Metagenomic analysis of basal ice from an Alaskan glacier

Masood ur Rehman Kayani; Shawn M. Doyle; Naseer Sangwan; Guanqun Wang; Jack A. Gilbert; Brent C. Christner; Ting F. Zhu

doi:10.1186/s40168-018-0505-5

Microbiome (Jul 2018)

Metagenomic analysis of basal ice from an Alaskan glacier

Masood ur Rehman Kayani,
Shawn M. Doyle,
Naseer Sangwan,
Guanqun Wang,
Jack A. Gilbert,
Brent C. Christner,
Ting F. Zhu

Affiliations

Masood ur Rehman Kayani: School of Life Sciences, Tsinghua-Peking Joint Center for Life Sciences, Center for Synthetic and Systems Biology, Ministry of Education Key Laboratory of Bioinformatics, Tsinghua University
Shawn M. Doyle: College of Geosciences, Texas A&M University
Naseer Sangwan: Biosciences Division (BIO), Argonne National Laboratory
Guanqun Wang: School of Life Sciences, Tsinghua-Peking Joint Center for Life Sciences, Center for Synthetic and Systems Biology, Ministry of Education Key Laboratory of Bioinformatics, Tsinghua University
Jack A. Gilbert: Biosciences Division (BIO), Argonne National Laboratory
Brent C. Christner: Department of Microbiology and Cell Science, Biodiversity Institute, University of Florida
Ting F. Zhu: School of Life Sciences, Tsinghua-Peking Joint Center for Life Sciences, Center for Synthetic and Systems Biology, Ministry of Education Key Laboratory of Bioinformatics, Tsinghua University

DOI: https://doi.org/10.1186/s40168-018-0505-5
Journal volume & issue: Vol. 6, no. 1
pp. 1 – 5

Abstract

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Abstract Background Glaciers cover ~ 10% of land but are among the least explored environments on Earth. The basal portion of glaciers often harbors unique aquatic microbial ecosystems in the absence of sunlight, and knowledge on the microbial community structures and their metabolic potential is very limited. Here, we provide insights into the microbial lifestyle present at the base of the Matanuska Glacier, Alaska. Results DNA and RNA were extracted from samples of the Matanuska Glacier basal ice. Using Illumina MiSeq and HiSeq sequencing, we investigated the microbial diversity with the metagenomic shotgun reads and 16S ribosomal RNA data. We further assembled 9 partial and draft bacterial genomes from the metagenomic assembly, and identified key metabolic pathways such as sulfur oxidation and nitrification. Collectively, our analyses suggest a prevalence of lithotrophic and heterotrophic metabolisms in the subglacial microbiome. Conclusion Our results present the first metagenomic assembly and bacterial draft genomes for a subglacial environment. These results extend our understanding of the chemical and biological processes in subglacial environments critically influenced by global climate change.

Published in Microbiome

ISSN: 2049-2618 (Online)
Publisher: BMC
Country of publisher: United Kingdom
LCC subjects: Science: Microbiology: Microbial ecology
Website: https://microbiomejournal.biomedcentral.com

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