Conserved Plasmid Hydrogen-Uptake (hup)-Specific Sequences within Hup+Rhizobium leguminosarum Strains

Thirteen Rhizobium leguminosarum strains previously reported as H₂-uptake hydrogenase positive (Hup⁺) or negative (Hup⁻) were analyzed for the presence and conservation of DNA sequences homologous to cloned Bradyrhizobium japonicum hup-specific DNA from cosmid pHU1 (M. A. Cantrell, R. A. Haugland, and H. J. Evans, Proc. Natl. Acad. Sci. USA 80:181-185, 1983). The Hup phenotype of these strains was reexamined by determining hydrogenase activity induced in bacteroids from pea nodules. Five strains, including H₂ oxidation-ATP synthesis-coupled and -uncoupled strains, induced significant rates of H₂-uptake hydrogenase activity and contained DNA sequences homologous to three probe DNA fragments (5.9-kilobase kb] HindIII, 2.9-kb EcoRI, and 5.0-kb EcoRI) from pHU1. The pattern of genomic DNA HindIII and EcoRI fragments with significant homology to each of the three probes was identical in all five strains regardless of the H₂-dependent ATP generation trait. The restriction fragments containing the homology totalled about 22 kb of DNA common to the five strains. In all instances the putative hup sequences were located on a plasmid that also contained nif genes. The molecular sizes of the identified hup-sym plasmids ranged between 184 and 212 megadaltons. No common DNA sequences homologous to B. japonicum hup DNA were found in genomic DNA from any of the eight remaining strains showing no significant hydrogenase activity in pea bacteroids. These results suggest that the identified DNA region contains genes essential for hydrogenase activity in R. leguminosarum and that its organization is highly conserved within Hup⁺ strains in this symbiotic species.