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Query: EC:2.7.7.6 (RNA polymerase)
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Chromohalobacter sp. strain HS-2 was isolated from salted fermented clams and analyzed for the ability to grow on benzoate and p-hydroxybenzoate as the sole carbon and energy source. HS-2 was characterized as moderately halophilic, with an optimal NaCl concentration of 10%. The genes encoding the benzoate metabolism were cloned into a cosmid vector, sequenced, and then analyzed to reveal the benzoate (benABCD) and catechol (catBCA) catabolic genes, both of which are flanked on either side by LysR-type transcriptional regulator (catR) and membrane transport protein for benzoate (benE) in the gene order catRBCAbenABCDE. Near the large cat-ben cluster, a p-hydroxybenzoate hydroxylase gene (pobA) and two putative regulatory genes (pcaQ and pobR) were additionally detected. The HS-2 genes involved in benzoate and p-hydroxybenzoate degradation are tightly clustered within a c. 19 kb region, and show quite a different genetic organization from those of other benzoate catabolic genes. Reverse transcriptase-PCR experiments show that benzoate induces the expression of benzoate 1,2-dioxygenase, catechol 1,2-dioxygenase, and protocatechuate 3,4-dioxygenase while p-hydroxybenzoate only induced the expression of p-hydroxybenzoate hydroxylase. When expressed in Escherichia coli, benzoate 1,2-dioxygenase (BenABC) and p-hydroxybenzoate hydroxylase (PobA) transformed benzoate and p-hydroxybenzoate into cis-benzoate dihydrodiol and protocatechuate, respectively.
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PMID:Molecular cloning and functional characterization of the genes encoding benzoate and p-hydroxybenzoate degradation by the halophilic Chromohalobacter sp. strain HS-2. 1824 26

Hexamethylene bis-acetamide-inducible protein 1 (HEXIM1) was identified earlier as an inhibitor of positive transcription elongation factor b (P-TEFb), which is a key transcriptional regulator of RNA polymerase II (Pol II). Studies show that more than half of P-TEFb in cells is associated with HEXIM1, which results in the inactivation of P-TEFb. Here, we identify a nucleolar protein, nucleophosmin (NPM), as a HEXIM1-binding protein. NPM binds to HEXIM1 in vitro and in vivo, and functions as a negative regulator of HEXIM1. Over-expression of NPM leads to proteasome-mediated degradation of HEXIM1, resulting in activation of P-TEFb-dependent transcription. In contrast, an increase in HEXIM1 protein levels and a decrease in transcription are detected when NPM is knocked down. We show that a cytoplasmic mutant of NPM, NPMc+, associates with and sequesters HEXIM1 in the cytoplasm resulting in higher RNA Pol II transcription. Correspondingly, cytoplasmic localization of endogenous HEXIM1 is detected in an acute myeloid leukemia (AML) cell line containing the NPMc+ mutation, suggesting the physiological importance of HEXIM1-NPMc+ interaction. Over-expression of NPM has been detected in tumors of various histological origins and our results may provide a possible molecular mechanism for the proto-oncogenic function of NPM. Furthermore, considering that 35% of AML patients are diagnosed with NPMc+ mutation, our findings suggest that in some cases of AML, RNA Pol II transcription may be disregulated by the malfunction of NPM and the mislocation of HEXIM1.
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PMID:Nucleophosmin interacts with HEXIM1 and regulates RNA polymerase II transcription. 1837 77

Pre-mRNA splicing and polyadenylation are tightly connected to transcription, and transcriptional stimuli and elongation dynamics can affect mRNA maturation. However, whether this regulatory mechanism has a physio/pathological impact is not known. In cancer, where splice variant expression is often deregulated, many mutated oncogenes are transcriptional regulators. In particular, the Ewing sarcoma (EwSa) oncogene, resulting from a fusion of the EWS and FLI1 genes, encodes a well characterized transcription factor. EWS-FLI1 directly stimulates transcription of the CCND1 protooncogene encoding cyclin D1a and a less abundant but more oncogenic splice isoform, D1b. We show that, although both EWS and EWS-FLI1 enhance cyclin D1 gene expression, they regulate the D1b/D1a transcript ratio in an opposite manner. Detailed analyses of RNA polymerase dynamics along the gene and of the effects of an inhibitor of elongation show that EWS-FLI1 favors D1b isoform expression by decreasing the elongation rate, whereas EWS has opposite effects. As a result, the D1b/D1a ratio is elevated in EwSa cell lines and tumors. The endogenous D1b protein is enriched in nuclei, where the oncogenic activity of cyclin D1 is known to occur, and depleting D1b in addition to D1a results in a stronger reduction of EwSa cell growth than depleting D1a only. These data show that elevated expression of a splice isoform in cancer can be due to an alteration of the transcription process by a mutated transcriptional regulator and provide evidence for a physio/pathological impact of the coupling between transcription and mRNA maturation.
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PMID:Alteration of cyclin D1 transcript elongation by a mutated transcription factor up-regulates the oncogenic D1b splice isoform in cancer. 1841 12

Some Vibrio anguillarum strains produce a catechol-type siderophore named vanchrobactin, whose biosynthetic pathway has not been completely elucidated. In addition to the previously described genes vabA, vabC, vabB, vabE, vabF, vabS and vabH, in the present study we have identified the genes encoding a DAHP (3-deoxy-d-arabino-heptulosonate-7-phosphate) synthetase (vabG), a phosphopantheteinyl transferase (vabD), a LysR-family transcriptional regulator (vabR) and a putative siderophore receptor (fvtA). A deletion affecting vabG or vabD greatly reduced growth under iron-limiting conditions, whereas deletion of vabR did not have significant effects. Vanchrobactin production was abolished in the vabD mutant, whereas the vabG mutant retained a residual vanchrobactin production ability. Reverse transcriptase-mediated PCR indicated that this 11-gene cluster is organized into six iron-regulated transcriptional units. Transcriptional lacZ fusions demonstrated that the ferric uptake regulator (Fur) protein is the main iron-responsive regulator of these genes. Interestingly, the vabG gene was strongly iron-repressed, but Fur was not essential for this repression. In addition, the maximal expression from the vabG promoter was achieved only in the presence of an intact copy of vabR. Analysis of the beta-galactosidase activities of a fvtA : : lacZ fusion in a vabB mutant and in the presence of added vanchrobactin suggested that a ferric-vanchrobactin-dependent activator plays a positive regulatory role in transcription of the fvtA-vabD operon. This possibility is reinforced by the presence of a predicted AraC box upstream of fvtA. We propose that vanchrobactin biosynthesis is subjected to a complex regulatory circuitry aimed at adjusting vanchrobactin production for the maintenance of iron homeostasis in V. anguillarum.
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PMID:Biosynthetic and regulatory elements involved in the production of the siderophore vanchrobactin in Vibrio anguillarum. 1845 Oct 49

In Anabaena sp. strain PCC 7120, differentiation of heterocysts takes place in response to the external cue of combined nitrogen deprivation, allowing the organism to fix atmospheric nitrogen in oxic environments. NtcA, a global transcriptional regulator of cyanobacteria, is required for activation of the expression of multiple genes involved in heterocyst differentiation, including key regulators that are specific to the process. We have set up a fully defined in vitro system, which includes the purified Anabaena RNA polymerase, and have studied the effects of NtcA and its signaling effector 2-oxoglutarate on RNA polymerase binding, open complex formation, and transcript production from promoters of the hetC, nrrA, and devB genes that are activated by NtcA at different stages of heterocyst differentiation. Both RNA polymerase and NtcA could specifically bind to the target DNA in the absence of any effector. 2-Oxoglutarate had a moderate positive effect on NtcA binding, and NtcA had a limited positive effect on RNA polymerase recruitment at the promoters. However, a stringent requirement of both NtcA and 2-oxoglutarate was observed for the detection of open complexes and transcript production at the three investigated promoters. These results support a key role for 2-oxoglutarate in transcription activation in the developing heterocyst.
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PMID:Transcription activation by NtcA and 2-oxoglutarate of three genes involved in heterocyst differentiation in the cyanobacterium Anabaena sp. strain PCC 7120. 1865 68

A large share of mRNA processing and packaging events occurs cotranscriptionally. To explore the hypothesis that transcription defects may affect mRNA fate, we analyzed poly(A)(+) RNA distribution in Saccharomyces cerevisiae strains harboring mutations in Rpb1p, the largest subunit of RNA polymerase II. In certain rpb1 mutants, a poly(A)(+) RNA granule, distinct from any known structure, strongly accumulated in a confined space of the cytoplasm. RNA and protein expressed from Ty1 retrovirus-like elements colocalized with this new granule, which we have consequently named the T body. A visual screen revealed that the deletion of most genes with proposed functions in Ty1 biology unexpectedly does not alter T-body levels. In contrast, the deletion of genes encoding the Mediator transcription initiation factor subunits Srb2p and Srb5p as well as the Ty1 transcriptional regulator Spt21p greatly enhances T-body formation. Our data disclose a new cellular body putatively involved in the assembly of Ty1 particles and suggest that the cytoplasmic fate of mRNA can be affected by transcription initiation events.
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PMID:The T body, a new cytoplasmic RNA granule in Saccharomyces cerevisiae. 1867 48

Positive transcription elongation factor b (P-TEFb) is an important transcriptional regulator which controls 70-80% of RNA polymerase II transcription. It has been reported that the human I-mfa (inhibitor of MyoD family a) domain-containing protein (HIC) interacts with P-TEFb and that expression of HIC cDNA stimulates P-TEFb-dependent transcription. Interestingly, our recent study shows that transcriptional stimulation by HIC is predominately due to the 3' untranslated region (3'UTR) of HIC mRNA rather than its coding region. In this report, we investigate the effects of HIC 3'UTR on recombinant protein expression in mammalian cells. In transient transfections, overexpression of HIC 3'UTR stimulates transgene expression in several mammalian cell lines and significantly increases the production of human erythropoietin and interferon-gamma in Chinese hamster ovary (CHO) cells. This is the first report that demonstrates the improvement of expression of biopharmaceutical proteins by overexpressing a non-coding 3'UTR in CHO cells.
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PMID:The 3'UTR of HIC mRNA improves the production of recombinant proteins in Chinese hamster ovary cells. 1904 12

Over recent decades, many pathogenicity genes of Magnaporthe oryzae have been identified but only a very limited number of genes have been identified that encode components of the conidiogenesis pathway. We report here a T-DNA insertional mutant that completely lost conidiation ability. Further investigation revealed that this mutant did not develop any conidiophore, and that the T-DNA was integrated into an annotated gene designated as conidiophore stalk-less1 or COS1. Complementation experiments suggested that COS1 may be a determinant of conidiation. Sequence analysis revealed that COS1 putatively encodes a 491-amino-acid zinc-finger protein and the protein was revealed localized to nucleus. Reverse-transcriptase polymerase chain reaction (RT-PCR)-based expression analysis indicated that two homologues of conidiophore-related genes were affected by the cos1 mutation, suggesting that Cos1 may function as a transcriptional regulator controlling genes responsible for conidiation. Inoculations of rice roots and wounded leaves with mycelia suggested that COS1 is not required for pathogenicity. Moreover, mutation of COS1 may aggravate infection of wounded leaves. Interestingly, different from the wild-type strain, mycelia of the cos1 mutant successfully infected host cells and caused visible symptoms on unwounded leaf blades and sheaths, indicating that Cos1 may have a role in some unknown mechanism of mycelial infection of M. oryzae.
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PMID:Conidiophore stalk-less1 encodes a putative zinc-finger protein involved in the early stage of conidiation and mycelial infection in Magnaporthe oryzae. 1927 55

The 5'-end of the Caenorhabditis elegans ama-1 gene transcript, which encodes the largest subunit of RNA polymerase II, was cloned. Sequencing revealed that the message is trans-spliced. To characterize the Ce-ama-1 promoter, DNA sequence spanning 3 kb upstream from the initiation codon was determined. Typical elements, such as TATA and Spl sites, were absent. The homologue of ama-1 in C. briggsae, Cb-ama-1, was isolated and its 5' flanking sequence compared with that of Ce-ama-1, revealing only limited similarity, although both sequences included a potential initiator-class transcriptional regulator and phased repeats of an ATC motif. The latter elements are postulated to facilitate DNA bending and may play a role in transcription regulation.
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PMID:Promoter Structure of the RNA Polymerase II Large Subunit Gene in Caenorhabditis elegans and C. briggsae. 1927 43

The utilization of the hydroaromatic compounds quinate and shikimate by Corynebacterium glutamicum was investigated. C. glutamicum grew well with either quinate or shikimate as the sole carbon source. The disruption of qsuD, encoding quinate/shikimate dehydrogenase, completely suppressed growth with either substrate but did not affect growth with glucose, indicating that the enzyme encoded by qsuD catalyzes the first step of the catabolism of quinate/shikimate but is not involved in the shikimate pathway required for the biosynthesis of various aromatic compounds. On the chromosome of C. glutamicum, the qsuD gene is located in a gene cluster also containing qsuA, qsuB, and qsuC genes, which are probably involved in the quinate/shikimate utilization pathway to form protocatechuate. Reverse transcriptase PCR analyses revealed that the expression of the qsuABCD genes was markedly induced during growth with either quinate or shikimate relative to expression during growth with glucose. The induction level by shikimate was significantly decreased by the disruption of qsuR, which is located immediately upstream of qsuA in the opposite direction and encodes a LysR-type transcriptional regulator, suggesting that QsuR acts as an activator of the qsuABCD genes. The high level of induction of qsuABCD genes by shikimate was still observed in the presence of glucose, and simultaneous consumption of glucose and shikimate during growth was observed.
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PMID:Regulation of expression of genes involved in quinate and shikimate utilization in Corynebacterium glutamicum. 1937 19

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