SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2019819630> ?p ?o ?g. }

Showing items 1 to 100 of ±131 with 100 items per page.

W2019819630 endingPage "34200" @default.
W2019819630 startingPage "34189" @default.
W2019819630 abstract "The CCAAT box is a DNA element present in the majority of human promoters, bound by the trimeric NF-Y, composed of NF-YA, NF-YB, and NF-YC subunits. We describe and characterize novel isoforms of one of the two histone-like subunits, NF-YC. The locus generates a minimum of four splicing products, mainly located within the Q-rich activation domain. The abundance of each isoform is cell-dependent; only one major NF-YC isoform is present in a given cell type. The 37- and 50-kDa isoforms are mutually exclusive, and preferential pairings with NF-YA isoforms possess different transcriptional activities, with specific combinations being more active on selected promoters. The transcriptional regulation of the NF-YC locus is also complex, and mRNAs arise from the two promoters P1 and P2. Transient transfections, chromatin immunoprecipitations, and reverse transcription-PCRs indicate that P1 has a robust housekeeping activity; P2 possesses a lower basal activity, but it is induced in response to DNA damage in a p53-dependent way. Alternative promoter usage directly affects NF-YC splicing, with the 50-kDa transcript being excluded from P2. Specific functional inactivation of the 37-kDa isoform affects the basal levels of G1/S blocking and pro-apoptotic genes but not G2/M promoters. In summary, our data highlight an unexpected degree of complexity and regulation of the NF-YC gene, demonstrating the existence of a discrete cohort of NF-Y trimer subtypes resulting from the functional diversification of Q-rich transactivating subunits and a specific role of the 37-kDa isoform in suppression of the DNA damage-response under growing conditions. The CCAAT box is a DNA element present in the majority of human promoters, bound by the trimeric NF-Y, composed of NF-YA, NF-YB, and NF-YC subunits. We describe and characterize novel isoforms of one of the two histone-like subunits, NF-YC. The locus generates a minimum of four splicing products, mainly located within the Q-rich activation domain. The abundance of each isoform is cell-dependent; only one major NF-YC isoform is present in a given cell type. The 37- and 50-kDa isoforms are mutually exclusive, and preferential pairings with NF-YA isoforms possess different transcriptional activities, with specific combinations being more active on selected promoters. The transcriptional regulation of the NF-YC locus is also complex, and mRNAs arise from the two promoters P1 and P2. Transient transfections, chromatin immunoprecipitations, and reverse transcription-PCRs indicate that P1 has a robust housekeeping activity; P2 possesses a lower basal activity, but it is induced in response to DNA damage in a p53-dependent way. Alternative promoter usage directly affects NF-YC splicing, with the 50-kDa transcript being excluded from P2. Specific functional inactivation of the 37-kDa isoform affects the basal levels of G1/S blocking and pro-apoptotic genes but not G2/M promoters. In summary, our data highlight an unexpected degree of complexity and regulation of the NF-YC gene, demonstrating the existence of a discrete cohort of NF-Y trimer subtypes resulting from the functional diversification of Q-rich transactivating subunits and a specific role of the 37-kDa isoform in suppression of the DNA damage-response under growing conditions." @default.
W2019819630 created "2016-06-24" @default.
W2019819630 creator A5025848306 @default.
W2019819630 creator A5045917555 @default.
W2019819630 creator A5046874233 @default.
W2019819630 creator A5080777829 @default.
W2019819630 date "2009-12-01" @default.
W2019819630 modified "2023-09-30" @default.
W2019819630 title "NF-YC Complexity Is Generated by Dual Promoters and Alternative Splicing" @default.
W2019819630 cites W1535685697 @default.
W2019819630 cites W1964885501 @default.
W2019819630 cites W1969772407 @default.
W2019819630 cites W1978881490 @default.
W2019819630 cites W1980507776 @default.
W2019819630 cites W1983473513 @default.
W2019819630 cites W1984018744 @default.
W2019819630 cites W1991806583 @default.
W2019819630 cites W1992386264 @default.
W2019819630 cites W1993252465 @default.
W2019819630 cites W1997941297 @default.
W2019819630 cites W2002495914 @default.
W2019819630 cites W2006439752 @default.
W2019819630 cites W2011920499 @default.
W2019819630 cites W2013213258 @default.
W2019819630 cites W2020738190 @default.
W2019819630 cites W2021345333 @default.
W2019819630 cites W2022936129 @default.
W2019819630 cites W2027734121 @default.
W2019819630 cites W2035669732 @default.
W2019819630 cites W2036381885 @default.
W2019819630 cites W2040567801 @default.
W2019819630 cites W2040729654 @default.
W2019819630 cites W2045466781 @default.
W2019819630 cites W2054517572 @default.
W2019819630 cites W2054523011 @default.
W2019819630 cites W2075436342 @default.
W2019819630 cites W2079058841 @default.
W2019819630 cites W2082213640 @default.
W2019819630 cites W2086756536 @default.
W2019819630 cites W2092645079 @default.
W2019819630 cites W2093784579 @default.
W2019819630 cites W2096401253 @default.
W2019819630 cites W2097117811 @default.
W2019819630 cites W2113992784 @default.
W2019819630 cites W2115776426 @default.
W2019819630 cites W2120677007 @default.
W2019819630 cites W2131253190 @default.
W2019819630 cites W2138197117 @default.
W2019819630 cites W2139843952 @default.
W2019819630 cites W2140810455 @default.
W2019819630 cites W2141171810 @default.
W2019819630 cites W2146032366 @default.
W2019819630 cites W2149243265 @default.
W2019819630 cites W2166811005 @default.
W2019819630 cites W2169760054 @default.
W2019819630 cites W4234890809 @default.
W2019819630 doi "https://doi.org/10.1074/jbc.m109.008417" @default.
W2019819630 hasPubMedCentralId "https://www.ncbi.nlm.nih.gov/pmc/articles/2797189" @default.
W2019819630 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/19690168" @default.
W2019819630 hasPublicationYear "2009" @default.
W2019819630 type Work @default.
W2019819630 sameAs 2019819630 @default.
W2019819630 citedByCount "29" @default.
W2019819630 countsByYear W20198196302012 @default.
W2019819630 countsByYear W20198196302013 @default.
W2019819630 countsByYear W20198196302016 @default.
W2019819630 countsByYear W20198196302018 @default.
W2019819630 countsByYear W20198196302019 @default.
W2019819630 countsByYear W20198196302020 @default.
W2019819630 countsByYear W20198196302021 @default.
W2019819630 countsByYear W20198196302022 @default.
W2019819630 countsByYear W20198196302023 @default.
W2019819630 crossrefType "journal-article" @default.
W2019819630 hasAuthorship W2019819630A5025848306 @default.
W2019819630 hasAuthorship W2019819630A5045917555 @default.
W2019819630 hasAuthorship W2019819630A5046874233 @default.
W2019819630 hasAuthorship W2019819630A5080777829 @default.
W2019819630 hasBestOaLocation W20198196301 @default.
W2019819630 hasConcept C101762097 @default.
W2019819630 hasConcept C104317684 @default.
W2019819630 hasConcept C111936080 @default.
W2019819630 hasConcept C150194340 @default.
W2019819630 hasConcept C153911025 @default.
W2019819630 hasConcept C194583182 @default.
W2019819630 hasConcept C53345823 @default.
W2019819630 hasConcept C54355233 @default.
W2019819630 hasConcept C54458228 @default.
W2019819630 hasConcept C64927066 @default.
W2019819630 hasConcept C67705224 @default.
W2019819630 hasConcept C83640560 @default.
W2019819630 hasConcept C86803240 @default.
W2019819630 hasConcept C95444343 @default.
W2019819630 hasConceptScore W2019819630C101762097 @default.
W2019819630 hasConceptScore W2019819630C104317684 @default.
W2019819630 hasConceptScore W2019819630C111936080 @default.
W2019819630 hasConceptScore W2019819630C150194340 @default.
W2019819630 hasConceptScore W2019819630C153911025 @default.
W2019819630 hasConceptScore W2019819630C194583182 @default.