p53-Dependent subcellular proteome localization following DNA damage
about
The nucleolus under stressPerturbations at the ribosomal genes loci are at the centre of cellular dysfunction and human diseaseNsi1 plays a significant role in the silencing of ribosomal DNA in Saccharomyces cerevisiaeBioanalysis of eukaryotic organellesEffect of ionizing radiation in sensory ganglion neurons: organization and dynamics of nuclear compartments of DNA damage/repair and their relationship with transcription and cell cycleThe role of Lamin A in cytoskeleton organization in colorectal cancer cells: a proteomic investigation.Quantitative nucleolar proteomics reveals nuclear re-organization during stress- induced senescence in mouse fibroblast.Nucleolar protein trafficking in response to HIV-1 Tat: rewiring the nucleolusDysregulation of RNA polymerase I transcription during disease.Importin 7 and exportin 1 link c-Myc and p53 to regulation of ribosomal biogenesisA quantitative spatial proteomics analysis of proteome turnover in human cells.Insulin/IGF1-PI3K-dependent nucleolar localization of a glycolytic enzyme--phosphoglycerate mutase 2, is necessary for proper structure of nucleolus and RNA synthesisCytotopic localization by long noncoding RNAs.Proteomics methods for subcellular proteome analysis.p53 and ribosome biogenesis stress: the essentials.Proteomics reveals the importance of the dynamic redistribution of the subcellular location of proteins in breast cancer cells.SIRT7-dependent deacetylation of CDK9 activates RNA polymerase II transcriptionThe seven faces of SIRT7.Systematic analysis of protein pools, isoforms, and modifications affecting turnover and subcellular localization.The role of tumor protein 53 mutations in common human cancers and targeting the murine double minute 2-p53 interaction for cancer therapy.Label-free protein quantification for plant Golgi protein localization and abundance.RECQ1 expression is upregulated in response to DNA damage and in a p53-dependent manner.Involvement of RPL11 in the enhancement of P53 stability by a podophyllum derivative, a topoisomerase II inhibitor.
P2860
Q24597470-44D62735-78F8-442D-9659-D291C7014C1FQ27005780-00B8DF1E-2A97-490F-A033-45D20193950EQ27929501-8300E172-2C5E-4DB3-BE20-E2F40F22D308Q28384122-F188955E-5511-4A0A-A021-E3E5347F2FEBQ28569081-A3097DC1-51DB-4F96-A895-2B784036C228Q30512872-FD6328EE-7698-44FD-8B4D-4CD2C5B67EF9Q33991030-A886373F-4124-4E30-87AA-9C9933C54256Q34481984-D3B43806-74F4-4B92-8E27-97649C3DB0CAQ34645436-2F9A3FB6-1484-4347-A601-EC436171EE30Q35724796-E6F2F4E4-673A-4948-9D06-DF474B812E96Q35863277-6B343788-FBEC-4FD2-AB88-EE6145987242Q36232013-B17C1FEC-F80C-4D7E-BAD2-903FD3119BD5Q38070936-8CB67DB8-FF31-43FF-B587-A93790A6C245Q38137377-E8F6A906-74FD-49BC-8E94-F0F921066301Q38205676-BE5999CC-154A-4675-8940-786F59B3A8BCQ38319396-905E626B-7097-4334-AE2C-79D49F7F9517Q38706788-63C5DCA1-E836-415E-9D90-D729460052A3Q39076651-48BF1AB3-1831-42CD-888B-367580FFCC3CQ41899128-8A0C8643-767F-44D1-B452-44F9AF6394E5Q41963862-FAD6FDDF-371B-4F7E-ADEB-A6257D16297BQ42677189-64F1DCF0-6238-4789-B3A2-BA34AAF8AE6BQ43089122-D869F8C5-14D4-4132-8CC5-FD6828E63EFBQ47742463-BE1D4934-3E63-45A1-8A18-238B54DCFC0C
P2860
p53-Dependent subcellular proteome localization following DNA damage
description
2010 nî lūn-bûn
@nan
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
2010年论文
@zh
2010年论文
@zh-cn
name
p53-Dependent subcellular proteome localization following DNA damage
@ast
p53-Dependent subcellular proteome localization following DNA damage
@en
type
label
p53-Dependent subcellular proteome localization following DNA damage
@ast
p53-Dependent subcellular proteome localization following DNA damage
@en
prefLabel
p53-Dependent subcellular proteome localization following DNA damage
@ast
p53-Dependent subcellular proteome localization following DNA damage
@en
P2860
P356
P1433
P1476
p53-Dependent subcellular proteome localization following DNA damage
@en
P2093
François-Michel Boisvert
P2860
P304
P356
10.1002/PMIC.201000213
P577
2010-11-02T00:00:00Z