Cleavage and polyadenylation specificity factor subunit 1 (1360-1369)
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Cleavage and polyadenylation specificity factor subunit 1 (1360-1369)

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Cleavage and polyadenylation specificity factor subunit 1 (1360-1369) is a 10-aa peptide. This subunit is involved in the RNA recognition step of the polyadenylation reaction and it plays a role in eye morphogenesis and the development of retinal ganglion cell projections to the midbrain.

Category
Others
Catalog number
BAT-009644
Synonyms
Cleavage and polyadenylation specificity factor 160 kDa subunit (1360-1369)
Sequence
LMLQNALTTM
Storage
Common storage 2-8°C, long time storage -20°C.
1. Human immunodeficiency virus type 1 Tat increases the expression of cleavage and polyadenylation specificity factor 73-kilodalton subunit modulating cellular and viral expression
Marco A Calzado, Rocío Sancho, Eduardo Muñoz J Virol. 2004 Jul;78(13):6846-54. doi: 10.1128/JVI.78.13.6846-6854.2004.
The human immunodeficiency virus type 1 (HIV-1) Tat protein, which is essential for HIV gene expression and viral replication, is known to mediate pleiotropic effects on various cell functions. For instance, Tat protein is able to regulate the rate of transcription of host cellular genes and to interact with the signaling machinery, leading to cellular dysfunction. To study the effect that HIV-1 Tat exerts on the host cell, we identified several genes that were up- or down-regulated in tat-expressing cell lines by using the differential display method. HIV-1 Tat specifically increases the expression of the cleavage and polyadenylation specificity factor (CPSF) 73-kDa subunit (CPSF3) without affecting the expression of the 160- and 100-kDa subunits of the CPSF complex. This complex comprises four subunits and has a key function in the 3'-end processing of pre-mRNAs by a coordinated interaction with other factors. CPSF3 overexpression experiments and knockdown of the endogenous CPSF3 by mRNA interference have shown that this subunit of the complex is an important regulatory protein for both viral and cellular gene expression. In addition to the known CPSF3 function in RNA polyadenylation, we also present evidence that this protein exerts transcriptional activities by repressing the mdm2 gene promoter. Thus, HIV-1-Tat up-regulation of CPSF3 could represent a novel mechanism by which this virus increases mRNA processing, causing an increase in both cell and viral gene expression.
2. The Cleavage and Polyadenylation Specificity Factor 6 (CPSF6) Subunit of the Capsid-recruited Pre-messenger RNA Cleavage Factor I (CFIm) Complex Mediates HIV-1 Integration into Genes
Sheeba Rasheedi, Ming-Chieh Shun, Erik Serrao, Gregory A Sowd, Juan Qian, Caili Hao, Twishasri Dasgupta, Alan N Engelman, Jacek Skowronski J Biol Chem. 2016 May 27;291(22):11809-19. doi: 10.1074/jbc.M116.721647. Epub 2016 Mar 18.
HIV-1 favors integration into active genes and gene-enriched regions of host cell chromosomes, thus maximizing the probability of provirus expression immediately after integration. This requires cleavage and polyadenylation specificity factor 6 (CPSF6), a cellular protein involved in pre-mRNA 3' end processing that binds HIV-1 capsid and connects HIV-1 preintegration complexes to intranuclear trafficking pathways that link integration to transcriptionally active chromatin. CPSF6 together with CPSF5 and CPSF7 are known subunits of the cleavage factor I (CFIm) 3' end processing complex; however, CPSF6 could participate in additional protein complexes. The molecular mechanisms underpinning the role of CPSF6 in HIV-1 infection remain to be defined. Here, we show that a majority of cellular CPSF6 is incorporated into the CFIm complex. HIV-1 capsid recruits CFIm in a CPSF6-dependent manner, which suggests that the CFIm complex mediates the known effects of CPSF6 in HIV-1 infection. To dissect the roles of CPSF6 and other CFIm complex subunits in HIV-1 infection, we analyzed virologic and integration site targeting properties of a CPSF6 variant with mutations that prevent its incorporation into CFIm We show, somewhat surprisingly, that CPSF6 incorporation into CFIm is not required for its ability to direct preferential HIV-1 integration into genes. The CPSF5 and CPSF7 subunits appear to have only a minor, if any, role in this process even though they appear to facilitate CPSF6 binding to capsid. Thus, CPSF6 alone controls the key molecular interactions that specify HIV-1 preintegration complex trafficking to active chromatin.
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