Anaerobic Sulfur Oxidation Underlies Adaptation of a Chemosynthetic Symbiont to Oxic-Anoxic Interfaces
Chemoautotrophic endosymbionts are famous for exploiting sulfur oxidization to feed marine organisms with fixed carbon. However, the physiology of thiotrophic bacteria thriving on the surface of animals (ectosymbionts) is less understood.
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American Society for Microbiology
2021
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oai:doaj.org-article:1c2cfe822033407b96f696dd42ba30b72021-12-02T17:42:44ZAnaerobic Sulfur Oxidation Underlies Adaptation of a Chemosynthetic Symbiont to Oxic-Anoxic Interfaces2379-507710.1128/mSystems.01186-20https://doaj.org/article/1c2cfe822033407b96f696dd42ba30b72021-06-01T00:00:00Zhttps://journals.asm.org/doi/10.1128/mSystems.01186-20https://doaj.org/toc/2379-5077 Chemoautotrophic endosymbionts are famous for exploiting sulfur oxidization to feed marine organisms with fixed carbon. However, the physiology of thiotrophic bacteria thriving on the surface of animals (ectosymbionts) is less understood.Gabriela F. ParedesTobias ViehboeckRaymond LeeMarton PalatinszkyMichaela A. MauszSiegfried ReipertArno SchintlmeisterAndreas MaierJean-Marie VollandClaudia HirschfeldMichael WagnerDavid BerryStephanie MarkertSilvia BulgheresiLena KönigAmerican Society for MicrobiologyarticleMicrobiologyQR1-502ENmSystems, Vol 6, Iss 3 (2021) |
| institution |
DOAJ |
| collection |
DOAJ |
| language |
EN |
| topic |
Microbiology QR1-502 |
| spellingShingle |
Microbiology QR1-502 Gabriela F. Paredes Tobias Viehboeck Raymond Lee Marton Palatinszky Michaela A. Mausz Siegfried Reipert Arno Schintlmeister Andreas Maier Jean-Marie Volland Claudia Hirschfeld Michael Wagner David Berry Stephanie Markert Silvia Bulgheresi Lena König Anaerobic Sulfur Oxidation Underlies Adaptation of a Chemosynthetic Symbiont to Oxic-Anoxic Interfaces |
| description |
Chemoautotrophic endosymbionts are famous for exploiting sulfur oxidization to feed marine organisms with fixed carbon. However, the physiology of thiotrophic bacteria thriving on the surface of animals (ectosymbionts) is less understood. |
| format |
article |
| author |
Gabriela F. Paredes Tobias Viehboeck Raymond Lee Marton Palatinszky Michaela A. Mausz Siegfried Reipert Arno Schintlmeister Andreas Maier Jean-Marie Volland Claudia Hirschfeld Michael Wagner David Berry Stephanie Markert Silvia Bulgheresi Lena König |
| author_facet |
Gabriela F. Paredes Tobias Viehboeck Raymond Lee Marton Palatinszky Michaela A. Mausz Siegfried Reipert Arno Schintlmeister Andreas Maier Jean-Marie Volland Claudia Hirschfeld Michael Wagner David Berry Stephanie Markert Silvia Bulgheresi Lena König |
| author_sort |
Gabriela F. Paredes |
| title |
Anaerobic Sulfur Oxidation Underlies Adaptation of a Chemosynthetic Symbiont to Oxic-Anoxic Interfaces |
| title_short |
Anaerobic Sulfur Oxidation Underlies Adaptation of a Chemosynthetic Symbiont to Oxic-Anoxic Interfaces |
| title_full |
Anaerobic Sulfur Oxidation Underlies Adaptation of a Chemosynthetic Symbiont to Oxic-Anoxic Interfaces |
| title_fullStr |
Anaerobic Sulfur Oxidation Underlies Adaptation of a Chemosynthetic Symbiont to Oxic-Anoxic Interfaces |
| title_full_unstemmed |
Anaerobic Sulfur Oxidation Underlies Adaptation of a Chemosynthetic Symbiont to Oxic-Anoxic Interfaces |
| title_sort |
anaerobic sulfur oxidation underlies adaptation of a chemosynthetic symbiont to oxic-anoxic interfaces |
| publisher |
American Society for Microbiology |
| publishDate |
2021 |
| url |
https://doaj.org/article/1c2cfe822033407b96f696dd42ba30b7 |
| work_keys_str_mv |
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1718379632529506304 |