Optimization of cultural conditions for production of chitinase by Bacillus laterosporous MML2270 isolated from rice rhizosphere soil
Shanmugaiah,V.; Mathivanan,N.; Balasubramanian,N.; Manoharan,P.T.
African Journal Of Biotechnology: 15, 2562-2568
2008
ISSN/ISBN: 1684-5315 Accession: 032652931
A total of 39 chitinolytic bacteria were isolated from 77 rhizosphere soil samples collected from different crop fields in Tamil Nadu state, India. Among them, a strain designated as MML2270, which produced highest chitinolytic activity in primary and secondary screening in colloidal chitin agar was selected and later identified as Bacillus laterosporous.
PDF emailed within 1 workday: $29.90
Related References
Faramarzi, M.; Fazeli, M.; Tabatabaei, M.; Adrangi, S.; Jami Al Ah, K.; Tasharrofi, N.; Aziz Mohse, F. 2008: Optimization of Cultural Conditions for Production of Chitinase by a Soil Isolate of Massilia timonae Biotechnology(Faisalabad) 8(1): 93-99Goyal, V.; Mittal, A.; Bhuwal, A.Kumari.; Singh, G.; Yadav, A.; Aggarwal, N.Kumar. 2014: Parametric Optimization of Cultural Conditions for Carboxymethyl Cellulase Production Using Pretreated Rice Straw by Bacillus sp. 313SI under Stationary and Shaking Conditions Biotechnology Research International 2014: 651839
Mandal,A.; Kar,S.; Mohapatra,P.K.D.; Maity,C.; Mondal,K.C.; Pati,B.R. 2008: Xylanase production under submerged fermentation by newly isolated Bacillus cereus BSA1 parametric optimization of cultural conditions Journal Of Pure And Applied Microbiology: 1, 155-160. Ef
Bennett, C.B.; Hood, M.A. 1980: Effects of cultural conditions on the production of chitinase by a strain of bacillus megaterium Developments in Industrial Microbiology : P357-364
Swiontek Brzezinska, M.; Jankiewicz, U.; Lisiecki, K. 2013: Optimization of cultural conditions for the production of antifungal chitinase by Streptomyces sporovirgulis Applied Biochemistry and Microbiology 49(2): 154-159
Prakash, S.; Rajeswari, K.; Divya, P.; Ferlin, M.; Rajeshwari, C.T.; Vanavil, B. 2018: Optimization and production of curdlan gum using Bacillus cereus PR3 isolated from rhizosphere of leguminous plant Preparative Biochemistry and Biotechnology 48(5): 408-418
Jami Al A, K.; Tabatabaei, M.; Fathi Naja, M.; Shahverdi, A.; Faramarzi, M.; Zarrini, G.; Behravan, J. 2008: Optimization of Medium and Cultivation Conditions for Chitinase Production by the Newly Isolated: Aeromonas sp Biotechnology(Faisalabad) 7(2): 266-272
Madhaiyan, M.; Poonguzhali, S.; Kwon, S.-W.; Sa, T.-M. 2010: Bacillus methylotrophicus sp. nov., a methanol-utilizing, plant-growth-promoting bacterium isolated from rice rhizosphere soil International Journal of Systematic and Evolutionary Microbiology 60(Part 10): 2490-2495
Olfa Ghorbel-Bellaaj, Laila Manni, Kemel Jellouli, Noomen Hmidet, Moncef Nasri 2012: Optimization of protease and chitinase production by Bacillus cereus SV1 on shrimp shell waste using statistical experimental design Biochemical and molecular characterization of the chitinase Annals of Microbiology 62(3): 1255-1268
Ray, A.K.; Abhinanda Bairagi; Ghosh, K.S.; Sen, S.K. 2007: Optimization of fermentation conditions for cellulase production by Bacillus subtilis CY5 and Bacillus circulans TP3 isolated from fish gut Acta Ichthyologica et Piscatoria 37(1): 47-53
Gulati, H.K.; Chadha, B.S.; Saini, H.S. 2007: Production and characterization of thermostable alkaline phytase from Bacillus laevolacticus isolated from rhizosphere soil Journal of Industrial Microbiology and Biotechnology 34(1): 91-98
Acharya, S.; Chaudhary, A. 2012: Optimization of fermentation conditions for cellulases production by Bacillus licheniformis Mvs1 and Bacillus sp. Mvs3 isolated from Indian hot spring Brazilian Archives of Biology and Technology 55(4): 497-503
Mavingui, P.; Heulin, T. 1994: In vitro chitinase and antifungal activity of a soil, rhizosphere and rhizoplane population of Bacillus polymyxa Soil Biology and Biochemistry 26(6): 801-803
He, G-qing.; Tang, X-jun.; Mukhtar, A.M.Ali.; Chen, Q-he. 2003: Optimization of cultural conditions for thermostable beta-1,3-1,4-glucanase production by Bacillus subtilis ZJF-1A5 Journal of Zhejiang University. Science 4(6): 719-726
Zheng, Z.; Zhou, M.; Zheng, T. 1994: Biosynthetic conditions and properties of Streptomyces sp chitinase isolated from the Mangrove rhizosphere Asian Marine Biology 10: 41-44
El-Gayar, K.E.; Essa, A.M.; Abada, E.A. 2020: Whey Fermentation for Protease Production Using Bacillus thuringiensis Isolated from Mangrove Rhizosphere Soil in Jazan, Saudi Arabia Polish Journal of Environmental Studies 29(3): 2167-2176
Kumar, M.P.Prasanth; Valsa, A.K. 2007: Optimization of culture media and cultural conditions for the production of extracellular lipase by Bacillus coagulans Indian Journal of Biotechnology 6(1): 114-117
Oh Y.J. 1988: Optimization of media composition and cultural conditions for delta endotoxin production by bacillus thuringiensis var israelensis Korean Journal of Applied Microbiology and Bioengineering 16(1): 11-16
Singh, R.K.; Kumar, D.P.; Solanki, M.K.; Singh, P.; Srivastva, A.K.; Kumar, S.; Kashyap, P.L.; Saxena, A.K.; Singhal, P.K.; Arora, D.K. 2013: Optimization of media components for chitinase production by chickpea rhizosphere associated Lysinibacillus fusiformis B-CM18 Journal of Basic Microbiology 53(5): 451-460
Su, Y.an Chi; Hwang, Wen Ing; Chiou, Shu Y.an 1992: Screening and optimization of cultural conditions for high yield production of spore-crystal complex of Bacillus thuringiensis Journal of the Chinese Agricultural Chemical Society 30(2): 162-174