B. W. Jones
New Mexico State University
7 Papers
155 Citations
B. W. Jones is an academic researcher from New Mexico State University. The author has contributed to research in topics: SILK & Mutualism (biology). The author has an hindex of 6, co-authored 7 publications. Previous affiliations of B. W. Jones include Allergan.
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Papers
Spatial and temporal distribution of the vibrionaceae in coastal waters of Hawaii, Australia, and France.
TL;DR: This study examines how the presence of sepiolid squid hosts influences community population structure within the Vibrionaceae and finds that abiotic (temperature) and biotic (host distribution) factors both influence population dynamics.
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Population structure between environmentally transmitted vibrios and bobtail squids using nested clade analysis.
TL;DR: This study examined the variation and history of three allopatric Euprymna squid species and their respective Vibrio symbionts to highlight the importance of how interactions between symbiotic organisms can unexpectedly shape population structure in phylogeographical studies.
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An efficient system for markerless gene replacement applicable in a wide variety of enterobacterial species.
Aaron White,Emma Allen-Vercoe,B. W. Jones,Rebekah DeVinney,William W. Kay,Michael G. Surette +5 more
TL;DR: An improved allelic-exchange method for generating unmarked mutations and chromosomal DNA alterations in enterobacterial species that is simple, requiring basic laboratory materials, and represents an alternative to existing methods for gene manipulation in the Enterobacteriaceae.
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Microbial Biodiversity within the Vibrionaceae
Michele K. Nishiguchi,B. W. Jones +1 more
- 01 Jan 2004
TL;DR: The Vibrionaceae is one of 22 families within the 14 orders of the g-Proteobacteria, one of the five subdivisions of the phylum Proteobacteria within the domain Bacteria.
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Differentially expressed genes reveal adaptations between free-living and symbiotic niches of Vibrio fischeri in a fully established mutualism
B. W. Jones,M K Nishiguchi +1 more
TL;DR: These genes provide a glimpse into the microhabitat V. fischeri encounters in both free-living seawater and symbiotic host light organ-associated habitats, providing insight into the elements necessary for local adaptation and the evolution of host specificity in this unique mutualism.
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