapeutics 336(1): 145-154
Singer, P.P.; Jones, G.R.; Lewis, R.; Johnson, R. 2007: Loss of ethanol from vitreous humor in drowning death. Journal of Analytical Toxicology 31(8): 522-525
Ruiz-Ramos, M.; Escolar Pujolar, A. 2010: Loss of exhaustivity in official mortality statistics. more haste, less accuracy. Gaceta Sanitaria 24(4): 364
Tomimaru, Y.; Xu, C.Q.; Nambotin, S.B.; Yan, T.; Wands, J.R.; Kim, M. 2013: Loss of exon 4 in a human T-cell factor-4 isoform promotes hepatic tumourigenicity. Liver International: Official Journal of the International Association for the Study of the Liver 33(10): 1536-1548
Ruan, Y.-H.; Gao, Q.; Zhang, L.; Hua, H.-R.; Cheng, J.-L.; Jin, K.-W. 2007: Loss of exons of FHIT gene and FHIT protein expression in Yunnan tin miners with lung cancer. Ai Zheng 26(6): 607-612
Pflugshaupt, T.; Nyffeler, T.; von Wartburg, R.; Hess, C.W.; Müri, R.é M. 2009: Loss of exploratory vertical saccades after unilateral frontal eye field damage. BMJ Case Reports
Asiaf, A.; Ahmad, S.T.; Aziz, S.A.; Malik, A.A.; Rasool, Z.; Masood, A.; Zargar, M.A. 2014: Loss of expression and aberrant methylation of the CDH1 (E-cadherin) gene in breast cancer patients from Kashmir. Asian Pacific Journal of Cancer Prevention: Apjcp 15(15): 6397-6403
Rossa, C.; Sommer, G.; Spolidorio, L.C.; Rosenzweig, S.A.; Watson, D.K.; Kirkwood, K.L. 2012: Loss of expression and function of SOCS3 is an early event in HNSCC: altered subcellular localization as a possible mechanism involved in proliferation, migration and invasion. Plos one 7(9): E45197
Li, Y.; Wen, Y.; Zhou, J.-x.; Zhang, Z.-t. 2013: Loss of expression and mechanism of early growth response gene-3 in human oral squamous carcinoma. Zhonghua Yi Xue Za Zhi 93(32): 2549-2552
Beggs, A.D.; Jones, A.; Shepherd, N.; Arnaout, A.; Finlayson, C.; Abulafi, A.Muti.; Morton, D.G.; Matthews, G.M.; Hodgson, S.V.; Tomlinson, I.P.M. 2013: Loss of expression and promoter methylation of SLIT2 are associated with sessile serrated adenoma formation. Plos Genetics 9(5): E1003488
Juhlin, C.C.; Haglund, F.; Villablanca, A.; Forsberg, L.; Sandelin, K.; Bränström, R.; Larsson, C.; Höög, A. 2009: Loss of expression for the Wnt pathway components adenomatous polyposis coli and glycogen synthase kinase 3-beta in parathyroid carcinomas. International Journal of Oncology 34(2): 481-492
De Souza, A.; Tinguely, M.; Pfaltz, M.; Burghart, D.R.; Kempf, W. 2014: Loss of expression of 5-hydroxymethylcytosine in CD30-positive cutaneous lymphoproliferative disorders. Journal of Cutaneous Pathology 41(12): 901-906
Arnason, T.; Sapp, H.L.; Rayson, D.; Barnes, P.J.; Drewniak, M.; Nassar, B.A.; Huang, W.-Y. 2011: Loss of expression of DNA mismatch repair proteins is rare in pancreatic and small intestinal neuroendocrine tumors. Archives of Pathology and Laboratory Medicine 135(12): 1539-1544
Chetty, R.; Serra, S. 2009: Loss of expression of E-cadherin in solid pseudopapillary tumors of the pancreas. Pancreas 38(3): 338; Author Reply 338-9
Wang, H.; Wen, J.; Wang, H.; Guo, Q.; Shi, S.; Shi, Q.; Zhou, X.; Liu, Q.; Lu, G.; Wang, J. 2014: Loss of expression of EphB1 protein in serous carcinoma of ovary associated with metastasis and poor survival. International Journal of Clinical and Experimental Pathology 7(1): 313-321
Wang, S.P.; Zhou, H.J.; Chen, X.P.; Ren, G.Y.; Ruan, X.X.; Zhang, Y.; Zhang, R.L.; Chen, J. 2007: Loss of expression of Kruppel-like factor 6 in primary hepatocellular carcinoma and hepatoma cell lines. Journal of Experimental and Clinical Cancer Research: Cr 26(1): 117-124
Zhang, J.; Xu, Z.; Zhou, X.; Zhang, H.; Yang, N.; Wu, Y.; Chen, Y.; Yang, G.; Ren, T. 2014: Loss of expression of MHC class I-related chain A (MICA) is a frequent event and predicts poor survival in patients with hepatocellular carcinoma. International Journal of Clinical and Experimental Pathology 7(6): 3123-3131
Khaheshi, I.; Keshavarz, S.; Imani Fooladi, A.A.; Ebrahimi, M.; Yazdani, S.; Panahi, Y.; Shohrati, M.; Nourani, M.R. 2011: Loss of expression of TGF-βs and their receptors in chronic skin lesions induced by sulfur mustard as compared with chronic contact dermatitis patients. Bmc Dermatology 11: 2
Masson, D.; Rioux-Leclercq, N.; Fergelot, P.; Jouan, F.; Mottier, S.ép.; Théoleyre, S.; Bach-Ngohou, K.; Patard, J.-J.; Denis, M.G. 2010: Loss of expression of TIMP3 in clear cell renal cell carcinoma. European Journal of Cancer 46(8): 1430-1437
Valleley, E.M.A.; Cordery, S.F.; Carr, I.M.; MacLennan, K.A.; Bonthron, D.T. 2010: Loss of expression of ZAC/PLAGL1 in diffuse large B-cell lymphoma is independent of promoter hypermethylation. Genes Chromosomes and Cancer 49(5): 480-486
Green, A.R.; Krivinskas, S.; Young, P.; Rakha, E.A.; Paish, E.C.; Powe, D.G.; Ellis, I.O. 2009: Loss of expression of chromosome 16q genes DPEP1 and CTCF in lobular carcinoma in situ of the breast. Breast Cancer Research and Treatment 113(1): 59-66
Du, P.; Ye, L.; Li, H.; Ruge, F.; Yang, Y.; Jiang, W.G. 2012: Loss of expression of growth differentiation factor-9 (GDF9) in human kidney cancer and regulation of growth and migration of kidney cancer cells by GDF9. Anticancer Research 32(10): 4375-4383
Chen, C.; Wu, C-Qun.; Zhang, Z-Qi.; Yao, D-Kang.; Zhu, L. 2011: Loss of expression of miR-335 is implicated in hepatic stellate cell migration and activation. Experimental Cell Research 317(12): 1714-1725
Zembowicz, A.; Knoepp, S.M.; Bei, T.; Stergiopoulos, S.; Eng, C.; Mihm, M.C.; Stratakis, C.A. 2007: Loss of expression of protein kinase a regulatory subunit 1alpha in pigmented epithelioid melanocytoma but not in melanoma or other melanocytic lesions. American Journal of Surgical Pathology 31(11): 1764-1775
Beggs, A.D.; Domingo, E.; McGregor, M.; Presz, M.; Johnstone, E.; Midgley, R.; Kerr, D.; Oukrif, D.; Novelli, M.; Abulafi, M.; Hodgson, S.V.; Fadhil, W.; Ilyas, M.; Tomlinson, I.P.M. 2012: Loss of expression of the double strand break repair protein ATM is associated with worse prognosis in colorectal cancer and loss of Ku70 expression is associated with CIN. Oncotarget 3(11): 1348-1355
Morani, F.; Pagano, L.; Prodam, F.; Aimaretti, G.; Isidoro, C. 2012: Loss of expression of the oncosuppressor PTEN in thyroid incidentalomas associates with GLUT1 plasmamembrane expression. Panminerva Medica 54(2): 59-63
Neumaier, C.; Nittka, S.; Neumaier, M. 2012: Loss of expression of the tumor suppressor CEACAM1 links different hereditary colorectal carcinoma subtypes to the genesis of sporadic colorectal carcinoma. Onkologie 35(10): 563-568
Gurung, P.M.S.; Veerakumarasivam, A.; Williamson, M.; Counsell, N.; Douglas, J.; Tan, W.S.; Feber, A.; Crabb, S.J.; Short, S.C.; Freeman, A.; Powles, T.; Hoskin, P.J.; West, C.M.; Kelly, J.D. 2015: Loss of expression of the tumour suppressor gene AIMP3 predicts survival following radiotherapy in muscle-invasive bladder cancer. International Journal of Cancer 136(3): 709-720
Guo, Q.; Zhang, H.; Zhao, X.; Fu, Y.; Zhang, J.; Li, M. 2014: Loss of expressions of Dusp6, Sprouty4, and Sef, negative regulators of FGF2/ERK1/2 signaling, in the endometrium of women with adenomyosis. International Journal of Gynecological Pathology: Official Journal of the International Society of Gynecological Pathologists 33(3): 288-297
Rahme, H.; Vikerfors, O.; Ludvigsson, L.; Elvèn, M.; Michaëlsson, K. 2010: Loss of external rotation after open Bankart repair: an important prognostic factor for patient satisfaction. Knee Surgery Sports Traumatology Arthroscopy: Official Journal of the Esska 18(3): 404-408
Haslauer, C.M.; Elsaid, K.A.; Fleming, B.C.; Proffen, B.L.; Johnson, V.M.; Murray, M.M. 2013: Loss of extracellular matrix from articular cartilage is mediated by the synovium and ligament after anterior cruciate ligament injury. Osteoarthritis and Cartilage 21(12): 1950-1957
Gongora, M.C.; Lob, H.E.; Landmesser, U.; Guzik, T.J.; Martin, W.D.; Ozumi, K.; Wall, S.M.; Wilson, D.S.; Murthy, N.; Gravanis, M.; Fukai, T.; Harrison, D.G. 2008: Loss of extracellular superoxide dismutase leads to acute lung damage in the presence of ambient air: a potential mechanism underlying adult respiratory distress syndrome. American Journal of Pathology 173(4): 915-926
Yang, S.; Suh, Y.; Choi, Y.M.; Shin, S.; Han, J.Y.; Lee, K. 2013: Loss of fat with increased adipose triglyceride lipase-mediated lipolysis in adipose tissue during laying stages in quail. Lipids 48(1): 13-21
Klooster, K.L.; Burruel, V.R.; Meyers, S.A. 2011: Loss of fertilization potential of desiccated rhesus macaque spermatozoa following prolonged storage. Cryobiology 62(3): 161-166
Vo, A.H.; Swaroop, A.; Liu, Y.; Norris, Z.G.; Shavit, J.A. 2013: Loss of fibrinogen in zebrafish results in symptoms consistent with human hypofibrinogenemia. Plos one 8(9): E74682
Kim, J.-w.; Evans, C.; Weidemann, A.; Takeda, N.; Lee, Y.S.; Stockmann, C.; Branco-Price, C.; Brandberg, F.; Leone, G.; Ostrowski, M.C.; Johnson, R.S. 2012: Loss of fibroblast HIF-1α accelerates tumorigenesis. Cancer Research 72(13): 3187-3195
Schluterman, M.K.; Chapman, S.L.; Korpanty, G.; Ozumi, K.; Fukai, T.; Yanagisawa, H.; Brekken, R.A. 2010: Loss of fibulin-5 binding to beta1 integrins inhibits tumor growth by increasing the level of ROS. Disease Models and Mechanisms 3(5-6): 333-342