Mitotic chromosomes are compacted laterally by KIF4 and condensin and axially by topoisomerase IIα - Wikidata - awgldk - TriplyDB

Mitotic chromosomes are compacted laterally by KIF4 and condensin and axially by topoisomerase IIα

Mitotic chromosomes are compacted laterally by KIF4 and condensin and axially by topoisomerase IIα

http://www.wikidata.org/entity/Q42195700

about

Novel insights into mitotic chromosome condensation Making Sense of the Tangle: Insights into Chromatin Folding and Gene Regulation Two ways to fold the genome during the cell cycle: insights obtained with chromosome conformation capture Ki-67 is a PP1-interacting protein that organises the mitotic chromosome periphery.Condensin I associates with structural and gene regulatory regions in vertebrate chromosomes.Organization of the mitotic chromosome.The analysis of mutant alleles of different strength reveals multiple functions of topoisomerase 2 in regulation of Drosophila chromosome structure.The NuRD nucleosome remodelling complex and NHK-1 kinase are required for chromosome condensation in oocytes.Kinesin family member 4A: a potential predictor for progression of human oral cancer Disruption of a conserved CAP-D3 threonine alters condensin loading on mitotic chromosomes leading to chromosome hypercondensation Mitosis, microtubule dynamics and the evolution of kinesins.Chromosome Scaffold is a Double-Stranded Assembly of Scaffold Proteins Kif4 Is Essential for Mouse Oocyte Meiosis Whole-proteome genetic analysis of dependencies in assembly of a vertebrate kinetochore.Conditional mutation of Smc5 in mouse embryonic stem cells perturbs condensin localization and mitotic progression Nucleolus-like body of mouse oocytes contains lamin A and B and TRF2 but not actin and topo II.Aurora B suppresses microtubule dynamics and limits central spindle size by locally activating KIF4A Proteomics Analysis with a Nano Random Forest Approach Reveals Novel Functional Interactions Regulated by SMC Complexes on Mitotic Chromosomes.Dynamic localization of SMC5/6 complex proteins during mammalian meiosis and mitosis suggests functions in distinct chromosome processes Calcium ions function as a booster of chromosome condensation.Proteomics of a fuzzy organelle: interphase chromatin.Condensin: crafting the chromosome landscape.The molecular basis for kinesin functional specificity during mitosis.Chromosome Dynamics during Mitosis.Shaping mitotic chromosomes: From classical concepts to molecular mechanisms.The α isoform of topoisomerase II is required for hypercompaction of mitotic chromosomes in human cells.Perichromosomal protein Ki67 supports mitotic chromosome architecture.PICH promotes mitotic chromosome segregation: Identification of a novel role in rDNA disjunction.Condensin, master organizer of the genome.Dependence of the structure and mechanics of metaphase chromosomes on oxidized cysteines.Auxin/AID versus conventional knockouts: distinguishing the roles of CENP-T/W in mitotic kinetochore assembly and stability.SAF-A Regulates Interphase Chromosome Structure through Oligomerization with Chromatin-Associated RNAs.Genome organization during the cell cycle: unity in division.Interdependency and phosphorylation of KIF4 and condensin I are essential for organization of chromosome scaffold.Condensin I-mediated mitotic chromosome assembly requires association with chromokinesin KIF4A Condensin Relocalization from Centromeres to Chromosome Arms Promotes Top2 Recruitment during Anaphase.The energy components of stacked chromatin layers explain the morphology, dimensions and mechanical properties of metaphase chromosomes.AMPK regulates anaphase central spindle length by phosphorylation of KIF4A.Mitotic post-translational modifications of histones promote chromatin compaction in vitro.Metaphase chromosome structure is dynamically maintained by condensin I-directed DNA (de)catenation.

P2860

Q26742038-56A277EF-41A0-4A49-8B68-2CE0DF2B6085 Q28075462-82FB741C-D5EE-4D0A-B101-EFC22A241513 Q29300664-0A9AA158-E5FF-44FE-93CC-A0FD461037CB Q33654272-30681A9E-BD32-4223-AE0A-7288CEE96A4C Q33686879-F760F116-56FC-46DE-AF0F-BBD400420D9E Q33693950-8CAD8FCD-2EBD-4E76-8449-80960503A164 Q34394858-9B73776A-DC6D-432F-B549-195C803C86EA Q35029179-22AFCCFE-7604-431F-862E-D8280BC82BF7 Q35081235-AF08B768-0A7C-4667-837C-886F47E76744 Q35172920-41069953-4983-4B5E-9A23-C658113A5414 Q35613056-A1E9A878-1B27-4AA8-9F90-2CB78FB2B28A Q35804212-AB41AF22-EAB2-4AAD-BDA0-DCE1D13B9ED7 Q36261155-51F3CE72-C2CF-4837-B127-6083ACE59E8B Q36395127-8605D676-1AE7-47F2-A291-44F0CB22D15A Q36856933-394EEA75-FD9D-42B8-9F95-4C2E755A40AE Q37038011-62F5E4BF-0A90-4242-A6A9-0C0C91305D84 Q37104871-291BD593-D31D-44D7-BE0C-540FFD92AF20 Q37153489-C25D0FF8-AD97-4566-B2DD-D1BFF799A479 Q37168896-886980C9-A603-41E8-AB85-B5FC4FA7CB75 Q37464808-4DC10160-16A7-433D-9870-CB3DD57D5D43 Q37697953-04824C1E-3F84-4A78-A026-CE503F41B915 Q38094939-7AB53FA4-9C35-48A0-91A4-B622A6AFC84F Q38137982-941AAFEB-5926-46A9-AF57-3716CF980035 Q38365781-46AE84B2-9731-46A1-880F-BBC3A20541D3 Q38490905-A7A69940-3232-4F1A-8249-AE720EEE9911 Q38735740-377793EE-F52E-471D-8566-4DB15F6BB772 Q38747450-ADC60B9B-54E6-4424-84EF-0C9F7A18B927 Q38749912-EAC1A91B-A55F-4439-8BBD-31BECEC1E26E Q38759535-7FCC834D-7BA6-4F42-8F2A-5656F1119682 Q38773202-DB76DC19-E8D0-4910-AE0F-1D12531D48B2 Q38801298-BF9BE215-D394-4B2B-AF6B-47199FC31ABC Q39190884-61CFE870-FD3A-4A79-B8A1-0B79D6293CA2 Q39311049-B74E7E70-DA64-47A8-9CA8-D1C4E646CE60 Q41443533-C0C8BA42-8312-4AC3-8FF4-7809E5253464 Q41474536-7A801751-14CE-43A9-8D8A-C4CF1FA966C1 Q41523250-B6535D2C-6D3D-4BFD-AED1-512AA5CB39F6 Q41864627-6D39F4B0-5AC1-4AF8-A44C-D3AB3FDACB84 Q41921520-24E51D0A-6C22-4F70-84F6-9398D7A30E9F Q42100296-117378AD-8FE3-4181-9FD6-DEEAB062E19F Q42234809-8B0F569C-BBEB-4C1B-9D18-53D402FF0381

P2860

Mitotic chromosomes are compacted laterally by KIF4 and condensin and axially by topoisomerase IIα

http://www.wikidata.org/entity/Q42195700

description

2012 nî lūn-bûn

@nan

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

2012年论文

@zh

2012年论文

@zh-cn

name

Mitotic chromosomes are compac ...... d axially by topoisomerase IIα

@en

Mitotic chromosomes are compac ...... d axially by topoisomerase IIα

@nl

type

label

Mitotic chromosomes are compac ...... d axially by topoisomerase IIα

@en

Mitotic chromosomes are compac ...... d axially by topoisomerase IIα

@nl

prefLabel

Mitotic chromosomes are compac ...... d axially by topoisomerase IIα

@en

Mitotic chromosomes are compac ...... d axially by topoisomerase IIα

@nl

P1433

Q42195700-129C4CDF-6125-477B-B117-8736EA30B104

P1476

Q42195700-B55E990B-9EDB-4F06-8AAA-B0A0B712C054

P2093

Q42195700-2516AF74-639F-4E82-952E-E01921A3B9F9

Q42195700-3A2965A0-E864-4E30-97EA-63F311D90980

Q42195700-414485D0-95DD-4227-B993-FCA07FECBDF0

Q42195700-4C0EE7A3-0917-45BA-BD7F-9A917D528E25

Q42195700-60114B89-19D8-423F-BCA5-94A6D054D7AE

Q42195700-604C3DFE-DEEC-4AE9-BACE-54B01AEB04E7

Q42195700-6965F324-E258-4A10-89AB-C2D4E08938E7

Q42195700-798DAEDC-3965-40E5-AA4B-028DAAAB957C

Q42195700-C4F3DD7D-A8D4-4AF4-AF7E-6528F305A7A8

Q42195700-D0F28CC8-67E1-4E59-976B-CE5345A2D01D

P2860

Q42195700-00F31509-6ABF-45AA-8573-D321961BC93A

Q42195700-056131D4-3601-486F-B96C-FD35A629B5B7

Q42195700-08710809-7D61-4ED8-BF25-03EEBC1AC011

Q42195700-10A70D72-0DE6-4FCE-8B0B-A27AC86B8AA6

Q42195700-10B20AF3-7812-413C-9B2D-37BBB6307BA2

Q42195700-15FACD00-37CE-41B4-9099-367D78AD435A

Q42195700-175D6B57-AF8E-4822-9C76-2C60B9C711B9

Q42195700-198B8B71-D94A-4A12-92AE-4121AA7C773D

Q42195700-1C5B2928-6C3C-41F6-809E-5E1CB164AF6A

Q42195700-1D80C750-1EED-46C7-89E3-48D62C19866A

P304

Q42195700-5D427981-381B-40C8-B28E-7E717F8E5138

P31

Q42195700-EE9671A9-FFC9-4583-8AA1-1D563C46EA09

P356

Q42195700-C676229D-68A2-451F-B68F-9D27036AFFD7

P407

Q42195700-DAE6FA9F-4263-46A0-8C26-CD36378AA73E

P433

Q42195700-B77577E3-43C0-41B4-BDF9-AB841F7E1323

P478

Q42195700-94EAC80B-7350-4C44-A793-1ABADDDFE6BD

P50

Q42195700-130BA33F-203C-47C2-B86E-A92F901659C4

Q42195700-5F1C8CFB-ABB7-47D8-BB2E-A2B476B67121

Q42195700-9C160682-5B43-4770-8523-5F7D63A7AC01

P577

Q42195700-7A0F4C60-FE23-489A-8BF6-537A90719448

P5875

Q42195700-2C582A69-667C-4BBC-9C0D-3535F0C2ABCB

P698

Q42195700-74F22F57-6588-4B05-924F-9417BB475C3B

P932

Q42195700-2AE1585F-70BD-4C55-BFC9-376042C907CE

P356

P1433

Journal of Cell Biology

P1476

Mitotic chromosomes are compac ...... d axially by topoisomerase IIα

@en

P2093

Carol A Cooke

http://www.w3.org/2001/XMLSchema#string

Christine J Farr

http://www.w3.org/2001/XMLSchema#string

Damien F Hudson

http://www.w3.org/2001/XMLSchema#string

David A Kelly

http://www.w3.org/2001/XMLSchema#string

Flavia de Lima Alves

http://www.w3.org/2001/XMLSchema#string

Giulia Vargiu

http://www.w3.org/2001/XMLSchema#string

Hiromi Ogawa

http://www.w3.org/2001/XMLSchema#string

Itaru Samejima

http://www.w3.org/2001/XMLSchema#string

Kumiko Samejima

http://www.w3.org/2001/XMLSchema#string

Lydia C Green

http://www.w3.org/2001/XMLSchema#string

P2860

Differential contributions of condensin I and condensin II to mitotic chromosome architecture in vertebrate cells

Construction, characterization, and complementation of a conditional-lethal DNA topoisomerase IIalpha mutant human cell line

A novel microtubule-based motor protein (KIF4) for organelle transports, whose expression is regulated developmentally

CCAN makes multiple contacts with centromeric DNA to provide distinct pathways to the outer kinetochore

Human kinesin superfamily member 4 is dominantly localized in the nuclear matrix and is associated with chromosomes during mitosis

Isolation and characterization of a novel DNA methyltransferase complex linking DNMT3B with components of the mitotic chromosome condensation machinery

Essential roles of KIF4 and its binding partner PRC1 in organized central spindle midzone formation

The protein composition of mitotic chromosomes determined using multiclassifier combinatorial proteomics

How to be a mitotic chromosome

Kinesin family in murine central nervous system

P304

755-770

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1083/JCB.201202155

http://www.w3.org/2001/XMLSchema#string

P407

P433

5

http://www.w3.org/2001/XMLSchema#string

P478

199

http://www.w3.org/2001/XMLSchema#string

P50

William Charles Earnshaw

Juri Rappsilber

P577

2012-11-19T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

233725257

http://www.w3.org/2001/XMLSchema#string

P698

23166350

http://www.w3.org/2001/XMLSchema#string

P932

3514791

http://www.w3.org/2001/XMLSchema#string