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

Expression of mannitol utilization genes in Bacillus subtilis is directed by PmtlA, the promoter of the mtlAFD operon, and PmtlR, the promoter of the MtlR activator. MtlR contains phosphoenolpyruvate-dependent phosphotransferase system (PTS) regulation domains, called PRDs. The activity of PRD-containing MtlR is mainly regulated by the phosphorylation/dephosphorylation of its PRDII and EIIB(Gat)-like domains. Replacing histidine 342 and cysteine 419 residues, which are the targets of phosphorylation in these two domains, by aspartate and alanine provided MtlR-H342D C419A, which permanently activates PmtlA in vivo. In the mtlR-H342D C419A mutant, PmtlA was active, even when the mtlAFD operon was deleted from the genome. The mtlR-H342D C419A allele was expressed in an Escherichia coli strain lacking enzyme I of the PTS. Electrophoretic mobility shift assays using purified MtlR-H342D C419A showed an interaction between the MtlR double-mutant and the Cy5-labelled PmtlA and PmtlR DNA fragments. These investigations indicate that the activated MtlR functions regardless of the presence of the mannitol-specific transporter (MtlA). This is in contrast to the proposed model in which the sequestration of MtlR by the MtlA transporter is necessary for the activity of MtlR. Additionally, DNase I footprinting, construction of PmtlA-PlicB hybrid promoters, as well as increasing the distance between the MtlR operator and the -35 box of PmtlA revealed that the activated MtlR molecules and RNA polymerase holoenzyme likely form a class II type activation complex at PmtlA and PmtlR during transcription initiation.
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PMID:Regulation of the Bacillus subtilis mannitol utilization genes: promoter structure and transcriptional activation by the wild-type regulator (MtlR) and its mutants. 2419 28

European, North American and northeastern Asian collections of Xeromphalina section Xeromphalina were studied by sequencing the nuc rDNA ITS1-5.8SITS2 and 28S 5' regions and partial RNA polymerase II second largest subunit gene (RPB2). Previously designated Xeromphalina campanella I is designated X. campanella s. str. and a neotype for this species from the topotype region is established. This species is shown to be a discrete, cold-tolerant organism that is distributed across North America and Eurasia and does not exhibit significant geographical partitioning. A second closely related phylogenetic species previously designated X. campanella II, proposed as X. enigmatica, cannot be distinguished from X. campanella morphologically but is reproductively isolated and is sympatric with X. campanella across much of Eurasia and North America. Unlike X. campanella it shows geographical partitioning and some of the geographical populations likely have become reproductively isolated. Phylogenetic and geographical evidence suggests that X. enigmatica may have given rise to the eastern North American endemic, Xeromphalina kauffmanii, which also is reproductively isolated and is characterized by a hardwood substrate and a difference in basidiospore shape. Two putatively interbreeding haplotypes are evident for both eastern North American X. kauffmanii and eastern North American X. enigmatica and might be contributions from different glacial refugia. Cryptic taxa related to X. enigmatica are identified but not named due to small sample sizes including Asian taxa 1-5 and an apparent endemic from Idaho and British Columbia. Several species-delineation procedures were attempted and compared with this complex molecular dataset. Rosenberg's PAB statistic and PID (liberal) were the most liberal, assigning species status to haplotypes or interbreeding clades within species. PID (strict) and PRD (randomly distinct) were more stringent. Ability to intercross was the most stringent criterion for species delineation and did not correlate well with PAB, PID and PRD delineations.
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PMID:The Xeromphalina campanella/kauffmanii complex: species delineation and biogeographical patterns of speciation. 2629 81