Adaptation dynamics and evolutionary rescue under sulfide selection in cyanobacteria: a comparative study between Microcystis aeruginosa and Oscillatoria sp. (cyanobacteria)

Experimental evolution studies using cyanobacteria as model organisms are scarce despite the role of cyanobacteria in the evolution of photosynthesis. Three different experimental evolution approaches have been applied to shed light on the sulfide adaptation process, which played a key role in the e...

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Veröffentlicht in:	Journal of phycology 2019-12, Vol.55 (6), p.1348-1360
Hauptverfasser:	Martín‐Clemente, Elena, Melero‐Jiménez, Ignacio J., Bañares‐España, Elena, Flores‐Moya, Antonio, García‐Sánchez, María J.
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Sprache:	eng
Schlagworte:	Adaptation Adaptation, Physiological Biological evolution Comparative analysis Comparative studies Cyanobacteria Dependence Deterioration Evolution evolutionary rescue fluctuation analysis Genetic diversity Genetic variation Microcystis Microcystis aeruginosa Mutation Oscillatoria Oscillatoria sp Photosynthesis Population genetics ratchet protocol Spas Sulfide Sulfides Sulphides Survival
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container_title	Journal of phycology
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creator	Martín‐Clemente, Elena Melero‐Jiménez, Ignacio J. Bañares‐España, Elena Flores‐Moya, Antonio García‐Sánchez, María J.
description	Experimental evolution studies using cyanobacteria as model organisms are scarce despite the role of cyanobacteria in the evolution of photosynthesis. Three different experimental evolution approaches have been applied to shed light on the sulfide adaptation process, which played a key role in the evolution of this group. We used a Microcystis aeruginosa sulfide‐sensitive strain, unable to grow above ~0.1 mM, and an Oscillatoria sp. strain, isolated from a sulfureous spa (~0.2 mM total sulfide). First, performing a fluctuation analysis design using the spa waters as selective agent, we proved that M. aeruginosa was able to adapt to this sulfide level by rare spontaneous mutations. Second, applying a ratchet protocol, we tested if the limit of adaptation to sulfide of the two taxa was dependent on their initial sulfide tolerance, finding that M. aeruginosa adapted to 0.4 mM sulfide, and Oscillatoria sp. to ~2 mM sulfide, twice it highest tolerance level. Third, using an evolutionary rescue approach, we observed that both speed of exposure to increasing sulfide concentrations (deterioration rate) and populations’ genetic variation determined the survival of M. aeruginosa at lethal sulfide levels, with a higher dependence on genetic diversity. In conclusion, sulfide adaptation of sensitive cyanobacterial strains is possible by rare spontaneous mutations and the adaptation limits depend on the sulfide level present in strain’s original habitat. The high genetic diversity of a sulfide‐sensitive strain, even at fast environmental deterioration rates, could increase its possibility of survival even to a severe sulfide stress.
doi_str_mv	10.1111/jpy.12911
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First, performing a fluctuation analysis design using the spa waters as selective agent, we proved that M. aeruginosa was able to adapt to this sulfide level by rare spontaneous mutations. Second, applying a ratchet protocol, we tested if the limit of adaptation to sulfide of the two taxa was dependent on their initial sulfide tolerance, finding that M. aeruginosa adapted to 0.4 mM sulfide, and Oscillatoria sp. to ~2 mM sulfide, twice it highest tolerance level. Third, using an evolutionary rescue approach, we observed that both speed of exposure to increasing sulfide concentrations (deterioration rate) and populations’ genetic variation determined the survival of M. aeruginosa at lethal sulfide levels, with a higher dependence on genetic diversity. In conclusion, sulfide adaptation of sensitive cyanobacterial strains is possible by rare spontaneous mutations and the adaptation limits depend on the sulfide level present in strain’s original habitat. 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(cyanobacteria)</title><title>Journal of phycology</title><addtitle>J Phycol</addtitle><description>Experimental evolution studies using cyanobacteria as model organisms are scarce despite the role of cyanobacteria in the evolution of photosynthesis. Three different experimental evolution approaches have been applied to shed light on the sulfide adaptation process, which played a key role in the evolution of this group. We used a Microcystis aeruginosa sulfide‐sensitive strain, unable to grow above ~0.1 mM, and an Oscillatoria sp. strain, isolated from a sulfureous spa (~0.2 mM total sulfide). First, performing a fluctuation analysis design using the spa waters as selective agent, we proved that M. aeruginosa was able to adapt to this sulfide level by rare spontaneous mutations. Second, applying a ratchet protocol, we tested if the limit of adaptation to sulfide of the two taxa was dependent on their initial sulfide tolerance, finding that M. aeruginosa adapted to 0.4 mM sulfide, and Oscillatoria sp. to ~2 mM sulfide, twice it highest tolerance level. Third, using an evolutionary rescue approach, we observed that both speed of exposure to increasing sulfide concentrations (deterioration rate) and populations’ genetic variation determined the survival of M. aeruginosa at lethal sulfide levels, with a higher dependence on genetic diversity. In conclusion, sulfide adaptation of sensitive cyanobacterial strains is possible by rare spontaneous mutations and the adaptation limits depend on the sulfide level present in strain’s original habitat. The high genetic diversity of a sulfide‐sensitive strain, even at fast environmental deterioration rates, could increase its possibility of survival even to a severe sulfide stress.</description><subject>Adaptation</subject><subject>Adaptation, Physiological</subject><subject>Biological evolution</subject><subject>Comparative analysis</subject><subject>Comparative studies</subject><subject>Cyanobacteria</subject><subject>Dependence</subject><subject>Deterioration</subject><subject>Evolution</subject><subject>evolutionary rescue</subject><subject>fluctuation analysis</subject><subject>Genetic diversity</subject><subject>Genetic variation</subject><subject>Microcystis</subject><subject>Microcystis aeruginosa</subject><subject>Mutation</subject><subject>Oscillatoria</subject><subject>Oscillatoria sp</subject><subject>Photosynthesis</subject><subject>Population genetics</subject><subject>ratchet protocol</subject><subject>Spas</subject><subject>Sulfide</subject><subject>Sulfides</subject><subject>Sulphides</subject><subject>Survival</subject><issn>0022-3646</issn><issn>1529-8817</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2019</creationdate><recordtype>article</recordtype><sourceid>EIF</sourceid><recordid>eNp1kU1rFDEYx4Modq0e_AIS8NIeZpsnmZeNt1LqG5V60IOnkE2ekSwzyZhMWuZD-R3N7lZBwVwC4Zff8_In5CWwNZRzsZuWNXAJ8IisoOGy2myge0xWjHFeibZuT8izlHaMsa5t4Ck5ESCkaBlfkZ-XVk-znl3w1C5ej84kqr2leBeGvH_WcaERk8lIs7cYacpD7yzShAOaw0fnqVm0D1ttZoxOv6GamjBOOhbxXSHnbBe6xfke0dNPzsRgljS7Uglj_u58SPpQ9DYZNwx6DkVC07SmZ395z5-TJ70eEr54uE_J17fXX67eVze37z5cXd5URjQCKsCmDNpL3etmC7YWG8uFtCi4rm3bctYZNDUrq7O97KWUdQeNlZzVXS1414pTcnb0TjH8yJhmNbpksLTmMeSkOO8YA9k0UNDX_6C7kKMv3SkuQLaitLKnzo9UGT2liL2aohvLahUwtc9QlQzVIcPCvnow5u2I9g_5O7QCXByBezfg8n-T-vj521H5Cy2jqMc</recordid><startdate>201912</startdate><enddate>201912</enddate><creator>Martín‐Clemente, Elena</creator><creator>Melero‐Jiménez, Ignacio J.</creator><creator>Bañares‐España, Elena</creator><creator>Flores‐Moya, Antonio</creator><creator>García‐Sánchez, María J.</creator><general>Wiley Subscription Services, Inc</general><scope>CGR</scope><scope>CUY</scope><scope>CVF</scope><scope>ECM</scope><scope>EIF</scope><scope>NPM</scope><scope>AAYXX</scope><scope>CITATION</scope><scope>7TN</scope><scope>F1W</scope><scope>H95</scope><scope>L.G</scope><scope>M7N</scope><scope>7X8</scope><orcidid>https://orcid.org/0000-0002-0365-6377</orcidid></search><sort><creationdate>201912</creationdate><title>Adaptation dynamics and evolutionary rescue under sulfide selection in cyanobacteria: a comparative study between Microcystis aeruginosa and Oscillatoria sp. 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(cyanobacteria)</atitle><jtitle>Journal of phycology</jtitle><addtitle>J Phycol</addtitle><date>2019-12</date><risdate>2019</risdate><volume>55</volume><issue>6</issue><spage>1348</spage><epage>1360</epage><pages>1348-1360</pages><issn>0022-3646</issn><eissn>1529-8817</eissn><abstract>Experimental evolution studies using cyanobacteria as model organisms are scarce despite the role of cyanobacteria in the evolution of photosynthesis. Three different experimental evolution approaches have been applied to shed light on the sulfide adaptation process, which played a key role in the evolution of this group. We used a Microcystis aeruginosa sulfide‐sensitive strain, unable to grow above ~0.1 mM, and an Oscillatoria sp. strain, isolated from a sulfureous spa (~0.2 mM total sulfide). First, performing a fluctuation analysis design using the spa waters as selective agent, we proved that M. aeruginosa was able to adapt to this sulfide level by rare spontaneous mutations. Second, applying a ratchet protocol, we tested if the limit of adaptation to sulfide of the two taxa was dependent on their initial sulfide tolerance, finding that M. aeruginosa adapted to 0.4 mM sulfide, and Oscillatoria sp. to ~2 mM sulfide, twice it highest tolerance level. Third, using an evolutionary rescue approach, we observed that both speed of exposure to increasing sulfide concentrations (deterioration rate) and populations’ genetic variation determined the survival of M. aeruginosa at lethal sulfide levels, with a higher dependence on genetic diversity. In conclusion, sulfide adaptation of sensitive cyanobacterial strains is possible by rare spontaneous mutations and the adaptation limits depend on the sulfide level present in strain’s original habitat. 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subjects	Adaptation Adaptation, Physiological Biological evolution Comparative analysis Comparative studies Cyanobacteria Dependence Deterioration Evolution evolutionary rescue fluctuation analysis Genetic diversity Genetic variation Microcystis Microcystis aeruginosa Mutation Oscillatoria Oscillatoria sp Photosynthesis Population genetics ratchet protocol Spas Sulfide Sulfides Sulphides Survival
title	Adaptation dynamics and evolutionary rescue under sulfide selection in cyanobacteria: a comparative study between Microcystis aeruginosa and Oscillatoria sp. (cyanobacteria)
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