Ontology highlight
ABSTRACT:
INSTRUMENT(S):
ORGANISM(S): Sulfurihydrogenibium
SUBMITTER:
Vaibhav Srivastava
LAB HEAD: Vincent bulone
PROVIDER: PXD004323 | Pride | 2020-05-26
REPOSITORIES: Pride
| Action | DRS | |||
|---|---|---|---|---|
| 2014YellowstoneBR1Sample1bands.mgf | Mgf | |||
| 2014YellowstoneBR2Sample1bands.mgf | Mgf | |||
| 2014YellowstoneBR3Sample1bands.mgf | Mgf | |||
| Sulfurihydrogenibium.prot.xml | Xml | |||
| YellowStoneBR1Sample1.zip | Other |
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Dong Yiran Y Sanford Robert A RA Inskeep William P WP Srivastava Vaibhav V Bulone Vincent V Fields Christopher J CJ Yau Peter M PM Sivaguru Mayandi M Ahrén Dag D Fouke Kyle W KW Weber Joseph J Werth Charles R CR Cann Isaac K IK Keating Kathleen M KM Khetani Radhika S RS Hernandez Alvaro G AG Wright Chris C Band Mark M Imai Brian S BS Fried Glenn A GA Fouke Bruce W BW
Astrobiology 20190430 12
The evolutionarily ancient Aquificales bacterium <i>Sulfurihydrogenibium</i> spp. dominates filamentous microbial mat communities in shallow, fast-flowing, and dysoxic hot-spring drainage systems around the world. In the present study, field observations of these fettuccini-like microbial mats at Mammoth Hot Springs in Yellowstone National Park are integrated with geology, geochemistry, hydrology, microscopy, and multi-omic molecular biology analyses. Strategic sampling of living filamentous mat ...[more]