Sequence-specific and phosphorylation-dependent proline isomerization: a potential mitotic regulatory mechanism
about
Characterization of novel elongated Parvulin isoforms that are ubiquitously expressed in human tissues and originate from alternative transcription initiation.Telomeric protein Pin2/TRF1 induces mitotic entry and apoptosis in cells with short telomeres and is down-regulated in human breast tumorsTelomeric protein Pin2/TRF1 as an important ATM target in response to double strand DNA breaksPhosphorylation- and polo-box-dependent binding of Plk1 to Bub1 is required for the kinetochore localization of Plk1Involvement of the telomeric protein Pin2/TRF1 in the regulation of the mitotic spindleThe DNA binding parvulin Par17 is targeted to the mitochondrial matrix by a recently evolved prepeptide uniquely present in HominidaeProyl isomerase Pin1 facilitates ubiquitin-mediated degradation of cyclin-dependent kinase 10 to induce tamoxifen resistance in breast cancer cellsCharacterization and cell cycle regulation of the related human telomeric proteins Pin2 and TRF1 suggest a role in mitosisEssential role for the prolyl isomerase Pin1 in Toll-like receptor signaling and type I interferon-mediated immunityPin1 down-regulates transforming growth factor-beta (TGF-beta) signaling by inducing degradation of Smad proteinsNerve growth factor stimulates interaction of Cayman ataxia protein BNIP-H/Caytaxin with peptidyl-prolyl isomerase Pin1 in differentiating neuronsPin1 and WWP2 regulate GluR2 Q/R site RNA editing by ADAR2 with opposing effectsFKBP12 regulates the localization and processing of amyloid precursor protein in human cell linesNuclear import of Pin1 is mediated by a novel sequence in the PPIase domainWW domains provide a platform for the assembly of multiprotein networksSil phosphorylation in a Pin1 binding domain affects the duration of the spindle checkpointThe acetyltransferase 60 kDa trans-acting regulatory protein of HIV type 1-interacting protein (Tip60) interacts with the translocation E26 transforming-specific leukaemia gene (TEL) and functions as a transcriptional co-repressorThe mitotic peptidyl-prolyl isomerase, Pin1, interacts with Cdc25 and Plx1Regulation of the tyrosine kinase Itk by the peptidyl-prolyl isomerase cyclophilin APin1 is overexpressed in breast cancer and cooperates with Ras signaling in increasing the transcriptional activity of c-Jun towards cyclin D1.Accumulation of rab4GTP in the cytoplasm and association with the peptidyl-prolyl isomerase pin1 during mitosisMicrotubule-targeting drugs induce Bcl-2 phosphorylation and association with Pin1Microtubule-targeting drugs induce bcl-2 phosphorylation and association with Pin1Gene silencing of CENP-E by small interfering RNA in HeLa cells leads to missegregation of chromosomes after a mitotic delayThe essential mitotic peptidyl-prolyl isomerase Pin1 binds and regulates mitosis-specific phosphoproteinsCyclin-dependent kinase 5 activity is required for T cell activation and induction of experimental autoimmune encephalomyelitisSmall family with key contacts: par14 and par17 parvulin proteins, relatives of pin1, now emerge in biomedical researchPin1 in Alzheimer's disease: multiple substrates, one regulatory mechanism?Radial spoke proteins of Chlamydomonas flagellaMultisite phosphorylation of Pin1-associated mitotic phosphoproteins revealed by monoclonal antibodies MPM-2 and CC-3The prolyl isomerase Pin1 in breast development and cancerSubstrate specificity analysis of protein kinase complex Dbf2-Mob1 by peptide library and proteome array screeningProlyl isomerase Pin1 as a molecular switch to determine the fate of phosphoproteinsProlyl isomerase Pin1 in cancerPost-transcriptional control of gene expression by AUF1: mechanisms, physiological targets, and regulation1H NMR study on the binding of Pin1 Trp-Trp domain with phosphothreonine peptidesDeterminants for Dephosphorylation of the RNA Polymerase II C-Terminal Domain by Scp1Structural analysis of the mitotic regulator hPin1 in solution: insights into domain architecture and substrate bindingStructural Basis for High-Affinity Peptide Inhibition of Human Pin1Structure and Dynamics of the First Archaeal Parvulin Reveal a New Functionally Important Loop in Parvulin-type Prolyl Isomerases
P2860
Q21263004-A89C013C-9A1E-47C5-A17E-EA7CED9DDFECQ24291157-1A5EB228-7CAE-4DA1-BCCC-E884397C9855Q24291265-A173B3B2-ECE1-49EC-94C0-07456DE1046BQ24292817-75C34FDF-2BDA-4A0E-81EB-0B637FF6E607Q24293666-E2B31BF5-F7F4-4370-A6E3-97D9D08867FAQ24293963-E39FEDD2-7031-49E3-BB05-C3786D6D15EAQ24299553-F51C7021-2BAA-45A4-B48B-654EC1CAF973Q24311518-3DDD2D25-1076-4C37-9EE5-4E54833FACE1Q24312889-3E7FD131-9F8E-48BC-BC63-EC5924C728B0Q24313316-104801C0-C955-4EF3-A694-FB7FE77B2048Q24313838-796CE288-81E5-42A6-8796-DA21897AA9D8Q24323023-A1EA43A5-834E-4345-AA98-F290823458E4Q24336083-01E2A863-9AA1-48F1-8F5B-1E99FA624540Q24336290-E35D6238-E40A-4C5F-8877-C1F45B221988Q24529906-B0C6B180-156A-4542-A39B-37940A892DCEQ24530007-9F2AAC8B-C7C7-468C-829E-073EBF7D31FFQ24530158-78194479-04A6-4EA5-B8AD-4A8E0539BB8AQ24533164-C6C6F768-FDF2-4A52-B960-D24BE6AFEDB3Q24534698-E655281D-FBDF-4330-AC19-504D5D810520Q24535558-80E30F90-2613-4433-AAAA-9FBB171632FCQ24550107-C707A4AC-63E4-452A-B03F-DF66B42D57C2Q24551023-1DE56EE0-2EA8-41CE-8164-A7F5B6878961Q24551055-DA7408ED-27B4-4794-96B2-074D1977DF6CQ24561583-FB4D3EAB-710D-4192-B103-3CA0C7886F10Q24606249-6F46802B-F11C-4349-AFEF-1E0E1F833A82Q24623805-F4256B88-1348-4488-98ED-95B848991244Q24651965-AD7FC6A2-E00E-41A2-9020-6C90F421C8FDQ24684898-1B5B71CA-00A5-4B67-A67B-D9EA8CBE5EFFQ24685097-2901D24D-D1F5-4A93-B00F-4AAD81E0D63EQ24790978-180B2613-9324-4FD7-95C2-C346F332C186Q24795560-7315D25D-B25D-4355-A569-660B7B7EF614Q24813685-B299052C-B223-45DB-B3A4-FE6BDBE13517Q26825421-372D1CFE-EBFC-482B-847F-7720E3692F7DQ27024695-A0747567-71C5-4535-AA70-505C1E530C6BQ27026089-BE03B118-9DA9-4C84-B50E-513DD8DE7C00Q27631268-80F4F2FC-D6A0-4473-99D1-C513E87A8147Q27640445-FF654528-4C57-4F25-B753-922B7E907642Q27641101-BFF91CF5-7759-4D5A-ABEC-32C083C727EEQ27644848-69A4B18D-12DF-4070-B699-28FA3F815506Q27666214-C36A7035-DCE8-4A58-AD4E-395597E24F9F
P2860
Sequence-specific and phosphorylation-dependent proline isomerization: a potential mitotic regulatory mechanism
description
1997 nî lūn-bûn
@nan
1997 թուականի Դեկտեմբերին հրատարակուած գիտական յօդուած
@hyw
1997 թվականի դեկտեմբերին հրատարակված գիտական հոդված
@hy
1997年の論文
@ja
1997年論文
@yue
1997年論文
@zh-hant
1997年論文
@zh-hk
1997年論文
@zh-mo
1997年論文
@zh-tw
1997年论文
@wuu
name
Sequence-specific and phosphor ...... l mitotic regulatory mechanism
@ast
Sequence-specific and phosphor ...... l mitotic regulatory mechanism
@en
type
label
Sequence-specific and phosphor ...... l mitotic regulatory mechanism
@ast
Sequence-specific and phosphor ...... l mitotic regulatory mechanism
@en
prefLabel
Sequence-specific and phosphor ...... l mitotic regulatory mechanism
@ast
Sequence-specific and phosphor ...... l mitotic regulatory mechanism
@en
P2093
P3181
P1433
P1476
Sequence-specific and phosphor ...... l mitotic regulatory mechanism
@en
P2093
J U Rahfeld
L C Cantley
M W Kirschner
P304
P3181
P356
10.1126/SCIENCE.278.5345.1957
P407
P577
1997-12-01T00:00:00Z