共查询到20条相似文献,搜索用时 812 毫秒
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A. Yu. Chernenkov L. M. Gracheva T. A. Evstyukhina S. V. Koval’tsova V. T. Peshekhonov I. V. Fedorova V. G. Korolev 《Russian Journal of Genetics》2012,48(2):139-145
In eukaryotes, damage tolerance of matrix DNA is mainly determined by the repair pathway under the control of the RAD6 epistatic group of genes. This pathway is also a main source of mutations generated by mutagenic factors. The results of
our recent studies show that gene HSM3 participating in the control of adaptive mutagenesis increases the frequency of mutations induced by different mutagens.
Mutations rad18, rev3, and mms2 controlling various stages of the RAD6 pathway are epistatic with mutation hsm3 that decreases UV-induced mutagenesis to the level typical for single radiation-sensitive mutants. The level of mutagenesis
in the double mutant srs2 hsm3 was lower than in both single mutants. Note that a decrease in the level of mutagenesis relative to the single mutant srs2 depends on the mismatch repair, since this level in the triple mutant srs2 hsm3 pms1 corresponds to that in the single mutant srs2. These data show that the mutator phenotype hsm3 is probably determined by processes occurring in a D loop. In a number of current works, the protein Hsm3 was shown to participate
in the assembly of the proteasome complex S26. The assembly of proteasomes is governed by the N-terminal domain. Our results
demonstrated that the Hsm3 protein contains at least two domains; the N-terminal part of the domain is responsible for the
proteasome assembly, whereas the C-terminal portion of the protein is responsible for mutagenesis. 相似文献
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To elucidate the physiological adaptation of Escherichia coli due to cra gene knockout, a total of 3,911 gene expressions were investigated by DNA microarray for continuous culture. About 50 genes
were differentially regulated for the cra mutant. TCA cycle and glyoxylate shunt were down-regulated, while pentose phosphate (PP) pathway and Entner Doudoroff (ED)
pathway were up-regulated in the cra mutant. The glucose uptake rate and the acetate production rate were increased with less acetate consumption for the cra mutant. To identify the genes controlled by Cra protein, the Cra recognition weight matrix from foot-printing data was developed
and used to scan the whole genome. Several new Cra-binding sites were found, and some of the result was consistent with the
DNA microarray data. The ED pathway was active in the cra mutant; we constructed cra.edd double genes knockout mutant to block this pathway, where the acetate overflowed due to the down-regulation of aceA,B and icd gene expressions. Then we further constructed cra.edd.iclR triple genes knockout mutant to direct the carbon flow through the glyoxylate pathway. The cra.edd.iclR mutant showed the least acetate production, resulting in the highest cell yield together with the activation of the glycolysis
pathway, but the glucose consumption rate could not be improved.
Dayanidhi Sarkar and Khandaker Al Zaid Siddiquee have contributed equally. 相似文献
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Rosa Garcia Sanchez Bärbel Hahn-Hägerdal Marie F Gorwa-Grauslund 《Microbial cell factories》2010,9(1):40
Background
In Saccharomyces cerevisiae galactose is initially metabolized through the Leloir pathway after which glucose 6-phosphate enters glycolysis. Galactose is controlled both by glucose repression and by galactose induction. The gene PGM2 encodes the last enzyme of the Leloir pathway, phosphoglucomutase 2 (Pgm2p), which catalyses the reversible conversion of glucose 1-phosphate to glucose 6-phosphate. Overexpression of PGM2 has previously been shown to enhance aerobic growth of S. cerevisiae in galactose medium. 相似文献12.
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Asadulghani Nitta K Kaneko Y Kojima K Fukuzawa H Kosaka H Nakamoto H 《Archives of microbiology》2004,182(6):487-497
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Andrew J. Sachs Jamie K. Schwendinger Andy W. Yang Neena B. Haider Arne M. Nystuen 《Mammalian genome》2007,18(11):749-756
The identification of novel mutant alleles is important for understanding critical functional domains of a protein and establishing
genotype:phenotype correlations. The recoil wobbler (rcw) allelic series of spontaneous ataxic mutants and the ENU-induced mutant nmf373 genetically mapped to a shared region of chromosome 10. Their mutant phenotypes are strikingly similar; all have an ataxic
phenotype that is recessive, early-onset, and is not associated with neurodegeneration. In this study we used complementation
tests to show that these series of mutants are allelic to a knockout mutant of Grm1. Subsequently, a duplication of exon 4 and three missense mutations were identified in Grm1: I160T, E292D, and G337E. All mutations occurred within the ligand-binding region and changed conserved amino acids. In the
rcw mutant, the Grm1 gene is expressed and the protein product is properly localized to the molecular layer of the cerebellar cortex. Grm1 is responsible for the generation of inositol 1,4,5-trisphosphate (IP3). The inositol second messenger system is the central mechanism for calcium release from intracellular stores in cerebellar
Purkinje cells. Several of the genes involved in this pathway are mutated in mouse ataxic disorders. The novel rcw mutants represent a resource that will have utility for further studies of inositol second-messenger-system defects in neurogenetic
disorders. 相似文献