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IDENTIFICATION AND CHARACTERIZATION OF THE SINORHIZOBIUM MELILOTI CHROMOSOMAL ORIGIN OF REPLICATION AND THE REPLICATION INITIATOR DnaASibley, Christopher D. 09 1900 (has links)
DNA replication initiates at a precise location on the bacterial chromosome, the origin of replication (oriC). This work has localized the origin of DNA replication on the Sinorhizobium meliloti chromosome to a region spanning the hemE gene. A genetic dissection of the locus revealed that a much larger fragment of DNA (1802 bp) is required for a functional oriC than that of the other characterized alpha-proteobacterial chromosome origin from Caulobacter crescentus. Site-directed mutations of predicted DnaA binding sites has identified several essential elements for replication of the plasmid borne oriC. Mutations in these DnaA boxes also reduce transcription of hemE and thus it is likely that transcription of hemE and replication of the S. meliloti chromosome are coupled. The ColEl plasmid pUCP30T can autonomously replicate when the S. meliloti oriC is cloned into the suicide vector (pTH838) and can be efficiently mobilized out of S. meliloti into E. coli. The pTH838 oriC plasmid when transferred into S. meliloti results in both small and large colonies and both of these transconjugant classes take longer to form than the S.
meliloti recA::Tn5 recipient. We attributed this phenotype to the very low copy number of the pTH838 plasmid which was determined to be 0.053 - 0.135 copies per chromosome.
The DnaA protein responsible for replication initiation in many bacteria has been purified and used in electrophoretic mobility shift assays. The DnaA protein interacts specifically with sequences in the hemE - Y02793 intergenic region and upstream of the repA2 gene on the pSymA megaplasmid. The DnaA protein has also been implicated as a link between DNA replication and cell division in S. meliloti as overexpression of DnaA in both E. coll and S. meliloti results in filamentation. / Thesis / Master of Science (MSc)
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