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Published February 28, 2017 | Supplemental Material + Published
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Origin of microbial biomineralization and magnetotaxis during the Archean

Lin, Wei
Paterson, Greig A.
Zhu, Qiyun
Wang, Yinzhao
Kopylova, Evguenia
Li, Ying
Knight, Rob ORCID icon
Bazylinski, Dennis A.
Zhu, Rixiang
Kirschvink, Joseph L. ORCID icon
Pan, Yongxin
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Abstract

Microbes that synthesize minerals, a process known as microbial biomineralization, contributed substantially to the evolution of current planetary environments through numerous important geochemical processes. Despite its geological significance, the origin and evolution of microbial biomineralization remain poorly understood. Through combined metagenomic and phylogenetic analyses of deep-branching magnetotactic bacteria from the Nitrospirae phylum, and using a Bayesian molecular clock-dating method, we show here that the gene cluster responsible for biomineralization of magnetosomes, and the arrangement of magnetosome chain(s) within cells, both originated before or near the Archean divergence between the Nitrospirae and Proteobacteria. This phylogenetic divergence occurred well before the Great Oxygenation Event. Magnetotaxis likely evolved due to environmental pressures conferring an evolutionary advantage to navigation via the geomagnetic field. Earth's dynamo must therefore have been sufficiently strong to sustain microbial magnetotaxis in the Archean, suggesting that magnetotaxis coevolved with the geodynamo over geological time.

Additional Information

© 2017 National Academy of Sciences. Freely available online through the PNAS open access option. Edited by Donald E. Canfield, Institute of Biology and Nordic Center for Earth Evolution, University of Southern Denmark, Odense M, Denmark, and approved January 10, 2017 (received for review September 3, 2016). Published ahead of print February 13, 2017, doi:10.1073/pnas.1614654114. We thank Longfei Wu for valuable comments and suggestions. W.L. and Y.P. acknowledge financial support from National Natural Science Foundation of China (NSFC) Grants 41330104, 41621004, and 41374074. W.L. acknowledges support from the Youth Innovation Promotion Association of the Chinese Academy of Sciences. G.A.P. acknowledges funding from NSFC Grants 41374072 and 41574063. D.A.B. is supported by US National Science Foundation Grant EAR-1423939. J.L.K. is supported by US National Aeronautics and Space Administration Exobiology Grant EXO14_2-0176. Author contributions: W.L., J.L.K., and Y.P. designed research; W.L. and Y.W. performed research; Q.Z. contributed new reagents/analytic tools; W.L. and Y.W. collected samples; W.L., G.A.P., and Q.Z. analyzed data; and W.L., G.A.P., Q.Z., E.K., Y.L., R.K., D.A.B., R.Z., J.L.K., and Y.P. wrote the paper. The authors declare no conflict of interest. This article is a PNAS Direct Submission. Data deposition: The draft genome of Candidatus Magnetominusculus xianensis strain HCH-1 reported in this paper has been deposited in the DNA Data Bank of Japan (DDBJ)/European Molecular Biology Laboratory (EMBL)/GenBank database (accession no. LNQR00000000; the version described in this paper is LNQR01000000). The magnetosome gene cluster-containing contigs reported in this paper have been deposited in the DDBJ/EMBL/GenBank database (accession nos. KU221504–KU221507). This article contains supporting information online at www.pnas.org/lookup/suppl/doi:10.1073/pnas.1614654114/-/DCSupplemental.

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Published - PNAS-2017-Lin-2171-6.pdf

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Supplemental Material - pnas.1614654114.st02.docx

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Supplemental Material - pnas.201614654SI.pdf

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