Elucidating essential role of conserved carboxysomal protein CcmN reveals common feature of bacterial microcompartment assembly.
about
A taxonomy of bacterial microcompartment loci constructed by a novel scoring methodEngineering formation of multiple recombinant Eut protein nanocompartments in E. coli.The Structure of CcmP, a Tandem Bacterial Microcompartment Domain Protein from the -Carboxysome, Forms a Subcompartment Within a MicrocompartmentBuilding synthetic cellular organizationThe Structural Basis of Coenzyme A Recycling in a Bacterial OrganelleThe PduQ enzyme is an alcohol dehydrogenase used to recycle NAD+ internally within the Pdu microcompartment of Salmonella entericaProteomic analysis of carbon concentrating chemolithotrophic bacteria Serratia sp. for sequestration of carbon dioxideCyanobacterial-based approaches to improving photosynthesis in plantsExploring bacterial organelle interactomes: a model of the protein-protein interaction network in the Pdu microcompartment.β-Carboxysomal proteins assemble into highly organized structures in Nicotiana chloroplasts.Diverse bacterial microcompartment organellesUsing comparative genomics to uncover new kinds of protein-based metabolic organelles in bacteria.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.Bacterial microcompartment assembly: The key role of encapsulation peptides.The shells of BMC-type microcompartment organelles in bacteria.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 ComponentProduction and Characterization of Synthetic Carboxysome Shells with Incorporated Luminal Proteins.Bacterial microcompartments as metabolic modules for plant synthetic biology.Encapsulation of multiple cargo proteins within recombinant Eut nanocompartments.Interactions between the termini of lumen enzymes and shell proteins mediate enzyme encapsulation into bacterial microcompartments.In Vitro Characterization and Concerted Function of Three Core Enzymes of a Glycyl Radical Enzyme - Associated Bacterial Microcompartment.β-Carboxysome bioinformatics: identification and evolution of new bacterial microcompartment protein gene classes and core locus constraints.Many-molecule encapsulation by an icosahedral shell.Towards engineering carboxysomes into C3 plantsBioinformatic analysis of the distribution of inorganic carbon transporters and prospective targets for bioengineering to increase Ci uptake by cyanobacteria.Bacterial microcompartments: widespread prokaryotic organelles for isolation and optimization of metabolic pathways.Super-resolution microscopy of the ß-carboxysome reveals a homogenous matrix.Engineering the Bacterial Microcompartment Domain for Molecular Scaffolding ApplicationsBuilding Spatial Synthetic Biology with Compartments, Scaffolds, and Communities.Progress and challenges of engineering a biophysical carbon dioxide-concentrating mechanism into higher plants.Direct characterization of the native structure and mechanics of cyanobacterial carboxysomes.The function of the PduJ microcompartment shell protein is determined by the genomic position of its encoding gene.The N Terminus of the PduB Protein Binds the Protein Shell of the Pdu Microcompartment to Its Enzymatic Core.Solution structure of a bacterial microcompartment targeting peptide and its application in the construction of an ethanol bioreactorSpontaneous non-canonical assembly of CcmK hexameric components from β-carboxysome shells of cyanobacteriaHighlights from the Indo-US workshop "Cyanobacteria: molecular networks to biofuels" held at Lonavala, India during December 16-20, 2012.
P2860
Q21092514-C0830FD6-6B1F-4A6D-BD70-BBEBB32881FEQ27321879-3F6CAF3E-47F1-4ACE-B148-A6806C8A403DQ27677289-535A8D59-2926-47E0-9101-C77AA743FF09Q28302982-C79F1706-1D03-40BB-88AA-0C4D0D727778Q28550626-48518EF8-E3D3-4F60-BF4A-C33F82EDB1A7Q28563571-9CECE05E-AB39-40EB-AA60-7EC288C18418Q28657907-1D0F3275-4AE2-4A27-8AA0-31F8714C3034Q29038581-C393C645-BB5F-4AEB-B50C-A8AC9A882471Q30153236-DCD5E7B7-17C4-4419-A31F-A54E60877458Q33842058-118E7F9B-93A6-4A27-B74E-2E88079528D5Q34041895-DCD4116B-874E-4560-AABB-044C0784EA13Q34314123-1AE5F006-9810-4BE0-989F-3FC8AEA57EE5Q34368749-60FD5C48-B64C-4192-8464-E35BE78C0DB5Q34396080-628D8903-87DE-4169-A4DD-B7CFEEF88BD1Q34401543-A320ACF4-F055-4019-AD70-57BA14E44778Q34498470-77A97921-FC2A-44BC-932D-3ED9B96F8B8DQ34900105-BB318247-3920-41F3-9370-FA8A1FC66B9CQ35759783-CC99A63A-1A5A-4EFA-8D80-13F833FC741EQ35788985-B40C2895-06EE-453E-BBC0-53A5FCE9C0A4Q35844357-99B35839-C846-4F9C-AECF-08D5A8958889Q35899582-746DC58F-3351-4F51-8CC6-B438D161CC07Q35962783-1D0CBA94-7614-40B8-8541-4C8E7E9F3954Q36083861-BF5B640A-FC8E-4F68-8DF4-861950E3F7FAQ36236300-102DBD65-A7F2-4862-A58D-8CB955AB7327Q36281923-D8EAC606-96D0-4A69-BFA5-17038A812EBFQ36349913-5B2545C1-83EF-4DDD-94F3-9A47F3F0171FQ37099994-4DD975F6-9B92-4D28-9E51-222B84E6A421Q37146791-96F6A492-984F-4EB4-B6A7-8F8F1AD946F1Q38268378-44B366D1-9208-4800-A79B-43055A2E4A82Q38543214-318CED1C-74F4-4960-BBD8-6842CB8B90F1Q38631628-E50E2570-3025-4536-88AB-F564B3FA2839Q38639801-3DD47A04-FC20-4DB9-B42A-3E3987B3FE96Q38857508-65B0E376-23A6-4317-9FE9-BACEF37CDDF3Q39263569-68A55ED7-A813-4621-9DC5-C8BB4BEC521CQ40159242-781E6893-4FCB-481E-82AF-98ED2737B7CBQ40967399-D0BD1D2C-C859-43FC-9C8B-623D151B9FD9Q41674641-F868CCB5-6BF7-4719-98AC-6639D293E30AQ42133437-3FA3B88C-AF80-4530-AB9C-D0F0EDCCC622Q42241990-85AF26BD-DFA9-49A5-8F62-490425BCDFE6Q46043678-CC259AC5-788E-44EB-8562-FF6FB2AD9D00
P2860
Elucidating essential role of conserved carboxysomal protein CcmN reveals common feature of bacterial microcompartment assembly.
description
2012 nî lūn-bûn
@nan
2012 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մարտին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Elucidating essential role of ...... ial microcompartment assembly.
@ast
Elucidating essential role of ...... ial microcompartment assembly.
@en
Elucidating essential role of ...... ial microcompartment assembly.
@nl
type
label
Elucidating essential role of ...... ial microcompartment assembly.
@ast
Elucidating essential role of ...... ial microcompartment assembly.
@en
Elucidating essential role of ...... ial microcompartment assembly.
@nl
prefLabel
Elucidating essential role of ...... ial microcompartment assembly.
@ast
Elucidating essential role of ...... ial microcompartment assembly.
@en
Elucidating essential role of ...... ial microcompartment assembly.
@nl
P2093
P2860
P356
P1476
Elucidating essential role of ...... ial microcompartment assembly.
@en
P2093
Annette Salmeen
James N Kinney
P2860
P304
17729-17736
P356
10.1074/JBC.M112.355305
P407
P577
2012-03-29T00:00:00Z