Detailed Information on Publication Record
2021
Flavobacterium flabelliforme sp. nov. and Flavobacterium geliluteum sp. nov., Two Multidrug-Resistant Psychrotrophic Species Isolated From Antarctica
KRÁLOVÁ, Stanislava, Hans-Jürgen BUSSE, Matěj BEZDÍČEK, Megan SANDOVAL-POWERS, Markéta NYKRÝNOVÁ et. al.Basic information
Original name
Flavobacterium flabelliforme sp. nov. and Flavobacterium geliluteum sp. nov., Two Multidrug-Resistant Psychrotrophic Species Isolated From Antarctica
Authors
KRÁLOVÁ, Stanislava (703 Slovakia, guarantor, belonging to the institution), Hans-Jürgen BUSSE, Matěj BEZDÍČEK (203 Czech Republic, belonging to the institution), Megan SANDOVAL-POWERS, Markéta NYKRÝNOVÁ, Eva STAŇKOVÁ (203 Czech Republic, belonging to the institution), Daniel KRSEK and Ivo SEDLÁČEK (203 Czech Republic, belonging to the institution)
Edition
Frontiers in Microbiology, Frontiers Media S.A. 2021, 1664-302X
Other information
Language
English
Type of outcome
Článek v odborném periodiku
Field of Study
10606 Microbiology
Country of publisher
Switzerland
Confidentiality degree
není předmětem státního či obchodního tajemství
References:
Impact factor
Impact factor: 6.064
RIV identification code
RIV/00216224:14310/21:00122668
Organization unit
Faculty of Science
UT WoS
000716572400001
Keywords in English
Antarctica; psychrotrophic bacteria; cold-adaptation; phylogenomics; systematics; Flavobacterium flabelliforme sp. nov.; Flavobacterium geliluteum sp. nov.
Tags
International impact, Reviewed
Změněno: 10/2/2023 13:39, prof. RNDr. Ivo Sedláček, CSc.
Abstract
V originále
Despite unfavorable Antarctic conditions, such as cold temperatures, freeze-thaw cycles, high ultraviolet radiation, dryness and lack of nutrients, microorganisms were able to adapt and surprisingly thrive in this environment. In this study, eight cold-adapted Flavobacterium strains isolated from a remote Antarctic island, James Ross Island, were studied using a polyphasic taxonomic approach to determine their taxonomic position. Phylogenetic analyses based on the 16S rRNA gene and 92 core genes clearly showed that these strains formed two distinct phylogenetic clusters comprising three and five strains, with average nucleotide identities significantly below 90% between both proposed species as well as between their closest phylogenetic relatives. Phenotyping revealed a unique pattern of biochemical and physiological characteristics enabling differentiation from the closest phylogenetically related Flavobacterium spp. Chemotaxonomic analyses showed that type strains P4023T and P7388T were characterized by the major polyamine sym-homospermidine and a quinone system containing predominantly menaquinone MK-6. In the polar lipid profile phosphatidylethanolamine, an ornithine lipid and two unidentified lipids lacking a functional group were detected as major lipids. These characteristics along with fatty acid profiles confirmed that these species belong to the genus Flavobacterium. Thorough genomic analysis revealed the presence of numerous cold-inducible or cold-adaptation associated genes, such as cold-shock proteins, proteorhodopsin, carotenoid biosynthetic genes or oxidative-stress response genes. Genomes of type strains surprisingly harbored multiple prophages, with many of them predicted to be active. Genome-mining identified biosynthetic gene clusters in type strain genomes with a majority not matching any known clusters which supports further exploratory research possibilities involving these psychrotrophic bacteria. Antibiotic susceptibility testing revealed a pattern of multidrug-resistant phenotypes that were correlated with in silico antibiotic resistance prediction. Interestingly, while typical resistance finder tools failed to detect genes responsible for antibiotic resistance, genomic prediction confirmed a multidrug-resistant profile and suggested even broader resistance than tested. Results of this study confirmed and thoroughly characterized two novel psychrotrophic Flavobacterium species, for which the names Flavobacterium flabelliforme sp. nov. and Flavobacterium geliluteum sp. nov. are proposed.
Links
LM2015078, research and development project |
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