Brevibacillus levickii sp. nov. and Aneurinibacillus terranovensis sp. nov., two novel thermoacidophiles isolated from geothermal soils of northern Victoria Land, Antarctica

Thirteen strains of endospore-forming bacteria were isolated from geothermal soils at Cryptogam Ridge, the north-west slope of Mt Melbourne, and at the vents and summit of Mt Rittmann in northern Victoria Land, Antarctica. 16S rRNA gene sequencing, SDS-PAGE and routine phenotypic characterization te...

Full description

Bibliographic Details
Published in:International Journal of Systematic and Evolutionary Microbiology
Main Authors: Allan, R. N., Lebbe, L., Heyrman, J., De Vos, Paul, Buchanan, C. J., Logan, Niall A.
Format: Article in Journal/Newspaper
Language:English
Published: 2005
Subjects:
Antarctica
thermoacidophiles
Brevibacillus
Aneurinibacillus
Antarc*
Victoria Land
Online Access:https://researchonline.gcu.ac.uk/en/publications/f3d9b938-9f27-45ce-bd80-acad746ff01c
https://doi.org/10.1099/ijs.0.63397-0
Description
Summary:Thirteen strains of endospore-forming bacteria were isolated from geothermal soils at Cryptogam Ridge, the north-west slope of Mt Melbourne, and at the vents and summit of Mt Rittmann in northern Victoria Land, Antarctica. 16S rRNA gene sequencing, SDS-PAGE and routine phenotypic characterization tests indicated that the seven isolates from the north-west slope of Mt Melbourne represent a novel species of Brevibacillus and that the six isolates from Cryptogam Ridge and the vents and summit of Mt Rittmann represent a novel species of Aneurinibacillus. Brevibacillus strains were not isolated from the sites at Mt Rittmann or Cryptogam Ridge and Aneurinibacillus strains were not isolated from the north-west slope of Mt Melbourne. Preliminary metabolic studies revealed that L-glutamic acid, although not essential for growth, was utilized by both species. The Brevibacillus species possessed an uptake system specific for L-glutamic acid, whereas the Aneurinibacillus species possessed a more general uptake system capable of transporting other related amino acids. Both species utilized a K+ antiport system and similar energy systems for the uptake of L-glutamic acid. The rate of uptake by the Brevibacillus species type strain was 20-fold greater than that shown by the Aneurinibacillus species type strain. The names Brevibacillus levickii sp. nov. and Aneurinibacillus terranovensis sp. nov. are proposed for the novel taxa; the type strains are Logan B-1657T (=LMG 22481T=CIP 108307T) and Logan B-1599T (LMG 22483T= CIP 108308T), respectively.

Similar Items