Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The regulation of gene expression depends critically upon chromatin structure. Transcription of protein-coding genes can be reconstituted on naked DNA with only the general transcription factors and RNA polymerase II. This minimal system cannot transcribe DNA packaged into chromatin, indicating that accessory factors may facilitate access to DNA. Two classes of accessory factor, ATP-dependent chromatin-remodelling enzymes and histone acetyltransferases, facilitate transcription initiation from chromatin templates. FACT (for facilitates chromatin transcription) is a chromatin-specific elongation factor required for transcription of chromatin templates in vitro. Here we show that FACT comprises a new human homologue of the Saccharomyces cerevisiae Spt16/Cdc68 protein and the high-mobility group-1-like protein structure-specific recognition protein-1. Yeast SPT16/CDC68 is an essential gene that has been implicated in transcription and cell-cycle regulation. Consistent with our biochemical analysis of FACT, we provide evidence that Spt16/Cdc68 is involved in transcript elongation in vivo. Moreover, FACT specifically interacts with nucleosomes and histone H2A/H2B dimers, indicating that it may work by promoting nucleosome disassembly upon transcription. In support of this model, we show that FACT activity is abrogated by covalently crosslinking nucleosomal histones.
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PMID:The chromatin-specific transcription elongation factor FACT comprises human SPT16 and SSRP1 proteins. 1042 73

The SUPT16H gene known as FACTP140 is required for the transcription of other genes. For transcription, genes need to be complexed with accessory factors, including transcription factors and RNA polymerase II. One such factor, FACT, interacts with histones H2A/H2B for nucleosome disassembly and transcription elongation. The SUPT16H gene has a transcript and many expressed sequence tags (ESTs). We were especially interested in an MaLR-derived transcript (EST, BX333035) that included a new exon introduced by a transposable element, a mammalian apparent LTR retrotransposon (MaLR). The MaLR was detected ranging from humans to galagos, indicating the MaLR in the SUPT16H gene is integrated into the primate ancestor genome. A new exon was created by alternative donor site provided by the MaLR. The original transcript and the MaLR-derived transcript were expressed in various human, rhesus monkey, and other primate tissues. Additionally, we identified a new alternative transcript that included the MaLR, but there was no significant difference in the expression of the original transcript and the MaLR-derived transcript. Interestingly, the new alternative transcript and the MaLR-derived transcript had the MaLR sequence in the new exon, but they had different structures by adopting different 3' splice sites. From this study, we verified transposable elements that contributed to transcriptome diversity.
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PMID:A New Exon Derived from a Mammalian Apparent LTR Retrotransposon of the SUPT16H Gene. 2367 41

Chromatin regulators are widely expressed proteins with diverse roles in gene expression, nuclear organization, cell cycle regulation, pluripotency, physiology and development, and are frequently mutated in human diseases such as cancer. Their inhibition often results in pleiotropic effects that are difficult to study using conventional approaches. We have developed a semi-automated nuclear tracking algorithm to quantify the divisions, movements and positions of all nuclei during the early development of Caenorhabditis elegans and have used it to systematically study the effects of inhibiting chromatin regulators. The resulting high dimensional datasets revealed that inhibition of multiple regulators, including F55A3.3 (encoding FACT subunit SUPT16H), lin-53 (RBBP4/7), rba-1 (RBBP4/7), set-16 (MLL2/3), hda-1 (HDAC1/2), swsn-7 (ARID2), and let-526 (ARID1A/1B) affected cell cycle progression and caused chromosome segregation defects. In contrast, inhibition of cir-1 (CIR1) accelerated cell division timing in specific cells of the AB lineage. The inhibition of RNA polymerase II also accelerated these division timings, suggesting that normal gene expression is required to delay cell cycle progression in multiple lineages in the early embryo. Quantitative analyses of the dataset suggested the existence of at least two functionally distinct SWI/SNF chromatin remodeling complex activities in the early embryo, and identified a redundant requirement for the egl-27 and lin-40 MTA orthologs in the development of endoderm and mesoderm lineages. Moreover, our dataset also revealed a characteristic rearrangement of chromatin to the nuclear periphery upon the inhibition of multiple general regulators of gene expression. Our systematic, comprehensive and quantitative datasets illustrate the power of single cell-resolution quantitative tracking and high dimensional phenotyping to investigate gene function. Furthermore, the results provide an overview of the functions of essential chromatin regulators during the early development of an animal.
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PMID:Comprehensive single cell-resolution analysis of the role of chromatin regulators in early C. elegans embryogenesis. 2544 73