The molecular dimension of microbial species: 2. Synechococcus strains representative of putative ecotypes inhabiting different depths in the Mushroom Spring microbial mat exhibit different adaptive and acclimative responses to light

The molecular dimension of microbial species: 2. Synechococcus strains representative of putative ecotypes inhabiting different depths in the Mushroom Spring microbial mat exhibit different adaptive and acclimative responses to light

Closely related strains of thermophilic Synechococcus were cultivated from the microbial mats found in the effluent channels of Mushroom Spring, Yellowstone National Park (YNP). These strains have identical or nearly identical 16S rRNA sequences but are representative of separate, predicted putative...

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Main Authors: Shane eNowack, Millie T. Olsen, George A. Schaible, Eric D. Becraft, Gaozhong eShen, Isaac eKlapper, Donald A. Bryant, David M. Ward
Format: Article
Language:English
Published: Frontiers Media S.A. 2015-06-01
Series:Frontiers in Microbiology
Subjects:
Cyanobacteria
Photosynthesis
light acclimation
light adaptation
Microbial species
Online Access:http://journal.frontiersin.org/Journal/10.3389/fmicb.2015.00626/full
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spelling doaj-2df7aa84241a40fabd4f1d0219556bee2020-11-25T01:07:46ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2015-06-01610.3389/fmicb.2015.00626134901The molecular dimension of microbial species: 2. Synechococcus strains representative of putative ecotypes inhabiting different depths in the Mushroom Spring microbial mat exhibit different adaptive and acclimative responses to lightShane eNowack0Millie T. Olsen1George A. Schaible2Eric D. Becraft3Gaozhong eShen4Isaac eKlapper5Isaac eKlapper6Donald A. Bryant7Donald A. Bryant8David M. Ward9Montana State UniversityMontana State UniversityMontana State UniversityMontana State UniversityThe Pennsylvania State UniversityMontana State UniversityTemple UniversityThe Pennsylvania State UniversityMontana State UniversityMontana State UniversityClosely related strains of thermophilic Synechococcus were cultivated from the microbial mats found in the effluent channels of Mushroom Spring, Yellowstone National Park (YNP). These strains have identical or nearly identical 16S rRNA sequences but are representative of separate, predicted putative ecotype populations, which were identified by using the more highly resolving psaA locus and which predominate at different vertical positions within the 1-mm-thick upper-green layer of the mat. Pyrosequencing confirmed that each strain contained a single, predominant psaA genotype. Strains differed in growth rate as a function of irradiance. A strain with a psaA genotype corresponding to a predicted putative ecotype that predominates near the mat surface grew fastest at high irradiances, whereas strains with psaA genotypes representative of predominant subsurface populations grew faster at low irradiance and exhibited greater sensitivity to abrupt shifts to high light. The high-light-adapted and low-light-adapted strains also exhibited differences in pigment content and the composition of the photosynthetic apparatus (photosystem ratio) when grown under different light intensities. Cells representative of the different strains had similar morphologies under low-light conditions, but under high-light conditions, cells of low-light-adapted strains became elongated and formed short chains of cells. Collectively, the results presented here are consistent with the hypothesis that closely related, but distinct, ecological species of Synechococcus occupy different light niches in the Mushroom Spring microbial mat and acclimate differently to changing light environments.http://journal.frontiersin.org/Journal/10.3389/fmicb.2015.00626/fullCyanobacteriaPhotosynthesislight acclimationlight adaptationMicrobial species
collection DOAJ
language English
format Article
sources DOAJ
author Shane eNowack
Millie T. Olsen
George A. Schaible
Eric D. Becraft
Gaozhong eShen
Isaac eKlapper
Isaac eKlapper
Donald A. Bryant
Donald A. Bryant
David M. Ward
spellingShingle Shane eNowack
Millie T. Olsen
George A. Schaible
Eric D. Becraft
Gaozhong eShen
Isaac eKlapper
Isaac eKlapper
Donald A. Bryant
Donald A. Bryant
David M. Ward
The molecular dimension of microbial species: 2. Synechococcus strains representative of putative ecotypes inhabiting different depths in the Mushroom Spring microbial mat exhibit different adaptive and acclimative responses to light
Frontiers in Microbiology
Cyanobacteria
Photosynthesis
light acclimation
light adaptation
Microbial species
author_facet Shane eNowack
Millie T. Olsen
George A. Schaible
Eric D. Becraft
Gaozhong eShen
Isaac eKlapper
Isaac eKlapper
Donald A. Bryant
Donald A. Bryant
David M. Ward
author_sort Shane eNowack
title The molecular dimension of microbial species: 2. Synechococcus strains representative of putative ecotypes inhabiting different depths in the Mushroom Spring microbial mat exhibit different adaptive and acclimative responses to light
title_short The molecular dimension of microbial species: 2. Synechococcus strains representative of putative ecotypes inhabiting different depths in the Mushroom Spring microbial mat exhibit different adaptive and acclimative responses to light
title_full The molecular dimension of microbial species: 2. Synechococcus strains representative of putative ecotypes inhabiting different depths in the Mushroom Spring microbial mat exhibit different adaptive and acclimative responses to light
title_fullStr The molecular dimension of microbial species: 2. Synechococcus strains representative of putative ecotypes inhabiting different depths in the Mushroom Spring microbial mat exhibit different adaptive and acclimative responses to light
title_full_unstemmed The molecular dimension of microbial species: 2. Synechococcus strains representative of putative ecotypes inhabiting different depths in the Mushroom Spring microbial mat exhibit different adaptive and acclimative responses to light
title_sort molecular dimension of microbial species: 2. synechococcus strains representative of putative ecotypes inhabiting different depths in the mushroom spring microbial mat exhibit different adaptive and acclimative responses to light
publisher Frontiers Media S.A.
series Frontiers in Microbiology
issn 1664-302X
publishDate 2015-06-01
description Closely related strains of thermophilic Synechococcus were cultivated from the microbial mats found in the effluent channels of Mushroom Spring, Yellowstone National Park (YNP). These strains have identical or nearly identical 16S rRNA sequences but are representative of separate, predicted putative ecotype populations, which were identified by using the more highly resolving psaA locus and which predominate at different vertical positions within the 1-mm-thick upper-green layer of the mat. Pyrosequencing confirmed that each strain contained a single, predominant psaA genotype. Strains differed in growth rate as a function of irradiance. A strain with a psaA genotype corresponding to a predicted putative ecotype that predominates near the mat surface grew fastest at high irradiances, whereas strains with psaA genotypes representative of predominant subsurface populations grew faster at low irradiance and exhibited greater sensitivity to abrupt shifts to high light. The high-light-adapted and low-light-adapted strains also exhibited differences in pigment content and the composition of the photosynthetic apparatus (photosystem ratio) when grown under different light intensities. Cells representative of the different strains had similar morphologies under low-light conditions, but under high-light conditions, cells of low-light-adapted strains became elongated and formed short chains of cells. Collectively, the results presented here are consistent with the hypothesis that closely related, but distinct, ecological species of Synechococcus occupy different light niches in the Mushroom Spring microbial mat and acclimate differently to changing light environments.
topic Cyanobacteria
Photosynthesis
light acclimation
light adaptation
Microbial species
url http://journal.frontiersin.org/Journal/10.3389/fmicb.2015.00626/full
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