Caulobacter PopZ forms a polar subdomain dictating sequential changes in pole composition and function.
about
Superresolution imaging of targeted proteins in fixed and living cells using photoactivatable organic fluorophoresChromosome architecture is a key element of bacterial cellular organizationMolecular mechanisms for the evolution of bacterial morphologies and growth modesA portable cryo-plunger for on-site intact cryogenic microscopy sample preparation in natural environments.The putative Poc complex controls two distinct Pseudomonas aeruginosa polar motility mechanismsModularity and determinants of a (bi-)polarization control system from free-living and obligate intracellular bacteriaCell cycle coordination and regulation of bacterial chromosome segregation dynamics by polarly localized proteins.Caulobacter chromosome segregation is an ordered multistep processHigh-throughput, subpixel precision analysis of bacterial morphogenesis and intracellular spatio-temporal dynamics.Caulobacter chromosome in vivo configuration matches model predictions for a supercoiled polymer in a cell-like confinement.The bacterial cytoskeleton: more than twisted filaments.Bacterial scaffold directs pole-specific centromere segregationRegulatory response to carbon starvation in Caulobacter crescentus.Polar remodeling and histidine kinase activation, which is essential for Caulobacter cell cycle progression, are dependent on DNA replication initiationA spindle-like apparatus guides bacterial chromosome segregationHigh-resolution 2D and 3D cryo-TEM reveals structural adaptations of two stalk-forming bacteria to an Fe-oxidizing lifestyle.Replication initiator DnaA binds at the Caulobacter centromere and enables chromosome segregation.Non-equilibrium polar localization of proteins in bacterial cellsCoiled-coil protein Scy is a key component of a multiprotein assembly controlling polarized growth in Streptomyces.Quantitative multicolor subdiffraction imaging of bacterial protein ultrastructures in three dimensions.Spatiotemporal control of PopZ localization through cell cycle-coupled multimerization.Intergenerational continuity of cell shape dynamics in Caulobacter crescentus.A novel membrane anchor for FtsZ is linked to cell wall hydrolysis in Caulobacter crescentus.Oligomerization and higher-order assembly contribute to sub-cellular localization of a bacterial scaffold.Dynamic translation regulation in Caulobacter cell cycle control.Caulobacter PopZ forms an intrinsically disordered hub in organizing bacterial cell poles.How do bacteria localize proteins to the cell pole?Functional dichotomy and distinct nanoscale assemblies of a cell cycle-controlled bipolar zinc-finger regulator.Exploring bacterial cell biology with single-molecule tracking and super-resolution imaging.A Localized Complex of Two Protein Oligomers Controls the Orientation of Cell Polarity.Decoding Caulobacter development.Polarity and cell fate asymmetry in Caulobacter crescentus.Nucleotide-independent cytoskeletal scaffolds in bacteria.Establishing polar identity in gram-negative rods.Regulation of cell polarity in bacteria.Absence of the Polar Organizing Protein PopZ Results in Reduced and Asymmetric Cell Division in Agrobacterium tumefaciens.A new view into prokaryotic cell biology from electron cryotomography.Spatiotemporal Models of the Asymmetric Division Cycle of Caulobacter crescentus.An intracellular compass spatially coordinates cell cycle modules in Caulobacter crescentus.Topological control of the Caulobacter cell cycle circuitry by a polarized single-domain PAS protein.
P2860
Q24615749-2B14C82C-7D99-46CF-A672-7F1AAFE4D822Q26830439-642B8DA0-3A97-46A5-8403-617A45C02D29Q27015816-04BF0930-D691-43D3-84FC-7AFBA334C16AQ27334284-9633DFC3-6A61-47AD-9924-EE4A78DD4731Q27347721-0895C10B-1B3A-4AE1-AA27-6A67554EEFDCQ28818660-F987CC7F-288A-48E8-8B05-E2341BBB66B5Q29138526-DD716B4F-5410-4306-B085-B886C76857B0Q30496111-A5911582-0865-4480-8C61-6DF97D695407Q30500169-D5F084D7-3F9F-4FC5-B03B-E37204A5BBC2Q30533999-1F8A075C-2F40-4052-B50B-DFDF6B0D25DEQ30537603-F7E809FD-D51C-42EC-BFF6-C19DA96E5339Q33627231-95AE981E-D58D-40B0-B3DB-893EEBDC3EFCQ33873499-8058311B-6771-407C-B215-B7E1AAE12E6CQ34045611-47E222FC-AF9C-4B32-BBAF-FB688023D8F0Q34127859-5BB7F13A-FE1C-4E57-BC3F-FA57BFCADF04Q34213885-4DED269C-FF61-4F3B-92FE-A62A7DAEF57BQ34526391-780CD2DC-339A-47B6-9E89-49E520C84817Q34735366-71203698-B298-4FBC-8219-F05CA91E2A0DQ36583037-164F3112-86CA-45BF-A51E-86388AC94517Q36690739-1096A5C4-FB96-42BD-9AAC-E12D3285815DQ36917562-118D999C-CB70-4F46-B149-5B7E40D0A993Q36972676-12392EBF-D40F-4A9A-86D3-0D24B068382AQ37072141-4A6C729E-74F4-4864-85B2-077B10BEC5D2Q37383387-0703BE2B-5988-4341-ADFD-D11480ED667FQ37398054-DE1EDBDE-EA15-48C6-900B-A3850C097530Q37398192-CBDBD15C-2BAB-45F3-97D9-BBF3A3302D44Q37418450-03E23839-8982-4BB7-B3A7-888F3BCDDF81Q37530922-5E4D9040-A237-45B7-BD52-134385D9D92EQ37603036-9299926F-E4EF-44B3-A051-86E050AAE2DBQ37695611-81AB3F26-8EA9-4154-9FDF-310504E585A9Q37957160-A7CC321A-89F9-474B-96E2-A0DC198F0243Q38059305-DAE66D8B-FA2C-4F4A-9089-902A1CC6F2C9Q38121514-262D2F75-83B7-42E7-B8BF-7E7FC2BD9D99Q38136847-966C67E4-FB37-48EB-A3EC-DCC18D9200B4Q38227154-250E6D39-6EE8-470F-BFF8-3CB499DEA19BQ38718421-17784DE2-0009-479D-B035-DCC7F72B07EEQ38753457-FBB0989A-86AD-4F9A-989E-77471BB387F7Q38837286-92A3AA17-6A98-46E9-AD28-26202936036DQ38925725-5623518A-DFAF-4AA7-8CEB-A7D8D3D46DB0Q40691905-9D4BEE13-D3EB-40C0-9264-3DC5BC9A3356
P2860
Caulobacter PopZ forms a polar subdomain dictating sequential changes in pole composition and function.
description
2010 nî lūn-bûn
@nan
2010 թուականի Փետրուարին հրատարակուած գիտական յօդուած
@hyw
2010 թվականի փետրվարին հրատարակված գիտական հոդված
@hy
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
name
Caulobacter PopZ forms a polar ...... pole composition and function.
@ast
Caulobacter PopZ forms a polar ...... pole composition and function.
@en
Caulobacter PopZ forms a polar ...... pole composition and function.
@nl
type
label
Caulobacter PopZ forms a polar ...... pole composition and function.
@ast
Caulobacter PopZ forms a polar ...... pole composition and function.
@en
Caulobacter PopZ forms a polar ...... pole composition and function.
@nl
prefLabel
Caulobacter PopZ forms a polar ...... pole composition and function.
@ast
Caulobacter PopZ forms a polar ...... pole composition and function.
@en
Caulobacter PopZ forms a polar ...... pole composition and function.
@nl
P2093
P2860
P1476
Caulobacter PopZ forms a polar ...... pole composition and function.
@en
P2093
Grant R Bowman
Guido M Gaietta
Julie H Lee
Kenneth H Downing
Luis R Comolli
Mark H Ellisman
Michael Fero
Sun-Hae Hong
Ying Jones
P2860
P304
P356
10.1111/J.1365-2958.2010.07088.X
P407
P577
2010-02-10T00:00:00Z