SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2022756191> ?p ?o ?g. }

Showing items 1 to 100 of ±126 with 100 items per page.

W2022756191 endingPage "383" @default.
W2022756191 startingPage "377" @default.
W2022756191 abstract "The E2F1 transcription factor is a critical downstream target of the tumor suppressor RB. When activated, E2F1 induces cell proliferation. In addition, E2F1 can induce apoptosis via both p53-dependent and p53-independent pathways. A number of E2F-regulated genes, including ARF, ATM and Chk2, contribute to E2F-induced p53 stabilization. However, it is not known how E2F directs p53 activity towards apoptosis rather than growth arrest. We show that E2F1 upregulates the expression of four proapoptotic cofactors of p53 – ASPP1, ASPP2, JMY and TP53INP1 – through a direct transcriptional mechanism. Adenovirus E1A protein also induces upregulation of these genes, implicating endogenous E2F in this effect. TP53INP1 was shown to mediate phosphorylation of p53 on serine 46. We demonstrate that activation of E2F1 leads to phosphorylation of p53 on serine 46 and this modification is important for E2F1–p53 cooperation in apoptosis. Overall, these data provide novel functional links between RB/E2F pathway and p53-induced apoptosis." @default.
W2022756191 created "2016-06-24" @default.
W2022756191 creator A5036387444 @default.
W2022756191 creator A5042195436 @default.
W2022756191 creator A5071610029 @default.
W2022756191 creator A5081387354 @default.
W2022756191 date "2005-02-11" @default.
W2022756191 modified "2023-10-07" @default.
W2022756191 title "Novel link between E2F and p53: proapoptotic cofactors of p53 are transcriptionally upregulated by E2F" @default.
W2022756191 cites W1497251274 @default.
W2022756191 cites W1517579686 @default.
W2022756191 cites W1762601366 @default.
W2022756191 cites W1804201762 @default.
W2022756191 cites W1964545908 @default.
W2022756191 cites W1965080968 @default.
W2022756191 cites W1979490110 @default.
W2022756191 cites W1982949972 @default.
W2022756191 cites W1983971803 @default.
W2022756191 cites W1989223012 @default.
W2022756191 cites W1995741673 @default.
W2022756191 cites W1996834340 @default.
W2022756191 cites W2002010679 @default.
W2022756191 cites W2008715871 @default.
W2022756191 cites W2011938148 @default.
W2022756191 cites W2015680924 @default.
W2022756191 cites W2019538590 @default.
W2022756191 cites W2024996523 @default.
W2022756191 cites W2028044172 @default.
W2022756191 cites W2029334179 @default.
W2022756191 cites W2034831440 @default.
W2022756191 cites W2054311839 @default.
W2022756191 cites W2057486966 @default.
W2022756191 cites W2063822655 @default.
W2022756191 cites W2087732778 @default.
W2022756191 cites W2092108176 @default.
W2022756191 cites W2098470595 @default.
W2022756191 cites W2101801927 @default.
W2022756191 cites W2103428229 @default.
W2022756191 cites W2103756564 @default.
W2022756191 cites W2112968535 @default.
W2022756191 cites W2115272028 @default.
W2022756191 cites W2118508998 @default.
W2022756191 cites W2120921507 @default.
W2022756191 cites W2124386744 @default.
W2022756191 cites W2131833681 @default.
W2022756191 cites W2132385852 @default.
W2022756191 cites W2146180420 @default.
W2022756191 cites W2146453903 @default.
W2022756191 cites W2150710841 @default.
W2022756191 cites W2151807575 @default.
W2022756191 cites W2166201219 @default.
W2022756191 cites W2167899505 @default.
W2022756191 cites W2317258824 @default.
W2022756191 cites W2321525112 @default.
W2022756191 cites W2332949581 @default.
W2022756191 doi "https://doi.org/10.1038/sj.cdd.4401575" @default.
W2022756191 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/15706352" @default.
W2022756191 hasPublicationYear "2005" @default.
W2022756191 type Work @default.
W2022756191 sameAs 2022756191 @default.
W2022756191 citedByCount "95" @default.
W2022756191 countsByYear W20227561912012 @default.
W2022756191 countsByYear W20227561912013 @default.
W2022756191 countsByYear W20227561912014 @default.
W2022756191 countsByYear W20227561912015 @default.
W2022756191 countsByYear W20227561912016 @default.
W2022756191 countsByYear W20227561912017 @default.
W2022756191 countsByYear W20227561912018 @default.
W2022756191 countsByYear W20227561912019 @default.
W2022756191 countsByYear W20227561912021 @default.
W2022756191 countsByYear W20227561912022 @default.
W2022756191 countsByYear W20227561912023 @default.
W2022756191 crossrefType "journal-article" @default.
W2022756191 hasAuthorship W2022756191A5036387444 @default.
W2022756191 hasAuthorship W2022756191A5042195436 @default.
W2022756191 hasAuthorship W2022756191A5071610029 @default.
W2022756191 hasAuthorship W2022756191A5081387354 @default.
W2022756191 hasBestOaLocation W20227561911 @default.
W2022756191 hasConcept C104317684 @default.
W2022756191 hasConcept C11960822 @default.
W2022756191 hasConcept C127561419 @default.
W2022756191 hasConcept C183022183 @default.
W2022756191 hasConcept C190283241 @default.
W2022756191 hasConcept C2776062698 @default.
W2022756191 hasConcept C29537977 @default.
W2022756191 hasConcept C502942594 @default.
W2022756191 hasConcept C54355233 @default.
W2022756191 hasConcept C83258922 @default.
W2022756191 hasConcept C86339819 @default.
W2022756191 hasConcept C86803240 @default.
W2022756191 hasConcept C95444343 @default.
W2022756191 hasConceptScore W2022756191C104317684 @default.
W2022756191 hasConceptScore W2022756191C11960822 @default.
W2022756191 hasConceptScore W2022756191C127561419 @default.
W2022756191 hasConceptScore W2022756191C183022183 @default.
W2022756191 hasConceptScore W2022756191C190283241 @default.
W2022756191 hasConceptScore W2022756191C2776062698 @default.
W2022756191 hasConceptScore W2022756191C29537977 @default.