Thiosulfate oxidation and autotrophy potential by marine prevalent heterotrophic bacteria of genus Marinobacter
The genus Marinobacter is very broadly distributed in global environments and is considered as aerobic heterotroph. In this study, six Marinobacter strains were identified with autotrophic thiosulfate oxidation capacity. These strains, namely Marinobacter guineae M3B T , Marinobacter aromaticivorans...
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Veröffentlicht in: | Acta oceanologica Sinica 2024-08, Vol.43 (8), p.89-97 |
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Sprache: | eng |
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Zusammenfassung: | The genus
Marinobacter
is very broadly distributed in global environments and is considered as aerobic heterotroph. In this study, six
Marinobacter
strains were identified with autotrophic thiosulfate oxidation capacity. These strains, namely
Marinobacter guineae
M3B
T
,
Marinobacter aromaticivorans
D15-8P
T
,
Marinobacter vulgaris
F01
T
,
Marinobacter profundi
PWS21
T
,
Marinobacter denitrificans
JB02H27
T
, and
Marinobacter
sp. ST-1M (with a 99.93% similarity to the 16S rDNA sequences of
Marinobacter salsuginis
SD-14B
T
), were screened out of 32
Marinobacter
strains by autotrophic thiosulfate oxidization medium. The population of cells grew in a chemolithotrophic medium, increasing from 10
5
cells/mL to 10
7
cells/mL within 5 d. This growth was accompanied by the consumption of thiosulfate 3.59 mmol/L to 9.64 mmol/L and the accumulation of sulfate up to 0.96 mmol/L, and occasionally produced sulfur containing complex particles. Among these
Marinobacter
strains, it was also found their capability of oxidizing thiosulfate to sulfate in a heterotrophic medium. Notably,
M. vulgaris
F01
T
and
M. antarcticus
ZS2-30
T
showed highly significant production of sulfate at 9.45 mmol/L and 3.10 mmol/L. Genome annotation indicated that these
Marinobacter
strains possess a complete Sox cluster for thiosulfate oxidation. Further phylogenetic analysis of the
sox
B gene revealed that six
Marinobacter
strains formed a separate lineage within Gammaproteobacteria and close to obligate chemolithoautotroph
Thiomicrorhabdus arctica
. The results indicated that thiosulfate oxidizing and chemolithoautotrophic potential in
Marinobacter
genus, which may contribute to the widespread of
Marinobacter
in the global ocean. |
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ISSN: | 0253-505X 1869-1099 |
DOI: | 10.1007/s13131-023-2263-x |