Affiliation:
1. Department of Microbiology and Cell Science, University of Florida, Kennedy Space Center, Florida 32899
Abstract
ABSTRACT
As part of an ongoing effort to catalog spore-forming bacterial populations in environments conducive to interplanetary transfer by natural impacts or by human spaceflight activities, spores of
Bacillus
spp. were isolated and characterized from the interior of near-subsurface granite rock collected from the Santa Catalina Mountains, AZ. Granite was found to contain ∼500 cultivable
Bacillus
spores and ∼10
4
total cultivable bacteria per gram. Many of the
Bacillus
isolates produced a previously unreported diffusible blue fluorescent compound. Two strains of eight tested exhibited increased spore UV resistance relative to a standard
Bacillus subtilis
UV biodosimetry strain. Fifty-six isolates were identified by repetitive extragenic palindromic PCR (rep-PCR) and 16S rRNA gene analysis as most closely related to
B. megaterium
(15 isolates),
B. simplex
(23 isolates),
B. drentensis
(6 isolates),
B. niacini
(7 isolates), and, likely, a new species related to
B. barbaricus
(5 isolates). Granite isolates were very closely related to a limited number of
Bacillus
spp. previously found to inhabit (i) globally distributed endolithic sites such as biodeteriorated murals, stone tombs, underground caverns, and rock concretions and (ii) extreme environments such as Antarctic soils, deep sea floor sediments, and spacecraft assembly facilities. Thus, it appears that the occurrence of
Bacillus
spp. in endolithic or extreme environments is not accidental but that these environments create unique niches excluding most
Bacillus
spp. but to which a limited number of
Bacillus
spp. are specifically adapted.
Publisher
American Society for Microbiology
Subject
Ecology,Applied Microbiology and Biotechnology,Food Science,Biotechnology
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