Showing papers by "Richard K. Wilson published in 2000"
TL;DR: The Escherichia coli K-12 genome was compared with the sampled genomes of the sibling species Salmonella enterica serovars Typhimurium, Typhi and Paratyphi A and the genome of the close outgroup Klebsiella pneumoniae and a hypothetical ancestral state of genomic regions that differ between ECO and SAL cannot be inferred from the present data.
Abstract: The Escherichia coli K-12 genome (ECO) was compared with the sampled genomes of the sibling species Salmonella enterica serovars Typhimurium, Typhi and Paratyphi A (collectively referred to as SAL) and the genome of the close outgroup Klebsiella pneumoniae (KPN). There are at least 160 locations where sequences of >400 bp are absent from ECO but present in the genomes of all three SAL and 394 locations where sequences are present in ECO but close homologs are absent in all SAL genomes. The 394 sequences in ECO that do not occur in SAL contain 1350 (30.6%) of the 4405 ECO genes. Of these, 1165 are missing from both SAL and KPN. Most of the 1165 genes are concentrated within 28 regions of 10-40 kb, which consist almost exclusively of such genes. Among these regions were six that included previously identified cryptic phage. A hypothetical ancestral state of genomic regions that differ between ECO and SAL can be inferred in some cases by reference to the genome structure in KPN and the more distant relative Yersinia pestis. However, many changes between ECO and SAL are concentrated in regions where all four genera have a different structure. The rate of gene insertion and deletion is sufficiently high in these regions that the ancestral state of the ECO/SAL lineage cannot be inferred from the present data. The sequencing of other closely related genomes, such as S.bongori or Citrobacter, may help in this regard.
114 citations
TL;DR: The generated sequence reveals the precise architecture of genes residing near CFTR/Cftr, including one known gene (WNT2/Wnt2) and two previously unknown genes that immediately flank CFTR or Cftr.
Abstract: The identification of the cystic fibrosis transmembrane conductance regulator gene (CFTR) in 1989 represents a landmark accomplishment in human genetics. Since that time, there have been numerous advances in elucidating the function of the encoded protein and the physiological basis of cystic fibrosis. However, numerous areas of cystic fibrosis biology require additional investigation, some of which would be facilitated by information about the long-range sequence context of the CFTR gene. For example, the latter might provide clues about the sequence elements responsible for the temporal and spatial regulation of CFTR expression. We thus sought to establish the sequence of the chromosomal segments encompassing the human CFTR and mouse Cftr genes, with the hope of identifying conserved regions of biologic interest by sequence comparison. Bacterial clone-based physical maps of the relevant human and mouse genomic regions were constructed, and minimally overlapping sets of clones were selected and sequenced, eventually yielding ≈1.6 Mb and ≈358 kb of contiguous human and mouse sequence, respectively. These efforts have produced the complete sequence of the ≈189-kb and ≈152-kb segments containing the human CFTR and mouse Cftr genes, respectively, as well as significant amounts of flanking DNA. Analyses of the resulting data provide insights about the organization of the CFTR/Cftr genes and potential sequence elements regulating their expression. Furthermore, the generated sequence reveals the precise architecture of genes residing near CFTR/Cftr, including one known gene (WNT2/Wnt2) and two previously unknown genes that immediately flank CFTR/Cftr.
81 citations
TL;DR: The results suggest that the DQB1*0303 allele increases the risk for invasive cervical cancer in women who are HPV-positive, indicating that HLA alleles are not associated with susceptibility to HPV infection.
28 citations
Patent•
09 Mar 2000
TL;DR: A genomic DNA microarray chip is constructed with an ordered, tiled array of oligonucleotide genomic DNA clones having minimally overlapping sequences in a sequence that mimics the selected genome as mentioned in this paper.
Abstract: A genomic DNA microarray chip is constructed with an ordered, tiled array of oligonucleotide genomic DNA clones having minimally overlapping sequences in a sequence that mimics the selected genome. These genomic DNA microarray chips are used as a tool for visual transcription profiling and visual gene mapping.
8 citations
TL;DR: The authors' development of a modification to the commercially available upgrade from Perkin-Elmer Biosystems, which entailed providing external control of the CCD camera and collecting the data with a data acquisition card installed in a separate Windows 95 operated machine is described.
Abstract: Rather than wait for the instrument manufacturer to provide 96-lane-per-gel capability, the authors decided to further develop a modification proposed by Clark Tibbetts in 1997, which entailed providing external control of the CCD camera and collecting the data with a data acquisition (Daq) card installed in a separate Windows 95 operated machine. Ideally, this combination could be used to select any desired per-scan pixel density with a corresponding lane density on the gel. In practice, the authors aimed to increase the lane density on model 377 gels to 96, since this number exactly matches the sample batch size the authors currently employ. This article describes the authors' development of such capability, including results that compare their modification to the commercially available upgrade from Perkin-Elmer Biosystems introduced during their development work.
1 citations