BcsA and BcsB form the catalytically active core of bacterial cellulose synthase sufficient for in vitro cellulose synthesis.
about
The Emerging Role of Protein Phosphorylation as a Critical Regulatory Mechanism Controlling Cellulose BiosynthesisCharacterization of Cellulose Synthesis in Plant CellsEstablishing a Role for Bacterial Cellulose in Environmental Interactions: Lessons Learned from Diverse Biofilm-Producing Proteobacteria.Insights into the structure and function of membrane-integrated processive glycosyltransferases.Mechanism of activation of bacterial cellulose synthase by cyclic di-GMP.Modification and periplasmic translocation of the biofilm exopolysaccharide poly- -1,6-N-acetyl-D-glucosamineA molecular description of cellulose biosynthesis.Ultrastructure and composition of the Nannochloropsis gaditana cell wallA single heterologously expressed plant cellulose synthase isoform is sufficient for cellulose microfibril formation in vitro.Simulations of cellulose translocation in the bacterial cellulose synthase suggest a regulatory mechanism for the dimeric structure of cellulose.Observing cellulose biosynthesis and membrane translocation in crystalloStructure of the Cellulose Synthase Complex of Gluconacetobacter hansenii at 23.4 Å Resolution.A complementation assay for in vivo protein structure/function analysis in Physcomitrella patens (Funariaceae)Bacterial cellulose synthesis mechanism of facultative anaerobe Enterobacter sp. FY-07.Determining the subcellular location of synthesis and assembly of the cell wall polysaccharide (1,3; 1,4)-β-D-glucan in grasses.The disulfide bonding system suppresses CsgD-independent cellulose production in Escherichia coli.Biofilm formation by enteric pathogens and its role in plant colonization and persistence.Re-constructing our models of cellulose and primary cell wall assemblySalmonella promotes virulence by repressing cellulose productionBacterial cellulose biosynthesis: diversity of operons, subunits, products, and functions.Flocculation of Escherichia coli Cells in Association with Enhanced Production of Outer Membrane Vesicles.Characterization of the Pseudomonas aeruginosa Glycoside Hydrolase PslG Reveals That Its Levels Are Critical for Psl Polysaccharide Biosynthesis and Biofilm FormationThe Biology of the Escherichia coli Extracellular MatrixAdherent-Invasive Escherichia coli Production of Cellulose Influences Iron-Induced Bacterial Aggregation, Phagocytosis, and Induction of Colitis.A signaling pathway involving the diguanylate cyclase CelR and the response regulator DivK controls cellulose synthesis in Agrobacterium tumefaciens.Regulation of biofilm formation in Salmonella enterica serovar Typhimurium.The expanding roles of c-di-GMP in the biosynthesis of exopolysaccharides and secondary metabolites.Giving structure to the biofilm matrix: an overview of individual strategies and emerging common themes.The Phytohormone Ethylene Enhances Cellulose Production, Regulates CRP/FNRKx Transcription and Causes Differential Gene Expression within the Bacterial Cellulose Synthesis Operon of Komagataeibacter (Gluconacetobacter) xylinus ATCC 53582.Oxygen-Free Condition Inhibited Biofilm Formation in Extraintestinal Pathogenic Escherichia coli Strain PPECC42 Through Preventing Curli Production.A dual mechanism of cellulose deficiency in shv3svl1.Crystal structure of the flexible tandem repeat domain of bacterial cellulose synthesis subunit C.A Structural Study of CESA1 Catalytic Domain of Arabidopsis Cellulose Synthesis Complex: Evidence for CESA Trimers.Synthesis and Self-Assembly of Cellulose Microfibrils from Reconstituted Cellulose Synthase.Insights into the structure and assembly of a bacterial cellulose secretion system.Recombinant biosynthesis of bacterial cellulose in genetically modified Escherichia coli.Enhancement of crystallinity of cellulose produced by Escherichia coli through heterologous expression of bcsD gene from Gluconacetobacter xylinus.Synthetic biology strategies for improving microbial synthesis of "green" biopolymers.Thiol Starvation induces redox-mediated dysregulation of Escherichia coli biofilm components.The cell biology of secondary cell wall biosynthesis.
P2860
Q26744075-DB89BCFB-370D-43F5-81B1-D97E28DAA3BDQ26744524-7A032575-1C06-43C1-AF9D-29F36D738418Q26774707-55C82FC9-2957-42F1-83FB-D85E3CBCAB8DQ26784025-A71FEB29-9929-4A9A-BF79-2110013E698CQ27682969-750908B9-8258-4CA2-9B11-8EFE6A81BD98Q27684551-BDA575D9-5C57-42E6-AEF3-AEF4ECD37CBEQ28084652-6D5402C3-0BAA-435A-BB6F-7D83DB7393D4Q28650913-AB2C2842-DE51-491E-B310-E828EB0E694CQ30275889-75E95560-AB76-4D08-B13C-363A3AE7E404Q30276867-7C526BEF-361A-41E8-BA1A-1DCA2D8F4C0BQ30277181-812E7916-74CA-4254-83BD-49AD97626980Q30358357-2A33A813-399E-4FDD-87CF-4005F6D760C2Q30376911-AB28F13C-D8EA-4195-8E7C-E8FEB20A4C13Q30389412-59754F35-2464-4C65-9F3B-5E95BFF321BAQ33360306-86C3DA98-B67B-4113-B4B8-D6F02E154A66Q34593232-E70A512C-7AF7-4FAA-9082-636850E91DFAQ34692098-33E9852B-2C55-44E1-A90E-A64FEF0CDEB6Q34943883-EA2DBD9A-2737-4B9B-BF23-956037E3E9A7Q35549229-BB9FCF69-C89A-4C15-828E-019A749522BDQ35664614-4E7915FF-29A5-4C76-ADFF-442E041F7C84Q35669273-D69A5AAB-CB65-4902-9534-5C364D9BB3B8Q35794624-1A51074C-AB87-4622-B315-5263AB587F2DQ35865857-02DF7E8E-DF56-4483-9399-803FD422AD02Q36053474-1199346E-3EBB-415E-A285-D89F0F4059A3Q37643430-DE57532A-2649-43DD-9800-671DC0B18835Q38273227-EE6ACDCB-F25D-4454-9F9A-BDC8FF86C7A3Q38349818-27E029DF-5E66-4A90-BE83-A8DEF28B4F04Q38439183-C959B6C9-E297-4B98-B037-C6E32A035E74Q40142095-25B7B4D5-2D01-4226-8156-8125E7674D40Q40707568-A84410E3-2DF5-4295-96FB-850D1B510F95Q42130618-21D5E467-14FC-42AC-A60E-63EE41610BD0Q42375974-8DAEE726-2258-4CB9-8A85-F69A8FB0B4BEQ44860763-2D77FB74-1B3B-4BF7-8369-A69818F44D74Q45064629-4C305B2E-8C7E-4694-B542-D460A91AB9E6Q47108067-B02FF9C9-D5A1-46EC-82E4-596E5E5A501DQ47312192-BEC86681-9638-4CF0-AD7F-95E3EA4E200CQ48338614-EE1E1352-F790-41A9-8E34-15B0EBAF6590Q50019917-F0E16501-99C7-499D-B9A6-10EB1BDE8A05Q50077277-DCED8814-5C29-49D9-B79C-8289BA0D57F4Q50132777-E87697AC-F818-4C03-9A80-3D916812BAB5
P2860
BcsA and BcsB form the catalytically active core of bacterial cellulose synthase sufficient for in vitro cellulose synthesis.
description
2013 nî lūn-bûn
@nan
2013 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2013 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2013年の論文
@ja
2013年論文
@yue
2013年論文
@zh-hant
2013年論文
@zh-hk
2013年論文
@zh-mo
2013年論文
@zh-tw
2013年论文
@wuu
name
BcsA and BcsB form the catalyt ...... in vitro cellulose synthesis.
@ast
BcsA and BcsB form the catalyt ...... in vitro cellulose synthesis.
@en
type
label
BcsA and BcsB form the catalyt ...... in vitro cellulose synthesis.
@ast
BcsA and BcsB form the catalyt ...... in vitro cellulose synthesis.
@en
prefLabel
BcsA and BcsB form the catalyt ...... in vitro cellulose synthesis.
@ast
BcsA and BcsB form the catalyt ...... in vitro cellulose synthesis.
@en
P2093
P2860
P50
P356
P1476
BcsA and BcsB form the catalyt ...... r in vitro cellulose synthesis
@en
P2093
Adishesh Narahari
Okako Omadjela
Olga Mazur
Vincent Bulone
P2860
P304
17856-17861
P356
10.1073/PNAS.1314063110
P407
P577
2013-10-14T00:00:00Z