The chromatin structure of the long control region of human papillomavirus type 16 represses viral oncoprotein expression.
about
Brd4 links chromatin targeting to HPV transcriptional silencingGenetic editing of HBV DNA by monodomain human APOBEC3 cytidine deaminases and the recombinant nature of APOBEC3G.Papillomavirus interaction with cellular chromatin.Genome-wide siRNA screen identifies SMCX, EP400, and Brd4 as E2-dependent regulators of human papillomavirus oncogene expressionNuclear matrix attachment regions of human papillomavirus type 16 repress or activate the E6 promoter, depending on the physical state of the viral DNA.Mechanisms of human papillomavirus E2-mediated repression of viral oncogene expression and cervical cancer cell growth inhibition.Differentiation-dependent chromatin rearrangement coincides with activation of human papillomavirus type 31 late gene expression.Inverse association between methylation of human papillomavirus type 16 DNA and risk of cervical intraepithelial neoplasia grades 2 or 3Association of human papillomavirus type 16 long control region mutation and cervical cancer.Characterization of the methylation patterns in human papillomavirus type 16 viral DNA in head and neck cancers.Control of the papillomavirus early-to-late switch by differentially expressed SRp20A conserved amphipathic helix in the N-terminal regulatory region of the papillomavirus E1 helicase is required for efficient viral DNA replication.CpG methylation of human papillomavirus type 16 DNA in cervical cancer cell lines and in clinical specimens: genomic hypomethylation correlates with carcinogenic progressionEffects of Methylation Status of CpG Sites within the HPV16 Long Control Region on HPV16-Positive Head and Neck Cancer CellsProductive Lifecycle of Human Papillomaviruses that Depends Upon Squamous Epithelial Differentiation.A novel placental like alkaline phosphatase promoter driven transcriptional silencing combined with single chain variable fragment antibody based virosomal delivery for neoplastic cell targeting [corrected].High-throughput detection of human papillomavirus-18 L1 gene methylation, a candidate biomarker for the progression of cervical neoplasiaImpact of the DNA Damage Response on Human Papillomavirus Chromatin.Effects of cellular differentiation, chromosomal integration and 5-aza-2'-deoxycytidine treatment on human papillomavirus-16 DNA methylation in cultured cell lines.The EVER proteins as a natural barrier against papillomaviruses: a new insight into the pathogenesis of human papillomavirus infections.HPV16 oncogene expression levels during early cervical carcinogenesis are determined by the balance of epigenetic chromatin modifications at the integrated virus genomeEpigenetics of human papillomaviruses.Cell-type specific transcriptional activities among different papillomavirus long control regions and their regulation by E2.Conserved methylation patterns of human papillomavirus type 16 DNA in asymptomatic infection and cervical neoplasia.Regulation of the life cycle of HPVs by differentiation and the DNA damage responseDNA damage response is hijacked by human papillomaviruses to complete their life cycleEpigenetic Alterations in Human Papillomavirus-Associated Cancers.Therapeutics Targeting Protein Acetylation Perturb Latency of Human Viruses.Extrachromosomal HPV-16 LCR transcriptional activation by HDACi opposed by cellular differentiation and DNA integration.SMCX and components of the TIP60 complex contribute to E2 regulation of the HPV E6/E7 promoter.Modulation of the DNA damage response during the life cycle of human papillomaviruses.Human papillomaviruses recruit cellular DNA repair and homologous recombination factors to viral replication centers.A novel silencer element in the bovine papillomavirus type 4 promoter represses the transcriptional response to papillomavirus E2 protein.Mechanisms by which HPV Induces a Replication Competent Environment in Differentiating Keratinocytes.An enhanceosome containing the Jun B/Fra-2 heterodimer and the HMG-I(Y) architectural protein controls HPV 18 transcription.Improved Antiviral Activity of a Polyamide Against High-Risk Human Papillomavirus Via N-Terminal Guanidinium Substitution.SETD2-dependent H3K36me3 plays a critical role in epigenetic regulation of the HPV31 life cycle
P2860
Q24676251-7DD267BA-668B-4FA2-B35A-7528F154626FQ33402907-54671874-FA09-47EB-9E67-681F0B54514EQ33729502-36A7AE57-9693-44CD-83F3-D8271188A652Q33734803-DF09DD21-28A1-45EF-8421-460416731083Q33799469-7E68EFB7-3163-453B-B102-FB2FAD554B67Q33802567-616A584C-5B7A-415B-98B8-E7792D9C3AAFQ33847281-236225F5-234B-4757-9A50-D55029DDEE99Q34009689-07D45049-9913-473C-9F9C-F428823E6E96Q34559827-74E8923F-6F99-4B60-A9EC-833D6ABFC004Q34813512-2A1F4CCE-7279-49DD-8C09-3CC50FEEFAA3Q34863597-6D2DDC60-CBD0-4864-A807-F39B460F6FB0Q34982704-3A02B485-F538-47D3-A405-8995FD17E7CDQ34996306-B7E892B0-BCD7-4D36-AF77-0BBBF08BD449Q35824357-84D03CC2-DDC0-4AF5-B156-B9D1E6CF501EQ35908359-AF13CABE-5E0A-41D4-BAA6-8CABE4FF76C3Q35914149-91EBEB87-8BD4-4A97-A3A7-DB5C9D14D0DFQ35989077-600C7DE7-BBFB-4BBF-8DD0-FE984F8D4FF6Q36054138-9EE2A280-54DC-4CA0-944E-3E56712039F0Q36914963-C83D8655-A273-4B47-8E87-4EBC63ED1ECCQ37232535-BB75B7DE-1FAB-4F79-AA6D-C84446AFAFEBQ37257721-16F0786B-1F68-425E-9AA3-79EC6B9F2280Q37293605-7B5C1D03-6188-4E0B-9A62-89275C929F94Q37456675-89C3966D-5143-4735-8431-F87FD34D8AD7Q37596549-5FFFC71A-47F4-4665-AB83-B0DB21789063Q37633137-2133A0CF-96C9-4917-AA50-38187ACA3932Q37724792-776D4311-5F1B-49FE-AD31-A01809FA53AEQ38598051-F919659A-1240-40F6-9E40-8FE11DB17DAEQ38723116-95B50AD7-EEF7-4C82-86DD-9C9AE09AC7B2Q38742404-A12BE305-BF1F-426B-A1CE-241093DE7893Q38956512-939EEB59-4461-4C49-8485-4991F0E32AC0Q39005827-EAE77ED6-7A0B-4F5C-91DE-1AAB571BE9ECQ39323899-64F32FFA-7F22-426F-B7F5-2F2251755579Q39610234-656D8580-F822-441F-8D6E-3F48E8D4ECFBQ41669449-37D6754A-94CC-49A1-9CA3-BD1123A9F510Q41888130-43DABA6C-D9BB-4E81-8590-F36E5F279D3DQ42737373-5DDD8B53-7E03-43DB-B0B1-C37895045970Q57472357-1ECF12FA-867F-454A-A2BA-45FDC9DE5AAF
P2860
The chromatin structure of the long control region of human papillomavirus type 16 represses viral oncoprotein expression.
description
1999 nî lūn-bûn
@nan
1999 թուականի Մարտին հրատարակուած գիտական յօդուած
@hyw
1999 թվականի մարտին 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
The chromatin structure of the ...... viral oncoprotein expression.
@ast
The chromatin structure of the ...... viral oncoprotein expression.
@en
type
label
The chromatin structure of the ...... viral oncoprotein expression.
@ast
The chromatin structure of the ...... viral oncoprotein expression.
@en
prefLabel
The chromatin structure of the ...... viral oncoprotein expression.
@ast
The chromatin structure of the ...... viral oncoprotein expression.
@en
P2860
P1433
P1476
The chromatin structure of the ...... s viral oncoprotein expression
@en
P2093
H U Bernard
P2860
P304
P577
1999-03-01T00:00:00Z