Daniel Piñero scite author profile

Many bacterial species exhibit strong linkage disequilibrium of their chromosomal genes, which apparently indicates restricted recombination between alleles at different loci. The extent to which restricted recombination reflects limited migration between geographically isolated populations versus infrequent mixis of genotypes within populations is more difficult to determine. We examined the genetic structure of Rhizobium kguminosarum biovar phaseoli populations associated with wild and cultivated beans (Phaseolus spp.) over several spatial scales, ranging from individual host plants to throughout the Western Hemisphere. We observed significant linkage disequilibrium at scales at least as small as a cultivated plot. However, the amount of disequilibrium was much greater among isolates collected throughout the Western Hemisphere than among isolates from one area of Mexico, even when disequilibrium was quantified using an index that scales for allelic diversity. This finding suggests that limited migration between populations contributes substantially to linkage disequilibrium in Rhizobium. We also compared the genetic structure for R. leguminosarum bv. phaseoli taken from a cultivated plot with that for Escherichia colt obtained from one human host in an earlier study. Even at this frne scale, linkage disequilibrium in E. coil was very near the theoretical maximum level, whereas it was much less extreme in the local population of Rhizobium. Thus, the genetic structure for R. leguminosarum bv. phaseoli does not exclude the possibility of frequent mixis within local populations.

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Genetic structure of a soil population of nonsymbiotic Rhizobium leguminosarum

Segovia

Piñero

Palacios

et al. 1991

Appl Environ Microbiol

201

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The genetic structure of a population of nonsymbiotic Rhizobium leguminosarum strains was determined by the electrophoretic mobilities of eight metabolic enzymes. Nonsymbiotic strains were isolated from the rhizosphere of bean plants and characterized by growth on differential media and at different temperatures, intrinsic antibiotic resistances, the lack of homology to a nijH probe, and their inability to form nodules on bean roots. All the isolates clustered with R. leguminosarum bv. phaseoli reference strains and did not encompass any other Rhizobium taxa. Their rRNA operon restriction fragment length polymorphisms and the nucleotide sequence of a fragment of the 16S rRNA gene were also found to be identical to those of R. leguminosarum bv. phaseoli reference strains. When complemented with an R. leguminosarum bv. phaseoli symbiotic plasmid (p42d), the nonsymbiotic isolates were able to fix nitrogen in symbiosis with bean roots at levels similar to those of the parental strain. The symbiotic isolates were found at a relative frequency of 1 in 40 nonsymbiotic R. leguminosarum strains.

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Treefall Age Determination and Gap Dynamics in a Tropical Forest

Martı́nez-Ramos¹,

Álvarez-Buylla²,

Sarukhán³

et al. 1988

The Journal of Ecology

141

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Effects of Experimental Defoliation on Growth, Reproduction and Survival of Astrocaryum Mexicanum

Mendoza¹,

Piñero²,

Sarukhán³

1987

The Journal of Ecology

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Daniel Piñero

A Population Model of Astrocaryum Mexicanum and a Sensitivity Analysis of its Finite Rate of Increase

Hierarchical analysis of linkage disequilibrium in Rhizobium populations: evidence for sex?

Genetic structure of a soil population of nonsymbiotic Rhizobium leguminosarum

Treefall Age Determination and Gap Dynamics in a Tropical Forest

Effects of Experimental Defoliation on Growth, Reproduction and Survival of Astrocaryum Mexicanum

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