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HPV-18 E7 conjugates to c-Myc and mediates its transcriptional activity
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scholarly article
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title
HPV-18 E7 conjugates to c-Myc and mediates its transcriptional activity
(English)
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author name string
Yi-Wei Wang
series ordinal
1
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Hung-Shu Chang
series ordinal
2
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Ching-Hui Lin
series ordinal
3
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Winston C Y Yu
series ordinal
4
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language of work or name
English
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publication date
2007
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published in
International Journal of Biochemistry & Cell Biology
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volume
39
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issue
2
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page(s)
402-12
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cites work
Continued expression of HPV-16 E7 protein is required for maintenance of the transformed phenotype of cells co-transformed by HPV-16 plus EJ-ras.
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Transactivation of prothymosin alpha and c-myc promoters by human papillomavirus type 16 E6 protein
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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The human papillomavirus type 16 E7 gene encodes transactivation and transformation functions similar to those of adenovirus E1A.
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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The HPV-16 E6 and E6-AP complex functions as a ubiquitin-protein ligase in the ubiquitination of p53
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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The c-myc activation in cervical carcinomas and HPV 16 infections
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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Modulation of YY1 activity by SAP30
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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hEST2, the putative human telomerase catalytic subunit gene, is up-regulated in tumor cells and during immortalization
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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The correlation of TERT expression with c-myc expression in cervical cancer
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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The role of human papillomavirus oncoproteins E6 and E7 in apoptosis
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Bovine dental papilla-derived cells immortalized with HPV 18 E6/E7.
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Myc and Max proteins possess distinct transcriptional activities
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Structure of the retinoblastoma tumour-suppressor pocket domain bound to a peptide from HPV E7
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Analysis of genomic targets reveals complex functions of MYC.
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Papillomaviruses and cancer: from basic studies to clinical application
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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Transcriptional regulation and transformation by Myc proteins
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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inferred from DOI database lookup
BRCA1 binds c-Myc and inhibits its transcriptional and transforming activity in cells
1 reference
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reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Telomerase reverse transcriptase gene is a direct target of c-Myc but is not functionally equivalent in cellular transformation
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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MYC oncogenes and human neoplastic disease
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Biological activities and molecular targets of the human papillomavirus E7 oncoprotein
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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inferred from DOI database lookup
E6/E7 proteins of HPV type 16 and ErbB-2 cooperate to induce neoplastic transformation of primary normal oral epithelial cells
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Human papillomavirus molecular biology and pathogenesis
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reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
Human papillomavirus E6 and Myc proteins associate in vivo and bind to and cooperatively activate the telomerase reverse transcriptase promoter
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
inferred from DOI database lookup
E1A-dependent trans-activation of the human MYC promoter is mediated by the E2F factor
1 reference
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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inferred from DOI database lookup
A natural classification of the basic helix-loop-helix class of transcription factors
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
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Basal and human papillomavirus E6 oncoprotein-induced degradation of Myc proteins by the ubiquitin pathway
1 reference
stated in
Crossref
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
inferred from DOI database lookup
The Brn-3a transcription factor plays a critical role in regulating human papilloma virus gene expression and determining the growth characteristics of cervical cancer cells
1 reference
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
inferred from DOI database lookup
Human papillomavirus type 16 E7 binds to E2F1 and activates E2F1-driven transcription in a retinoblastoma protein-independent manner
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
inferred from DOI database lookup
Activation of c-Myc contributes to bovine papillomavirus type 1 E7-induced cell proliferation
1 reference
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reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
inferred from DOI database lookup
Evidence for a causal association between human papillomavirus and a subset of head and neck cancers
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reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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inferred from DOI database lookup
Sp1 cooperates with c-Myc to activate transcription of the human telomerase reverse transcriptase gene (hTERT).
1 reference
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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Human papillomavirus type 16 E7 binds to the conserved carboxy-terminal region of the TATA box binding protein and this contributes to E7 transforming activity.
1 reference
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Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
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inferred from DOI database lookup
SIR2 and SIR4 interactions differ in core and extended telomeric heterochromatin in yeast
1 reference
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
inferred from DOI database lookup
Nuclear factor E2F mediates basic transcription and trans-activation by E1a of the human MYC promoter
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
inferred from DOI database lookup
Deconstructing myc.
1 reference
stated in
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reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
inferred from DOI database lookup
Normal human fibroblasts immortalized by introduction of human papillomavirus type 16 (HPV-16) E6-E7 genes
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
Overexpression of p16 INK4a as an indicator for human papillomavirus oncogenic activity in cervical squamous neoplasia.
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
Max: a helix-loop-helix zipper protein that forms a sequence-specific DNA-binding complex with Myc
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
The RNA component of human telomerase
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
Human papillomavirus and cervical cancer
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
Accumulation of human papillomavirus type 16 E7 protein bypasses G1 arrest induced by serum deprivation and by the cell cycle inhibitor p21
1 reference
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https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
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7 January 2021
based on heuristic
inferred from DOI database lookup
Telomerase activation by human papillomavirus type 16 E6 protein: induction of human telomerase reverse transcriptase expression through Myc and GC-rich Sp1 binding sites
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
p21cip1 Degradation in differentiated keratinocytes is abrogated by costabilization with cyclin E induced by human papillomavirus E7.
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
E box-dependent activation of telomerase by human papillomavirus type 16 E6 does not require induction of c-myc
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
Human papillomavirus type 16 E6 activates TERT gene transcription through induction of c-Myc and release of USF-mediated repression.
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
Endogenous human papillomavirus E6 and E7 proteins differentially regulate proliferation, senescence, and apoptosis in HeLa cervical carcinoma cells
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
An amino-terminal c-myc domain required for neoplastic transformation activates transcription
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
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Binding of myc proteins to canonical and noncanonical DNA sequences
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
c-Myc target genes involved in cell growth, apoptosis, and metabolism
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
myc function and regulation
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
Telomere length regulation
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
The Myc/Max/Mad network and the transcriptional control of cell behavior
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
inferred from DOI database lookup
c-Myc-induced genomic instability.
1 reference
stated in
Crossref
reference URL
https://api.crossref.org/works/10.1016%2FJ.BIOCEL.2006.09.006
retrieved
7 January 2021
based on heuristic
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Identifiers
DOI
10.1016/J.BIOCEL.2006.09.006
1 reference
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
4015655
OpenCitations bibliographic resource ID
4015655
1 reference
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
4015655
PubMed publication ID
17070091
1 reference
stated in
Consolidated OpenCitations Corpus – April 2017
OpenCitations bibliographic resource ID
4015655
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