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PredicateObject
rdf:type
lifeskim:mentions
pubmed:issue
2
pubmed:dateCreated
1969-7-30
pubmed:abstractText
Polynucleotide relationships were examined among many representatives of the Enterobacteriaceae by means of agar, membrane filter, and hydroxyapatite procedures. The amount of deoxyribonucleic acid (DNA) that reassociated was dependent, especially in interspecific reactions, on the annealing temperature. In only three cases: Escherichia coli-Shigella flexneri, Salmonella typhimurium-S. typhi, and Proteus mirabilis-P. vulgaris, was relative interspecific duplex formation 80% or higher. In most cases interspecies DNA duplex formation was 40% or less of that obtained from intraspecies DNA reassociation reactions. The stability of E. coli-S. flexneri DNA duplexes formed at either 60 or 75 C was virtually identical to that of homologous E. coli DNA duplexes, and the degree of interspecies duplex formation was minimally affected by the temperature increase (86% at 60 C; 77% at 75 C). The thermal stability of DNA duplexes formed at 60 C between DNA from E. coli and DNA from strains of Aerobacter aerogenes, S. typhimurium, S. typhi, and P. mirabilis was about 12 to 14 C below that of reassociated E. coli DNA. At 75 C, the formation of the interspecific DNA duplexes was markedly decreased, but the stability of the DNA able to reassociate at this temperature approximated that of reassociated E. coli DNA. The degree of reassociation and the thermal stability of E. coli-S. flexneri DNA duplexes suggests relatively little evolutionary divergence in these organisms. The other enterobacteria tested, however, have diverged to a point where less than one-half of their DNA can reanneal with E. coli DNA at 60 C and less than 10% reacts at 75 C. The degree of divergence between various enterobacteria does not appear to be uniform along the DNA molecule. Ribosomal ribonucleic acid (RNA)-specific sequences are conserved among most enterobacteria. An examination of messenger RNA relatively specific for the lactose operon suggests that specific chromosomal genes may diverge more or less than the genome as a whole.
pubmed:commentsCorrections
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pubmed:language
eng
pubmed:journal
pubmed:citationSubset
IM
pubmed:chemical
pubmed:status
MEDLINE
pubmed:month
May
pubmed:issn
0021-9193
pubmed:author
pubmed:issnType
Print
pubmed:volume
98
pubmed:owner
NLM
pubmed:authorsComplete
Y
pubmed:pagination
637-50
pubmed:dateRevised
2010-9-13
pubmed:meshHeading
pubmed-meshheading:4891264-Carbon Isotopes, pubmed-meshheading:4891264-Chemistry, Physical, pubmed-meshheading:4891264-DNA, Bacterial, pubmed-meshheading:4891264-Enterobacter, pubmed-meshheading:4891264-Enterobacteriaceae, pubmed-meshheading:4891264-Escherichia coli, pubmed-meshheading:4891264-Hot Temperature, pubmed-meshheading:4891264-Hybridization, Genetic, pubmed-meshheading:4891264-Nucleic Acid Denaturation, pubmed-meshheading:4891264-Physicochemical Phenomena, pubmed-meshheading:4891264-Proteus, pubmed-meshheading:4891264-RNA, Bacterial, pubmed-meshheading:4891264-RNA, Messenger, pubmed-meshheading:4891264-Salmonella, pubmed-meshheading:4891264-Salmonella typhi, pubmed-meshheading:4891264-Salmonella typhimurium, pubmed-meshheading:4891264-Serratia marcescens, pubmed-meshheading:4891264-Shigella, pubmed-meshheading:4891264-Species Specificity, pubmed-meshheading:4891264-Temperature, pubmed-meshheading:4891264-Tritium, pubmed-meshheading:4891264-Uridine
pubmed:year
1969
pubmed:articleTitle
Polynucleotide sequence relationships among members of Enterobacteriaceae.
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