Derivation and properties of F-prime factors in Escherichia coli carrying nitrogen fixation genes from Klebsiella pneumoniae.

A His+ Nif+ Escherichia coli K12, Hfr strain (UNF43) was constructed by an intergeneric mating between a Klebsiella pneumoniae donor strain (HF3) and a his-HFR E. coli strain (SBI824) which transfers his as an early marker. An F-prime nif plasmid, FN39, carrying genes which correspond to the E. coli chromosomal region, metG gnd his shiA, but excluding purF and aroD, was isolated from UNF43. Translocation of carbenicillin resistance genes from a P-type R-factor, R68, to FN39 increased the stability of his and nif on the derivative F-prime, FN68. Sedimentation analysis of both F-primes in sucrose gradients revealed our covalently closed circular(CCC) DNA species of molecular weights 279 +/- 9, 136 +/- 3, 90 +/- 1 and 44 +/- 1 megadaltons. It is suggested that the two smallest CCC-DNA species are component replicons of the composite F-primes of molecular weight 136 +/- 3 megadaltons, and that the molecules of 279 +/- 9 megadaltons are CCC-dimers. FN68 was transferable in intergeneric matings to Klebsiella aerogenes, K. pneumoniae and Salmonella typhimurium but not to Proteus mirabilis; only carbenicillin resistance and sex factor activity were transferred to Erwinia herbicola. nif genes on FN68 were expressed in a Nif- mutant of K. pneumoniae and also in S. typhimurium, which in conventional tests is naturally non-nitrogen-fixing; expression of the his determinant of FN68 became temperature-sensitive in S. typhimurium.

[1]  S. Primrose,et al.  Chromosomal integration of Klebsiella nitrogen fixation genes in Escherichia coli. , 1974, Journal of general microbiology.

[2]  M. Voll Derivation of an F-Merogenote and a φ80 High-Frequency Transducing Phage Carrying the Histidine Operon of Salmonella , 1972, Journal of bacteriology.

[3]  S. Hill Method for exposing bacterial cultures on solid media to a defined gas mixture using nylon bags. , 1973, Laboratory practice.

[4]  E. Gurney,et al.  Transduction of the nitrogen-fixation genes in Klebsiella pneumoniae. , 1971, Proceedings of the National Academy of Sciences of the United States of America.

[5]  E. Adelberg,et al.  Linkage Analysis with Very High Frequency Males of Escherichia Coli. , 1960, Genetics.

[6]  B. D. Davis,et al.  MUTANTS OF ESCHERICHIA COLI REQUIRING METHIONINE OR VITAMIN B12 , 1950, Journal of bacteriology.

[7]  E. Gurney,et al.  The Nitrogen Fixation Genes , 1972, Nature.

[8]  K. Shanmugam,et al.  Deletion mutants of nitrogen fixation in Klebsiella pneumoniae: Mapping of a cluster of nif genes essential for nitrogenase activity , 1974 .

[9]  N. Datta,et al.  Trimethoprim R factors in enterobacteria from clinical specimens. , 1974, Journal of medical microbiology.

[10]  P. Doty,et al.  Determination of the base composition of deoxyribonucleic acid from its buoyant density in CsCl. , 1962, Journal of molecular biology.

[11]  L. Hsu,et al.  Nonchromosomal antibiotic resistance in bacteria: genetic transformation of Escherichia coli by R-factor DNA. , 1972, Proceedings of the National Academy of Sciences of the United States of America.

[12]  R. Dixon,et al.  Transfer of Nitrogen-fixation Genes by Conjugation in Klebsiella pneumoniae , 1971, Nature.

[13]  T. Blumenthal,et al.  P1 transduction: formation of heterogenotes upon cotransduction of bacterial genes with a P2 prophage. , 1972, Virology.

[14]  R. Clowes Molecular structure of bacterial plasmids , 1972, Bacteriological reviews.

[15]  B. Low,et al.  Genetic Location of Certain Mutations Conferring Recombination Deficiency in Escherichia coli , 1969, Journal of bacteriology.

[16]  B. Holloway,et al.  R-Factors used for genetic studies in strains of Pseudomonas aeruginosa and their origin , 1973 .

[17]  J. Pittard,et al.  Gene Controlling the Uptake of Shikimic Acid by Escherichia coli , 1966, Journal of bacteriology.

[18]  B. Low Formation of merodiploids in matings with a class of Rec- recipient strains of Escherichia coli K12. , 1968, Proceedings of the National Academy of Sciences of the United States of America.

[19]  R. Curtiss,et al.  Parental functions during conjugation in Escherichia coli K-12. , 1968, Bacteriological reviews.

[20]  R. Tubb Glutamine synthetase and ammonium regulation of nitrogenase synthesis in Klebsiella , 1974, Nature.

[21]  F. Bastarrachea,et al.  Genetic and physicochemical characterization of Escherichia coli strains carrying fused F' elements derived from KLF1 and F57. , 1972, Proceedings of the National Academy of Sciences of the United States of America.

[22]  H. J. Whitfield,et al.  Evidence for a Composite State of an F′his,gnd Element and a Cryptic Plasmid in a Derivative of Salmonella typhimurium LT2 , 1974, Journal of bacteriology.

[23]  P. Hartman,et al.  Histidine-requiring mutants of Escherichia coli K12. , 1970, Genetics.

[24]  A. L. Taylor,et al.  Linkage map of Escherichia coli strain K-12 , 1972, Bacteriological reviews.

[25]  D. Fraenkel,et al.  Genetic Mapping of Loci for Glucose-6-Phosphate Dehydrogenase, Gluconate-6-Phosphate Dehydrogenase, and Gluconate-6-Phosphate Dehydrase in Escherichia coli , 1968, Journal of bacteriology.

[26]  S. Primrose,et al.  Plasmids formed in nitrogen-fixing Escherichia coli-Klebsiella pneumoniae hybrids. , 1974, Journal of general microbiology.

[27]  M. Monk,et al.  TRANSFER OF THE COLICIN I FACTOR IN ESCHERICHIA COLI K12 AND ITS INTERACTION WITH THE F FERTILITY FACTOR. , 1964, Journal of general microbiology.

[28]  J. J. Child Nitrogen fixation by a Rhizobium sp. in association with non-leguminous plant cell cultures , 1975, Nature.

[29]  R. Dixon,et al.  Genetic Transfer of Nitrogen Fixation from Klebsiella pneumoniae to Escherichia coli , 1972, Nature.

[30]  A. H. Gibson,et al.  Nitrogen fixation by Rhizobium associated with tobacco and cowpea cell cultures , 1975, Nature.

[31]  J. Postgate Chapter XIII The Acetylene Reduction Test for Nitrogen Fixation , 1972 .