Cloning, overexpression and functional characterization of a class III chitinase from Casuarina glauca nodules

[1]  Pramod Kumar,et al.  Structural and functional evolution of chitinase‐like proteins from plants , 2015, Proteomics.

[2]  Roushan Islam,et al.  Diversity of chitinases and their industrial potential , 2015 .

[3]  Sujata Sharma,et al.  Current Overview of Allergens of Plant Pathogenesis Related Protein Families , 2014, TheScientificWorldJournal.

[4]  Pedro M. Coutinho,et al.  The carbohydrate-active enzymes database (CAZy) in 2013 , 2013, Nucleic Acids Res..

[5]  L. Tisa,et al.  What stories can the Frankia genomes start to tell us? , 2013, Journal of Biosciences.

[6]  D. Kasbekar Myth versus mutant: story of o. , 2013, Journal of biosciences.

[7]  S. Tingey,et al.  Endo-(1,4)-β-Glucanase gene families in the grasses: temporal and spatial Co-transcription of orthologous genes1 , 2012, BMC Plant Biology.

[8]  Małgorzata Lichocka,et al.  A Simple Dual Stain for Detailed Investigations of Plant-Fungal Pathogen Interactions , 2012 .

[9]  L. Laplaze,et al.  Heart of Endosymbioses: Transcriptomics Reveals a Conserved Genetic Program among Arbuscular Mycorrhizal, Actinorhizal and Legume-Rhizobial Symbioses , 2012, PloS one.

[10]  P. Santos,et al.  Actinorhizal plant defence-related genes in response to symbiotic Frankia. , 2011, Functional plant biology : FPB.

[11]  R. Wintjens,et al.  Structural Relationships in the Lysozyme Superfamily: Significant Evidence for Glycoside Hydrolase Signature Motifs , 2010, PloS one.

[12]  A. Moir,et al.  Purification and characterization of a new chitinase from latex of Ipomoea carnea , 2010 .

[13]  D. Bogusz,et al.  Casuarina research and applications in China , 2010, Symbiosis.

[14]  F. Auguy,et al.  Characterization of four defense-related genes up-regulated in root nodules of Casuarina glauca , 2010, Symbiosis.

[15]  A. Moir,et al.  ICChI, a glycosylated chitinase from the latex of Ipomoea carnea. , 2009, Phytochemistry.

[16]  Brandi L. Cantarel,et al.  The Carbohydrate-Active EnZymes database (CAZy): an expert resource for Glycogenomics , 2008, Nucleic Acids Res..

[17]  J. Mikkelsen,et al.  Plant chitinases. , 2008, The Plant journal : for cell and molecular biology.

[18]  L. Gowda,et al.  Abundant class III acidic chitinase homologue in tamarind (Tamarindus indica) seed serves as the major storage protein. , 2008, Journal of agricultural and food chemistry.

[19]  N. Sakthivel,et al.  Heterologous expression of new antifungal chitinase from wheat. , 2007, Protein expression and purification.

[20]  C. Ricardo,et al.  Isolation and characterization of cgchi3, a nodule‐specific gene from Casuarina glauca encoding a class III chitinase , 2007 .

[21]  Rajinder K. Gupta,et al.  Bacterial Chitinases: Properties and Potential , 2007, Critical reviews in biotechnology.

[22]  T. Fujii,et al.  Comparison of Enzymatic and Antifungal Properties between Family 18 and 19 Chitinases from S. coelicolor A3(2) , 2006, Bioscience, biotechnology, and biochemistry.

[23]  T. Ng,et al.  A chitinase with antifungal activity from the mung bean. , 2005, Protein expression and purification.

[24]  Ho Bang Kim,et al.  Constitutive expression of two endochitinases from root nodules ofElaeagnus umbellata confers resistance on transgenicArabidopsis plants against the fungal pathogenBotrytis cinerea , 2005, Journal of Plant Biology.

[25]  Duochuan Li,et al.  Purification and partial characterization of two chitinases from the mycoparasitic fungus Talaromyces flavus , 2005, Mycopathologia.

[26]  Liang-ping Lin,et al.  Purification and Characterization of Carboxymethyl Cellulase from Sinorhizobium Fredii , 2004 .

[27]  U. Stahl,et al.  Antifungal proteins: targets, mechanisms and prospective applications , 2004, Cellular and Molecular Life Sciences CMLS.

[28]  I. S. Pretorius,et al.  The Saccharomyces cerevisiae chitinase, encoded by the CTS1-2 gene, confers antifungal activity against Botrytis cinerea to Transgenic tobacco , 2003, Transgenic Research.

[29]  Paul Proost,et al.  The Abundant Class III Chitinase Homolog in Young Developing Banana Fruits Behaves as a Transient Vegetative Storage Protein and Most Probably Serves as an Important Supply of Amino Acids for the Synthesis of Ripening-Associated Proteins1 , 2002, Plant Physiology.

[30]  Ho Bang Kim,et al.  Differential expression patterns of an acidic chitinase and a basic chitinase in the root nodule of Elaeagnus umbellata. , 2002, Molecular plant-microbe interactions : MPMI.

[31]  E. Bokma,et al.  Expression and characterization of active site mutants of hevamine, a chitinase from the rubber tree Hevea brasiliensis. , 2002, European journal of biochemistry.

[32]  Zheng-Hua Ye,et al.  Mutation of a Chitinase-Like Gene Causes Ectopic Deposition of Lignin, Aberrant Cell Shapes, and Overproduction of Ethylene Article, publication date, and citation information can be found at www.plantcell.org/cgi/doi/10.1105/tpc.010278. , 2002, The Plant Cell Online.

[33]  C. Taliaferro,et al.  Induced expression of the class II chitinase gene during cold acclimation and dehydration of bermudagrass (Cynodon sp.) , 2001, Theoretical and Applied Genetics.

[34]  Xiao-Ming Yu,et al.  Winter rye antifreeze activity increases in response to cold and drought, but not abscisic acid. , 2001, Physiologia plantarum.

[35]  G. Lajoie,et al.  Chitinase genes responsive to cold encode antifreeze proteins in winter cereals. , 2000, Plant physiology.

[36]  T. Boller,et al.  Differential expression of eight chitinase genes in Medicago truncatula roots during mycorrhiza formation, nodulation, and pathogen infection. , 2000, Molecular plant-microbe interactions : MPMI.

[37]  T. Fukamizo,et al.  Chitinolytic enzymes: catalysis, substrate binding, and their application. , 2000, Current protein & peptide science.

[38]  M. Van Montagu,et al.  Srchi13, a Novel Early Nodulin from Sesbania rostrata, Is Related to Acidic Class III Chitinases , 1998, Plant Cell.

[39]  G. Mcdaniel,et al.  Comparison of Chitinases from Dogwood Anthracnose Resistant and Susceptible Cornus Species , 1998 .

[40]  M. Margis-Pinheiro,et al.  Arabidopsis thaliana class IV chitinase is early induced during the interaction with Xanthomonas campestris , 1997, FEBS letters.

[41]  R. Leah,et al.  Heterologous expression and characterization of wild-type and mutant forms of a 26 kDa endochitinase from barley (Hordeum vulgare L.). , 1997, The Biochemical journal.

[42]  C. Ricardo,et al.  Study of the Intercellular Fluid of Healthy Lupinus albus Organs (Presence of a Chitinase and a Thaumatin-Like Protein) , 1996, Plant physiology.

[43]  E. Kondorosi,et al.  Lipo-chitooligosaccharide Nodulation Signals from Rhizobium meliloti Induce Their Rapid Degradation by the Host Plant Alfalfa , 1995, Plant physiology.

[44]  K. Düring Can lysozymes mediate antibacterial resistance in plants? , 1993, Plant Molecular Biology.

[45]  J. Vasse,et al.  Abortion of infection during the Rhizobium meliloti—alfalfa symbiotic interaction is accompanied by a hypersensitive reaction , 1993 .

[46]  J. Duston Effects of dietary betaine and sodium chloride on seawater adaptation in atlatic salmon parr (Salmo salar L.) , 1993 .

[47]  N. Shaw,et al.  Spatial and temporal accumulation of defense gene transcripts in bean (Phaseolus vulgaris) leaves in relation to bacteria-induced hypersensitive cell death. , 1993, Molecular plant-microbe interactions : MPMI.

[48]  S. Wirth,et al.  A soluble, dye-labelled chitin derivative adapted for the assay of krill chitinase , 1993 .

[49]  S. Wirth,et al.  Micro-plate colourimetric assay for Endo -acting cellulase, xylanase, chitinase, 1,3-β-glucanase and amylase extracted from forest soil horizons , 1992 .

[50]  J. Schwencke Rapid, exponential growth and increased biomass yield of someFrankia strains in buffered and stirred mineral medium (BAP) with phosphatidyl choline , 1991, Plant and Soil.

[51]  D. Shah,et al.  Developmental and Pathogen-Induced Activation of the Arabidopsis Acidic Chitinase Promoter. , 1991, The Plant cell.

[52]  P. Jekel,et al.  The primary structure of hevamine, an enzyme with lysozyme/chitinase activity from Hevea brasiliensis latex. , 1991, European journal of biochemistry.

[53]  L. Staehelin,et al.  Functional Implications of the Subcellular Localization of Ethylene-Induced Chitinase and [beta]-1,3-Glucanase in Bean Leaves. , 1989, The Plant cell.

[54]  N. Benhamou,et al.  Immunocytochemical localization of a wheat germ lysozyme in wheat embryo and coleoptile cells and cytochemical study of its interaction with the cell wall. , 1988, Plant physiology.

[55]  E. Kombrink,et al.  Several "pathogenesis-related" proteins in potato are 1,3-beta-glucanases and chitinases. , 1988, Proceedings of the National Academy of Sciences of the United States of America.

[56]  P. Jollès,et al.  Purification and N-terminal amino-acid sequence of a basic lysozyme from Parthenocissus quinquifolia cultured in vitro , 1987 .

[57]  S. Waffenschmidt,et al.  Assay of reducing sugars in the nanomole range with 2,2'-bicinchoninate. , 1987, Analytical biochemistry.

[58]  U. K. Laemmli,et al.  Cleavage of Structural Proteins during the Assembly of the Head of Bacteriophage T4 , 1970, Nature.

[59]  J. Howard,et al.  Isolation and characterization of fig lysozyme. , 1969, The Journal of biological chemistry.

[60]  J. Howard,et al.  Studies of the physicochemical and enzymatic properties of papaya lysozyme. , 1967, The Journal of biological chemistry.

[61]  I. Ismail,et al.  Cloning, Expression and Antifungal Activity of an Endochitinase Gene Derived from Barley (Hordeum Vulgare) , 2010 .

[62]  T. Taira Structures and Antifungal Activity of Plant Chitinases , 2010 .

[63]  W. Barz,et al.  Purification, characterization and differential hormonal regulation of a β-1,3-glucanase and two chitinases from chickpea (Cicer arietinum L.) , 2004, Planta.

[64]  Anna Kasprzewska Plant chitinases--regulation and function. , 2003, Cellular & molecular biology letters.

[65]  C. Rodrigues-Pousada,et al.  The Lupinus albus class-III chitinase gene, IF3, is constitutively expressed in vegetative organs and developing seeds , 2000, Planta.

[66]  K. Tokuyasu,et al.  N-deacetylation of Sinorhizobium meliloti Nod factors increases their stability in the Medicago sativa rhizosphere and decreases their biological activity. , 2000, Molecular plant-microbe interactions : MPMI.

[67]  P. Jollès,et al.  Chitin and chitinases. , 1999 .

[68]  A. Stintzi,et al.  Substrate specificities of tobacco chitinases. , 1998, The Plant journal : for cell and molecular biology.

[69]  W. Barz,et al.  Purification, characterization and differential hormonal regulation of a beta-1,3-glucanase and two chitinases from chickpea (Cicer arietinum L.). , 1993, Planta.

[70]  A. Stintzi,et al.  cDNA Cloning and Expression Studies of Tobacco Class III Chitinase-Lysozymes , 1993 .

[71]  G. Harman,et al.  Detection and quantification of N-acetyl-beta-D-glucosaminidase, chitobiosidase, and endochitinase in solutions and on gels. , 1993, Analytical biochemistry.

[72]  A. Asselin,et al.  Electrophoretic forms of chitinase activity in Xanthi-nc tobacco, healthy and infected with tobacco mosaic virus , 1989 .

[73]  D. Shugar The measurement of lysozyme activity and the ultra-violet inactivation of lysozyme. , 1952, Biochimica et biophysica acta.