Further examination of presumptive Rhizobium trifolii mutants that nodulate Glycine max

Two recent reports described the isolation of derivatives of a Rhizobium trifolii strain that had gained the ability to nodulate Glycine max and Vigna radiata and that had demonstrated altered patterns of carbon source utilization, free-living nitrogen fixation, and hydrogen uptake. More extensive c...

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Main Authors: Ludwig, R. A., Raleigh, E. A., Duncan, M. J., Signer, E. R., Gibson, A. H., Dudman, W. F., Schwinghamer, E. A., Jordan, D. C., Schmidt, E. L., Tran, D. T.
Formato: Artigo
Idioma:Inglês
Publicado em: 1979
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Acesso em linha:https://ncbi.nlm.nih.gov/pmc/articles/PMC383952/
https://ncbi.nlm.nih.gov/pubmed/16592695
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spelling pubmed-3839522004-07-30 Further examination of presumptive Rhizobium trifolii mutants that nodulate Glycine max Ludwig, R. A. Raleigh, E. A. Duncan, M. J. Signer, E. R. Gibson, A. H. Dudman, W. F. Schwinghamer, E. A. Jordan, D. C. Schmidt, E. L. Tran, D. T. Proc Natl Acad Sci U S A Biological Sciences: Cell Biology Two recent reports described the isolation of derivatives of a Rhizobium trifolii strain that had gained the ability to nodulate Glycine max and Vigna radiata and that had demonstrated altered patterns of carbon source utilization, free-living nitrogen fixation, and hydrogen uptake. More extensive characterization of these strains now supports the conclusion that these strains are R. japonicum and are not derived from the putative parent R. trifolii. 1979-08 /pmc/articles/PMC383952/ /pubmed/16592695 Text en
institution US NLM
collection PubMed Central
language Inglês
format Artigo
topic Biological Sciences: Cell Biology
spellingShingle Biological Sciences: Cell Biology
Ludwig, R. A.
Raleigh, E. A.
Duncan, M. J.
Signer, E. R.
Gibson, A. H.
Dudman, W. F.
Schwinghamer, E. A.
Jordan, D. C.
Schmidt, E. L.
Tran, D. T.
Further examination of presumptive Rhizobium trifolii mutants that nodulate Glycine max
description Two recent reports described the isolation of derivatives of a Rhizobium trifolii strain that had gained the ability to nodulate Glycine max and Vigna radiata and that had demonstrated altered patterns of carbon source utilization, free-living nitrogen fixation, and hydrogen uptake. More extensive characterization of these strains now supports the conclusion that these strains are R. japonicum and are not derived from the putative parent R. trifolii.
author Ludwig, R. A.
Raleigh, E. A.
Duncan, M. J.
Signer, E. R.
Gibson, A. H.
Dudman, W. F.
Schwinghamer, E. A.
Jordan, D. C.
Schmidt, E. L.
Tran, D. T.
author_facet Ludwig, R. A.
Raleigh, E. A.
Duncan, M. J.
Signer, E. R.
Gibson, A. H.
Dudman, W. F.
Schwinghamer, E. A.
Jordan, D. C.
Schmidt, E. L.
Tran, D. T.
author_sort Ludwig, R. A.
title Further examination of presumptive Rhizobium trifolii mutants that nodulate Glycine max
title_short Further examination of presumptive Rhizobium trifolii mutants that nodulate Glycine max
title_full Further examination of presumptive Rhizobium trifolii mutants that nodulate Glycine max
title_fullStr Further examination of presumptive Rhizobium trifolii mutants that nodulate Glycine max
title_full_unstemmed Further examination of presumptive Rhizobium trifolii mutants that nodulate Glycine max
title_sort further examination of presumptive rhizobium trifolii mutants that nodulate glycine max
publishDate 1979
url https://ncbi.nlm.nih.gov/pmc/articles/PMC383952/
https://ncbi.nlm.nih.gov/pubmed/16592695
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