Estimated minimal divergence times of the major bacterial and archaeal phyla

Peter P. Sheridan; Katherine H. Freeman; Jean E. Brenchley

doi:10.1080/01490450303891

Estimated minimal divergence times of the major bacterial and archaeal phyla

Peter P. Sheridan, Katherine H. Freeman, Jean E. Brenchley

Geosciences

Research output: Contribution to journal › Article › peer-review

58 Scopus citations

Abstract

Previous calibrations of prokaryotic phylogenetic events were based on the vertebrate fossil record because a detailed microbial fossil record does not exist. Recently, compounds (2-methylhopanoids) that are found in cyanobacterial membranes were identified among compounds extracted from late Archean sedimentary rocks. These lipids establish a minimum time, 2.65 Ga (Billion Years Ago), in the geologic record for the existence of cyanobacteria. We have used this new information to calibrate a Neighbor Joining distance tree generated from SSU rRNA sequences of major prokaryotic lineages and to estimate the dates for significant events in the history of life on Earth. The results suggest that the Last Common Ancestor occurred at about 4.29 Ga and that the individual Bacterial and Archaeal Domains began radiating about 3.46 Ga.

Original language	English (US)
Pages (from-to)	1-14
Number of pages	14
Journal	Geomicrobiology Journal
Volume	20
Issue number	1
DOIs	https://doi.org/10.1080/01490450303891
State	Published - Jan 2003

All Science Journal Classification (ASJC) codes

Microbiology
Environmental Chemistry
Environmental Science(all)
Earth and Planetary Sciences (miscellaneous)

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10.1080/01490450303891

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title = "Estimated minimal divergence times of the major bacterial and archaeal phyla",

abstract = "Previous calibrations of prokaryotic phylogenetic events were based on the vertebrate fossil record because a detailed microbial fossil record does not exist. Recently, compounds (2-methylhopanoids) that are found in cyanobacterial membranes were identified among compounds extracted from late Archean sedimentary rocks. These lipids establish a minimum time, 2.65 Ga (Billion Years Ago), in the geologic record for the existence of cyanobacteria. We have used this new information to calibrate a Neighbor Joining distance tree generated from SSU rRNA sequences of major prokaryotic lineages and to estimate the dates for significant events in the history of life on Earth. The results suggest that the Last Common Ancestor occurred at about 4.29 Ga and that the individual Bacterial and Archaeal Domains began radiating about 3.46 Ga.",

author = "Sheridan, {Peter P.} and Freeman, {Katherine H.} and Brenchley, {Jean E.}",

note = "Funding Information: We thank our laboratory coworkers for suggestions and helpful discussions. This work was supported by Department of Energy Grant to J.E.B. P.P.S. has also been supported by an Alfred P. Sloan Foundation Fellowship in Molecular Evolution from the National Science Foundation and partial funding from the Penn State Astrobiology Center and NSF/IGERT for Biogeochemical Research Initiative for Education (BRIE). Support was also provided by NSF-EAR to K.H.F.",

year = "2003",

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doi = "10.1080/01490450303891",

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AU - Sheridan, Peter P.

AU - Freeman, Katherine H.

AU - Brenchley, Jean E.

N1 - Funding Information: We thank our laboratory coworkers for suggestions and helpful discussions. This work was supported by Department of Energy Grant to J.E.B. P.P.S. has also been supported by an Alfred P. Sloan Foundation Fellowship in Molecular Evolution from the National Science Foundation and partial funding from the Penn State Astrobiology Center and NSF/IGERT for Biogeochemical Research Initiative for Education (BRIE). Support was also provided by NSF-EAR to K.H.F.

PY - 2003/1

Y1 - 2003/1

N2 - Previous calibrations of prokaryotic phylogenetic events were based on the vertebrate fossil record because a detailed microbial fossil record does not exist. Recently, compounds (2-methylhopanoids) that are found in cyanobacterial membranes were identified among compounds extracted from late Archean sedimentary rocks. These lipids establish a minimum time, 2.65 Ga (Billion Years Ago), in the geologic record for the existence of cyanobacteria. We have used this new information to calibrate a Neighbor Joining distance tree generated from SSU rRNA sequences of major prokaryotic lineages and to estimate the dates for significant events in the history of life on Earth. The results suggest that the Last Common Ancestor occurred at about 4.29 Ga and that the individual Bacterial and Archaeal Domains began radiating about 3.46 Ga.

AB - Previous calibrations of prokaryotic phylogenetic events were based on the vertebrate fossil record because a detailed microbial fossil record does not exist. Recently, compounds (2-methylhopanoids) that are found in cyanobacterial membranes were identified among compounds extracted from late Archean sedimentary rocks. These lipids establish a minimum time, 2.65 Ga (Billion Years Ago), in the geologic record for the existence of cyanobacteria. We have used this new information to calibrate a Neighbor Joining distance tree generated from SSU rRNA sequences of major prokaryotic lineages and to estimate the dates for significant events in the history of life on Earth. The results suggest that the Last Common Ancestor occurred at about 4.29 Ga and that the individual Bacterial and Archaeal Domains began radiating about 3.46 Ga.

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Estimated minimal divergence times of the major bacterial and archaeal phyla

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