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)

Yeast RNA viruses include L-A (and its toxin-encoding satellites M1, M2, ...) and L-BC dsRNA viruses and the single-stranded replicons 20S RNA and 23S RNA. L-A has a single-segment 4.6-kb linear genome encoding a major coat protein (gag) and its RNA-dependent RNA polymerase (pol), the latter expressed as a gag-pol fusion protein formed by a -1 ribosomal frameshift. In vitro replication, transcription, and binding systems for L-A have been used to define cis sites necessary for packaging and replication of viral RNA. Cellular functions that promote viral replication include the MAK3-encoded N-acetyltransferase whose modification of the gag N terminus is necessary for L-A virus assembly. The toxins encoded by the M satellite RNAs are processed by enzymes (KEX1 and KEX2, for killer expression) whose study led to discovery of mammalian hormone-processing enzymes. 20S RNA is an apparently naked circular RNA replicon (with a dsRNA form called W) encoding a RNA polymerase-like molecule. Its copy number is induced 10,000-fold in 1% potassium acetate, and it is subject to the same SKI antiviral system that represses L-A, L-BC, and M dsRNA copy number.
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PMID:Double-stranded and single-stranded RNA viruses of Saccharomyces cerevisiae. 144 59

The state of chromatin (the packaging of DNA in eukaryotes) has long been recognized to have major effects on levels of gene expression, and numerous chromatin-altering strategies-including ATP-dependent remodeling and histone modification-are employed in the cell to bring about transcriptional regulation. Of these, histone acetylation is one of the best characterized, as recent years have seen the identification and further study of many histone acetyltransferase (HAT) proteins and their associated complexes. Interestingly, most of these proteins were previously shown to have coactivator or other transcription-related functions. Confirmed and putative HAT proteins have been identified from various organisms from yeast to humans, and they include Gcn5-related N-acetyltransferase (GNAT) superfamily members Gcn5, PCAF, Elp3, Hpa2, and Hat1: MYST proteins Sas2, Sas3, Esa1, MOF, Tip60, MOZ, MORF, and HBO1; global coactivators p300 and CREB-binding protein; nuclear receptor coactivators SRC-1, ACTR, and TIF2; TATA-binding protein-associated factor TAF(II)250 and its homologs; and subunits of RNA polymerase III general factor TFIIIC. The acetylation and transcriptional functions of these HATs and the native complexes containing them (such as yeast SAGA, NuA4, and possibly analogous human complexes) are discussed. In addition, some of these HATs are also known to modify certain nonhistone transcription-related proteins, including high-mobility-group chromatin proteins, activators such as p53, coactivators, and general factors. Thus, we also detail these known factor acetyltransferase (FAT) substrates and the demonstrated or potential roles of their acetylation in transcriptional processes.
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PMID:Acetylation of histones and transcription-related factors. 1083 22

Mediator, a multiprotein complex involved in the regulation of RNA polymerase II transcription, binds to nucleosomes and acetylates histones. Three lines of evidence identify the Nut1 subunit of Mediator as responsible for the histone acetyltransferase (HAT) activity. An "in-gel" HAT assay reveals a single band of the appropriate size. Sequence alignment shows significant similarity of Nut1 to the GCN5-related N-acetyltransferase superfamily. Finally, recombinant Nut1 exhibits HAT activity in an in-gel assay.
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PMID:Mediator-nucleosome interaction. 1094 41

Adrenergic regulation of the pineal enzyme serotonin N-acetyltransferase [arylalkylamine N-acetyltransferase (AA-NAT); EC 2.3.1.87] accounts for the circadian rhythm in melatonin formation. In the present study, the role of protein phosphatases in the adrenergic regulation of rat pineal AA-NAT was investigated using specific inhibitors. In cultured pineals, the serine/threonine phosphatase type 1 and type 2A inhibitors okadaic acid and calyculin A significantly decreased adrenergically or cAMP-induced AA-NAT activity, whereas the serine/threonine phosphatase type 2B inhibitor cypermethrin and tyrosine phosphatase inhibitor dephostatin were ineffective. Reverse transcriptase-polymerase chain reaction (RT-PCR) data indicate that okadaic acid exerts its effect on cAMP-dependent AA-NAT induction by downregulating the amount of AA-NAT transcript. The 'third' messengers, inducible cAMP early repressor (ICER) and Fos-related antigene-2 (Fra-2), are believed to play a negative role in pineal AA-NAT transcription. Okadaic acid increased the cAMP responsiveness of neither ICER mRNA nor Fra-2 mRNA. Therefore, the regulatory role of pineal serine/threonine phosphatases in adrenergically stimulated AA-NAT expression probably does not depend on ICER or Fra-2.
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PMID:Serine/threonine phosphatase inhibitors decrease adrenergic arylalkylamine n-acetyltransferase induction in the rat pineal gland. 1144 72

Arylamine N-acetyltransferase (NAT) genes were targeted for inhibition using short hairpin RNA (shRNA) using two different RNA polymerase III promoters. Constructs were developed for NAT1 and NAT2, the endogenous mouse genes, and for human NAT1. There were fetal and neonatal deaths with these constructs, perhaps due in part to an interferon response as reflected in increases in oligoadenylate synthetase I mRNA levels. Seven out of 8 founders with the U6 promoter generated offspring but only 2 gave positive offspring. Out of 15 founders for H1 promoted constructs, only 4 had positive offspring. When transgenic lines were successfully established, the expression of the targeted genes was variable between animals and was not generally inhibitory.
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PMID:DNA constructs designed to produce short hairpin, interfering RNAs in transgenic mice sometimes show early lethality and an interferon response. 1587 90

Promoter clearance and transcriptional processivity in eukaryotic cells are fundamentally regulated by the phosphorylation of the carboxy-terminal domain of RNA polymerase II (RNAPII). One of the kinases that essentially performs this function is P-TEFb (positive transcription elongation factor b), which is composed of cyclin-dependent kinase 9 (CDK9) associated with members of the cyclin T family. Here we show that cellular GCN5 and P/CAF, members of the GCN5-related N-acetyltransferase family of histone acetyltransferases, regulate CDK9 function by specifically acetylating the catalytic core of the enzyme and, in particular, a lysine that is essential for ATP coordination and the phosphotransfer reaction. Acetylation markedly reduces both the kinase function and transcriptional activity of P-TEFb. In contrast to unmodified CDK9, the acetylated fraction of the enzyme is specifically found in the insoluble nuclear matrix compartment. Acetylated CDK9 associates with the transcriptionally silent human immunodeficiency virus type 1 provirus; upon transcriptional activation, it is replaced by the unmodified form, which is involved in the elongating phase of transcription marked by Ser2-phosphorylated RNAPII. Given the conservation of the CDK9 acetylated residues in the catalytic task of virtually all CDK proteins, we anticipate that this mechanism of regulation might play a broader role in controlling the function of other members of this kinase family.
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PMID:Acetylation of conserved lysines in the catalytic core of cyclin-dependent kinase 9 inhibits kinase activity and regulates transcription. 1825 Jan 57

Fusarium avenaceum is a common soil saprophyte and plant pathogen of a variety of hosts worldwide. This pathogen is often involved in the crown rot and head blight of cereals that affects grain yield and quality. F. avenaceum contaminates grain with enniatins more than any species, and they are often detected at the highest prevalence among fusarial toxins in certain geographic areas. We studied intraspecific variability of F. avenaceum based on partial sequences of elongation factor-1 alpha, enniatin synthase, intergenic spacer of rDNA, arylamine N-acetyltransferase and RNA polymerase II data sets. The phylogenetic analyses incorporated a collection of 63 F. avenaceum isolates of various origin among which 41 were associated with wheat. Analyses of the multilocus sequence (MLS) data indicated a high level of genetic variation within the isolates studied with no significant linkage disequilibrium. Correspondingly, maximum parsimony analyses of both MLS and individual data sets showed lack of clear phylogenetic structure within F. avenaceum in relation to host (wheat) and geographic origin. Lack of host specialization indicates no host selective pressure in driving F. avenaceum evolution, while no geographic lineage structure indicates widespread distribution of genotypes that resulted in nullifying the effects of geographic isolation on the evolution of this species. Moreover, significant incongruence between all individual tree topologies and little clonality is consistent with frequent recombination within F. avenaceum.
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PMID:Multilocus phylogenetics show high intraspecific variability within Fusarium avenaceum. 2201 14

Previously we constructed a Bacillus subtilis strain for efficient production of N-acetylglucosamine (GlcNAc) by engineering of GlcNAc synthetic and catabolic pathways. However, the further improvement of GlcNAc titer is limited by the intrinsic inefficiency of GlcNAc synthetic pathway and undesirable cellular properties including sporulation and high maintenance metabolism. In this work, we further improved GlcNAc titer through spatial modulation of key pathway enzymes and by blocking sporulation and decreasing maintenance metabolism. Specifically, a DNA-guided scaffold system was firstly used to modulate the activities of glucosamine-6-phosphate synthase and GlcNAc-6-phosphate N-acetyltransferase, increasing the GlcNAc titer from 1.83g/L to 4.55g/L in a shake flask. Next, sporulation was blocked by respectively deleting spo0A (gene encoding the initiation regulon of sporulation) and sigE (gene encoding RNA polymerase sporulation-specific sigma factor). Deletion of sigE more effectively blocked sporulation without altering cell growth or GlcNAc production. The respiration chain was then engineered to decrease the maintenance metabolism of recombinant B. subtilis by deleting cydB and cydC, genes encoding cytochrome bd ubiquinol oxidase (subunit II) and ATP-binding protein for the expression of cytochrome bd, respectively. The respiration-engineered B. subtilis produced 6.15g/L GlcNAc in a shake flask and 20.58g/L GlcNAc in a 3-L fed-batch bioreactor. To the best of our knowledge, this report is the first to describe the modulation of pathway enzymes via a DNA-guided scaffold system in B. subtilis. The combination of spatial modulation of key pathway enzymes and optimization of cellular properties may be used to develop B. subtilis as a well-organized cell factory for the production of the other industrially useful chemicals.
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PMID:Spatial modulation of key pathway enzymes by DNA-guided scaffold system and respiration chain engineering for improved N-acetylglucosamine production by Bacillus subtilis. 2481 49