genomic DNA

About: genomic DNA is a research topic. Over the lifetime, 15046 publications have been published within this topic receiving 663636 citations. The topic is also known as: genomic deoxyribonucleic acid & gDNA.

Pathogenicity island sequences of pyelonephritogenic Escherichia coli CFT073 are associated with virulent uropathogenic strains.

Abstract: Urinary tract infection is the most frequently diagnosed kidney and urologic disease, and Escherichia coli is by far the most common etiologic agent. Defined blocks of DNA termed pathogenicity islands have been found in uropathogenic strains to carry genes not generally found in fecal strains. We have identified one of these regions of DNA within the chromosome of the highly virulent E. coli CFT073, isolated from the blood and urine of a woman with acute pyelonephritis. This strain, which is cytotoxic for cultured renal cells and causes acute pyelonephritis in transurethrally infected CBA mice, contains two distinct copies of the pap operon and is hemolytic. One pap operon was localized on a cosmid clone which was used to identify three overlapping cosmid clones. By using restriction mapping, DNA hybridization, sequencing, and PCR amplification, a region of approximately 50 kb was found to be present in this uropathogenic strain and to have no corresponding sequences in E. coli K-12. This gene block also carries hemolysin genes hlyCABD. The pathogenicity island begins 7 bp downstream of dadX (catabolic alanine racemase; 26.55 min) and ends at a position in the K-12 genome 75 bp downstream of the metV tRNA gene (62.74 min); this suggests that a chromosomal rearrangement has occurred relative to the K-12 linkage map. The junctions of the pathogenicity island were verified by PCR amplification directly from the genomic DNA of strain CFT073. DNA sequencing within the boundaries of the junctions revealed genes not previously identified in E. coli or in some cases bearing no known homologs. When used as probes for DNA hybridization, these sequences were found significantly more often in strains associated with the clinical syndromes of cystitis (82%) and acute pyelonephritis (79%) than in fecal strains (19%; P < 0.001).

Rapid and sensitive detection of mycobacterium leprae using a nested-primer gene amplification assay

Abstract: By using a set of four nested oligonucleotide primers, a two-step polymerase chain reaction assay for the detection and identification of Mycobacterium leprae that does not require the use of radioactivity labeled hybridization probes was developed. The nested-primer procedure amplified a 347-base-pair product from M. leprae genomic DNA. No amplification products were produced from DNAs of 19 other Mycobacterium species, 19 non-Mycobacterium species, mouse cells, or human cells. Minor amplification products were observed with three additional Mycobacterium species, i.e., "M. lufu", M. simiae, and M. smegmatis. These products were easily distinguished from the M. leprae product by size and restriction enzyme cleavage patterns. The assay could amplify the 347-base-pair product from samples containing as little as 3 fg of M. leprae genomic DNA--the amount of DNA in a single bacillus. The assay also amplified target sequences in crude lysates of M. leprae bacilli isolated from tissue biopsy specimens from infected animals and humans. The entire assay, from sample preparation to data analysis, can be completed in less than 8 h. Images

Structure of a family of rat amylase genes

Abstract: The sequences of two cloned rat pancreatic amylase cDNAs comprising 95% of the mRNA sequence are reported. Analysis of cloned rat genomic DNA fragments using cloned cDNA probes indicates that the rat genome contains multiple closely related amylase genes in which the cDNA sequences are distributed within a region 9 kilobases in length and are interrupted by at least seven intervening sequences.

Identification of p53 target genes through immune selection of genomic dna: the cyclin g gene contains two distinct p53 binding sites

Abstract: An immune-selection procedure was employed in order to isolate p53-binding sites from rat genomic DNA. One such site was found to reside within the first intron of the cyclin G gene. Cyclin G mRNA levels are strongly elevated upon induction of wild type p53 activity in cells carrying a temperature sensitive p53 mutant. The cyclin G gene also carries a second p53-binding motif upstream to its transcriptional start site. The presence of two high affinity p53-binding sites may confer upon the cyclin G gene the potential to be activated very efficiently by p53. These data raise the possibility that cyclin G may be a downstream mediator of at least some of the biological effects of p53.