The pentameric vertex proteins are necessary for the icosahedral carboxysome shell to function as a CO2 leakage barrier
about
A taxonomy of bacterial microcompartment loci constructed by a novel scoring methodEngineering formation of multiple recombinant Eut protein nanocompartments in E. coli.Crystallographic Insights into the Pore Structures and Mechanisms of the EutL and EutM Shell Proteins of the Ethanolamine-Utilizing Microcompartment of Escherichia coliBacterial microcompartment shells of diverse functional types possess pentameric vertex proteinsStructure and Identification of a Pterin Dehydratase-like Protein as a Ribulose-bisphosphate Carboxylase/Oxygenase (RuBisCO) Assembly Factor in the α-CarboxysomeTwo new high-resolution crystal structures of carboxysome pentamer proteins reveal high structural conservation of CcmL orthologs among distantly related cyanobacterial speciesInteractions and structural variability of β-carboxysomal shell protein CcmLOver-expression of the β-carboxysomal CcmM protein in Synechococcus PCC7942 reveals a tight co-regulation of carboxysomal carbonic anhydrase (CcaA) and M58 contentComparative analysis of carboxysome shell proteins.β-Carboxysomal proteins assemble into highly organized structures in Nicotiana chloroplasts.Diverse bacterial microcompartment organellesSelf-assembling, protein-based intracellular bacterial organelles: emerging vehicles for encapsulating, targeting and delivering therapeutical cargoes.Bacterial microcompartment organelles: protein shell structure and evolution.The protein shells of bacterial microcompartment organelles.Elucidating essential role of conserved carboxysomal protein CcmN reveals common feature of bacterial microcompartment assembly.Functions, compositions, and evolution of the two types of carboxysomes: polyhedral microcompartments that facilitate CO2 fixation in cyanobacteria and some proteobacteria.Structural determinants of the outer shell of β-carboxysomes in Synechococcus elongatus PCC 7942: roles for CcmK2, K3-K4, CcmO, and CcmL.Characterization of a planctomycetal organelle: a novel bacterial microcompartment for the aerobic degradation of plant saccharides.Genetic analysis of the protein shell of the microcompartments involved in coenzyme B12-dependent 1,2-propanediol degradation by Salmonella.The shells of BMC-type microcompartment organelles in bacteria.Isolation and characterization of the Prochlorococcus carboxysome reveal the presence of the novel shell protein CsoS1D.Streamlined Construction of the Cyanobacterial CO2-Fixing Organelle via Protein Domain Fusions for Use in Plant Synthetic Biology.Bioinformatic characterization of glycyl radical enzyme-associated bacterial microcompartments.Advances in Understanding Carboxysome Assembly in Prochlorococcus and Synechococcus Implicate CsoS2 as a Critical ComponentBacterial microcompartments as metabolic modules for plant synthetic biology.Effect of bio-engineering on size, shape, composition and rigidity of bacterial microcompartments.Structural Characterization of a Newly Identified Component of α-Carboxysomes: The AAA+ Domain Protein CsoCbbQ.Crystal structures of β-carboxysome shell protein CcmP: ligand binding correlates with the closed or open central pore.Carboxysomes: cyanobacterial RubisCO comes in small packages.Progress and challenges of engineering a biophysical carbon dioxide-concentrating mechanism into higher plants.A PII-Like Protein Regulated by Bicarbonate: Structural and Biochemical Studies of the Carboxysome-Associated CPII Protein.Interrelated modules in cyanobacterial photosynthesis: the carbon-concentrating mechanism, photorespiration, and light perception.A bioarchitectonic approach to the modular engineering of metabolism.Can the cyanobacterial carbon-concentrating mechanism increase photosynthesis in crop species? A theoretical analysis.Carboxysomes: metabolic modules for CO2 fixation.Bacterial microcompartments.Engineering and Modulating Functional Cyanobacterial CO2-Fixing Organelles.Carboxysome encapsulation of the CO-fixing enzyme Rubisco in tobacco chloroplasts
P2860
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P2860
The pentameric vertex proteins are necessary for the icosahedral carboxysome shell to function as a CO2 leakage barrier
description
2009 nî lūn-bûn
@nan
2009 թուականի Հոկտեմբերին հրատարակուած գիտական յօդուած
@hyw
2009 թվականի հոտեմբերին հրատարակված գիտական հոդված
@hy
2009年の論文
@ja
2009年論文
@yue
2009年論文
@zh-hant
2009年論文
@zh-hk
2009年論文
@zh-mo
2009年論文
@zh-tw
2009年论文
@wuu
name
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@ast
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@en
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@nl
type
label
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@ast
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@en
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@nl
prefLabel
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@ast
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@en
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@nl
P2093
P2860
P3181
P1433
P1476
The pentameric vertex proteins ...... ction as a CO2 leakage barrier
@en
P2093
Balaraj B Menon
Gordon C Cannon
Jessup M Shively
Kenneth J Curry
Sabine Heinhorst
P2860
P3181
P356
10.1371/JOURNAL.PONE.0007521
P407
P577
2009-10-21T00:00:00Z