Model of the ran-RCC1 interaction using biochemical and docking experiments
about
DelGEF, an RCC1-related protein encoded by a gene on chromosome 11p14 critical for two forms of hereditary deafnessThe Ras protein superfamily: evolutionary tree and role of conserved amino acidsNuclear import of the ran exchange factor, RCC1, is mediated by at least two distinct mechanismsNercc1, a mammalian NIMA-family kinase, binds the Ran GTPase and regulates mitotic progressionFYVE zinc-finger proteins in the plant model Arabidopsis thaliana: identification of PtdIns3P-binding residues by comparison of classic and variant FYVE domainsTransport into and out of the nucleus.Disruption of the ran system by cysteine oxidation of the nucleotide exchange factor RCC1Identification of a conserved loop in Mog1 that releases GTP from Ran.The methylated N-terminal tail of RCC1 is required for stabilisation of its interaction with chromatin by Ran in live cells.Data-driven docking for the study of biomolecular complexes.Upstream and downstream of ran GTPase.Purification, cloning, and characterization of Nek8, a novel NIMA-related kinase, and its candidate substrate Bicd2.A UV-B-specific signaling component orchestrates plant UV protection13q deletion in chronic lymphocytic leukemia: characterization of E4.5, a novel chromosome condensation regulator-like guanine nucleotide exchange factor.A streamlined process to phenotypically profile heterologous cDNAs in parallel using yeast cell-based assaysFunctional analysis of key nuclear trafficking components reveals an atypical Ran network required for parasite pathogenesis.The ins and outs of nuclear trafficking: unusual aspects in apicomplexan parasitesCaffeine mimics adenine and 2'-deoxyadenosine, both of which inhibit the guanine-nucleotide exchange activity of RCC1 and the kinase activity of ATR.Atomic resolution structures in nuclear transportRCC1 regulates inner centromeric composition in a Ran-independent fashion.On the use of distance constraints in protein-protein docking computations.The importance of P-loop and domain movements in EF-Tu for guanine nucleotide exchange.
P2860
Q22010834-2800CB17-0244-4CF8-8013-65CB676363ECQ24603374-019C88D3-C730-4B72-8271-59A3D41C5A6AQ24670107-FBEA96DD-1358-4CEF-A2D3-917CDB04F3E1Q24674151-57AA288A-9C33-48B7-AE9D-75DD9E39BD51Q28355564-BE8345A9-275D-468C-9660-9A3DB0E0E1A7Q29615611-346B0D9E-FC73-4179-9EFD-127536DB5CC6Q30301217-A66B70B0-6848-418A-9FAF-AC3A0F260723Q30308338-B255FB16-86BA-4D5F-A6BE-198C9696AE55Q30435553-DA9F8BB6-2BC4-47F6-B813-6EB1BC117E9BQ30980755-CD86878B-AD53-4361-A3E0-73CACE0086E1Q33999580-D2E81F78-F690-4328-AEA1-C7A820D782C3Q34115894-34919D61-1611-4482-8546-541FECC35B0DQ34212754-30958F52-4D35-4986-BEB1-59B40F006D4AQ34270788-B1795A77-3EDA-4C37-9C4C-DBA28BF33226Q35036050-6A598D31-955C-4C2E-BF3B-F38D1595EB47Q36958745-F4EA1B7D-C08C-40A5-932C-B06BF7385B31Q37434581-FFC1AE8B-586A-49CF-AC66-75A3E3FCF175Q40655598-68677D37-D7AE-4632-A5D5-5442F647DCD7Q42426051-1F2949E2-F12D-4C6E-B972-4CA67E734A85Q49717315-C7E7BE95-6903-4E5B-81E4-A116B76AED2EQ51508072-A1F3042A-59E0-44D9-ACD3-03C9584296D3Q54464842-124DE84A-FD08-45E6-A2F3-313468988DE5
P2860
Model of the ran-RCC1 interaction using biochemical and docking experiments
description
1999 nî lūn-bûn
@nan
1999 թուականի Յունիսին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի հունիսին հրատարակված գիտական հոդված
@hy
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
name
Model of the ran-RCC1 interaction using biochemical and docking experiments
@ast
Model of the ran-RCC1 interaction using biochemical and docking experiments
@en
Model of the ran-RCC1 interaction using biochemical and docking experiments
@nl
type
label
Model of the ran-RCC1 interaction using biochemical and docking experiments
@ast
Model of the ran-RCC1 interaction using biochemical and docking experiments
@en
Model of the ran-RCC1 interaction using biochemical and docking experiments
@nl
prefLabel
Model of the ran-RCC1 interaction using biochemical and docking experiments
@ast
Model of the ran-RCC1 interaction using biochemical and docking experiments
@en
Model of the ran-RCC1 interaction using biochemical and docking experiments
@nl
P2093
P356
P1476
Model of the ran-RCC1 interaction using biochemical and docking experiments
@en
P2093
A Valencia
A Wittinghofer
J A García-Ranea
T Nishimoto
P304
P356
10.1006/JMBI.1999.2820
P407
P577
1999-06-18T00:00:00Z