Mark S. Wilson
Humboldt State University
13 Papers
249 Citations
Mark S. Wilson is an academic researcher from Humboldt State University. The author has contributed to research in topics: Biology & Azotobacter vinelandii. The author has an hindex of 10, co-authored 13 publications. Previous affiliations of Mark S. Wilson include Cornell University & Virginia Tech.
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Papers
Physical and genetic map of the major nif gene cluster from Azotobacter vinelandii.
Marty R. Jacobson,Kevin E. Brigle,L T Bennett,Robert Setterquist,Mark S. Wilson,Valerie L. Cash,J Beynon,William E. Newton,Dennis R. Dean +8 more
TL;DR: Determination of a 28,793-base-pair DNA sequence of a region from the Azotobacter vinelandii genome that includes and flanks the nitrogenase structural gene region was completed and this information was used to revise the previously proposed organization of the major nif cluster.
371
In Situ, Real-Time Catabolic Gene Expression: Extraction and Characterization of Naphthalene Dioxygenase mRNA Transcripts from Groundwater
TL;DR: Results are the first to directly document in situ transcription of genes encoding naphthalene catabolism at a contaminated site by indigenous microorganisms, indicating that diverse dioxygenase transcripts had been retrieved from groundwater.
186
Novel Archaea and Bacteria Dominate Stable Microbial Communities in North America’s Largest Hot Spring
Mark S. Wilson,Patricia L. Siering,Christopher L. White,Michelle E. Hauser,Andrea N. Bartles +4 more
TL;DR: Results indicate that a stable community of diverse novel microorganisms exists in Boiling Springs Lake, and reveal novel lineages devoid of cultivated representatives in the Bacterial and Archaeal domains.
42
In Situ Dynamics of Aromatic Hydrocarbons and Bacteria Capable of AH Metabolism in a Coal Tar Waste-Contaminated Field Site
TL;DR: This article used randomized block designs to assess the mobility of both coal tar-derived aromatic hydrocarbons and bacteria capable of metabolizing these substances at a contaminated field site using foam sorbent materials.
20
Microbial biogeochemistry of Boiling Springs Lake: a physically dynamic, oligotrophic, low‐pH geothermal ecosystem
Patricia L. Siering,Gordon V. Wolfe,Mark S. Wilson,A. N. Yip,C. M. Carey,Colin Wardman,R. S. Shapiro,Kenneth M. Stedman,J. E. Kyle,Tong Yuan,J. D. Van Nostrand,Zhili He,Jizhong Zhou,Jizhong Zhou +13 more
TL;DR: DNA extracted from water and sediments collected from warm and hot BSL sites suggests the importance of allochthonous C fueling heterotrophic production in the BSL C cycle, and the functional potential appears similar across a 5-year time span.