EurekaMag.com logo
+ Translate

Regulation of leaf metabolism by sucrose


, : Regulation of leaf metabolism by sucrose. Fiziologiya Rastenii (Moscow) 39(4): 687-691


(PDF 0-2 workdays service)

Accession: 002477164

Submit PDF Full Text: Here


Submit PDF Full Text

No spam - Every submission is manually reviewed

Due to poor quality, we do not accept files from Researchgate

Submitted PDF Full Texts will always be free for everyone
(We only charge for PDFs that we need to acquire)

Select a PDF file:
Close
Close

Related references

Daie J.; Keller R.; Wyse R., 1984: Regulation of sucrose metabolism in leaf tissue. Plant Physiology (Rockville) 75(SUPPL 1): 122

Lloyd, E.J.; Pollock, C.J., 1978: Regulation of sucrose metabolism during leaf senescence. The implication of protein synthesis in the changing pattern of invertase activity during leaf development in Lolium temulentum was studied using the 80S ribosomal inhibitor D-MDMP. In sections from mature leaves, MDMP slightly depressed overall e...

Huber S.C., 1981: Regulation of photosynthetic starch sucrose formation by sucrose phosphate synthetase and some characteristics of the leaf enzyme. Plant Physiology (Rockville) 67(4 SUPPL): 128

Weber, H.; Buchner, P.; Borisjuk, L.; Wobus, U., 1996: Sucrose metabolism during cotyledon development of Vicia faba L. is controlled by the concerted action of both sucrose-phosphate synthase and sucrose synthase: expression patterns, metabolic regulation and implications for seed development. The roles of sucrose-phosphate synthase (Sps) and sucrose synthase (Sus) in developing embryos of Vicia faba have been characterized. In the cotyledons the expression of both Sps and Sus is initiated in cells differentiating into storage tissue. T...

Weber, H.; Buchner, P.; Borisjuk, L.; Wobus, U., 1996: Sucrose metabolism during cotyledon development of Vicia faba L. is controlled by the concerted action of both sucrose-phosphate synthase and sucrose synthase: expression patterns, metabolic regulation and implications for seed development. The roles of sucrose-phosphate synthase (Sps) and sucrose synthase (Sus) in developing embryos of Vicia faba have been characterized. In the cotyledons the expression of both Sps and Sus is initiated in cells differentiating into storage tissue. T...

Anderson, Jm, 1983: Release of sucrose from Vicia faba L. leaf discs Broadbeans, ionic regulation, mesophyll tissue or phloem as sites of passage of sucrose release. Plant physiology 71(2): 333-340

Mukherjee, S.; Liu, A.; Deol, K.K.; Kulichikhin, K.; Stasolla, C.; Brûlé-Babel, A.; Ayele, B.T., 2016: Transcriptional coordination and abscisic acid mediated regulation of sucrose transport and sucrose-to-starch metabolism related genes during grain filling in wheat (Triticum aestivum L.). Combining physiological, molecular and biochemical approaches, this study investigated the transcriptional coordination and abscisic acid (ABA) mediated regulation of genes involved in sucrose import and its conversion to starch during grain filli...

Vargas, W.A.; Crutcher, F.K.; Kenerley, C.M., 2011: Functional characterization of a plant-like sucrose transporter from the beneficial fungus Trichoderma virens. Regulation of the symbiotic association with plants by sucrose metabolism inside the fungal cells. • Sucrose exuded by plants into the rhizosphere is a crucial component for the symbiotic association between the beneficial fungus Trichoderma and plant roots. In this article we sought to identify and characterize the molecular basis of sucrose...

Grof, C.P.L.; Knight, D.P.; Mcneil, S.D.; Lunn, J.E.; Campbell, J.A., 1998: A modified assay method shows leaf sucrose-phosphate synthase activity is correlated with leaf sucrose content across a range of sugarcane varieties. Eight different commercial and breeding varieties of sugarcane (Saccharum spp.) grown in controlled conditions were assayed for leaf sucrose-phosphate synthase (SPS) (EC 2.1.4.14) activity and leaf sucrose content. Leaf SPS activity measured at 25...

Koch, K.E.; Wu, Y.; Xu, J., 1996: Sugar and metabolic regulation of genes for sucrose metabolism: potential influence of maize sucrose synthase and soluble invertase responses on carbon partitioning and sugar sensing. Sugar responsiveness of genes for both paths of sucrose metabolism could provide a mechanism not only for transcriptional regulation of the first step in the use of imported carbon, but also for altering signals to the sugar-sensing system. This h...