Identification and mapping of genes associated with salt tolerance in tilapia
Identifieur interne : 000E78 ( Istex/Corpus ); précédent : 000E77; suivant : 000E79Identification and mapping of genes associated with salt tolerance in tilapia
Auteurs : A. H. Rengmark ; A. Slettan ; W. J. Lee ; Lie ; F. LingaasSource :
- Journal of Fish Biology [ 0022-1112 ] ; 2007-12.
English descriptors
Abstract
This paper describes the finding of genes displaying differential expression in Nile tilapia (Oreochromis niloticus) adapted to saltwater and discusses their potential involvement in saltwater tolerance. The availability of fresh water is severely limited in many countries; therefore, the use of brackish‐water areas may present an opportunity to expand the tilapia aquaculture industry. Increased knowledge of genes involved in saltwater tolerance will facilitate selection for this trait in tilapia. A set of fish from four different families of Nile tilapia was divided into two freshwater containers, the different families equally represented in the two experimental groups, and salinity was gradually increased in one of them. A differential expression study identified a number of genes expressed differently in saltwater and fresh water. Based on these expression analyses and on a judgement of potential candidate genes probably to be involved in adaptation to changes in salinity, four genes were selected and their levels of expression further analysed by real‐time polymerase chain reaction. The selected genes beta haemoglobin, Ca2+ transporting plasma membrane ATPase, pro‐opiomelanocortin and beta‐actin showed changes in expression. The genes were mapped and assigned to an already existing, high‐resolution linkage map.
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DOI: 10.1111/j.1095-8649.2007.01664.x
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ISTEX:E75272F95D392531A0030E428C8979E84F61DB36Le document en format XML
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Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</mods:affiliation></affiliation></author><author><name sortKey="Lee, W J" sort="Lee, W J" uniqKey="Lee W" first="W. J." last="Lee">W. J. Lee</name><affiliation><mods:affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</mods:affiliation></affiliation></author><author><name sortKey="Lie, " sort="Lie, " uniqKey="Lie " first="" last="Lie"> Lie</name><affiliation><mods:affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. 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Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</mods:affiliation></affiliation><affiliation><mods:affiliation>E-mail: frode.lingaas@veths.no</mods:affiliation></affiliation></author></titleStmt><publicationStmt><idno type="wicri:source">ISTEX</idno><idno type="RBID">ISTEX:E75272F95D392531A0030E428C8979E84F61DB36</idno><date when="2007" year="2007">2007</date><idno type="doi">10.1111/j.1095-8649.2007.01664.x</idno><idno type="url">https://api.istex.fr/document/E75272F95D392531A0030E428C8979E84F61DB36/fulltext/pdf</idno><idno type="wicri:Area/Istex/Corpus">000E78</idno><idno type="wicri:explorRef" wicri:stream="Istex" wicri:step="Corpus" wicri:corpus="ISTEX">000E78</idno></publicationStmt><sourceDesc><biblStruct><analytic><title level="a" type="main" xml:lang="en">Identification and mapping of genes associated with salt tolerance in tilapia</title><author><name sortKey="Rengmark, A H" sort="Rengmark, A H" uniqKey="Rengmark A" first="A. H." last="Rengmark">A. H. Rengmark</name><affiliation><mods:affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</mods:affiliation></affiliation></author><author><name sortKey="Slettan, A" sort="Slettan, A" uniqKey="Slettan A" first="A." last="Slettan">A. Slettan</name><affiliation><mods:affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</mods:affiliation></affiliation></author><author><name sortKey="Lee, W J" sort="Lee, W J" uniqKey="Lee W" first="W. J." last="Lee">W. J. Lee</name><affiliation><mods:affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</mods:affiliation></affiliation></author><author><name sortKey="Lie, " sort="Lie, " uniqKey="Lie " first="" last="Lie"> Lie</name><affiliation><mods:affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</mods:affiliation></affiliation></author><author><name sortKey="Lingaas, F" sort="Lingaas, F" uniqKey="Lingaas F" first="F." last="Lingaas">F. Lingaas</name><affiliation><mods:affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</mods:affiliation></affiliation><affiliation><mods:affiliation>E-mail: frode.lingaas@veths.no</mods:affiliation></affiliation></author></analytic><monogr></monogr><series><title level="j">Journal of Fish Biology</title><idno type="ISSN">0022-1112</idno><idno type="eISSN">1095-8649</idno><imprint><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2007-12">2007-12</date><biblScope unit="volume">71</biblScope><biblScope unit="supplement">sc</biblScope><biblScope unit="page" from="409">409</biblScope><biblScope unit="page" to="422">422</biblScope></imprint><idno type="ISSN">0022-1112</idno></series><idno type="istex">E75272F95D392531A0030E428C8979E84F61DB36</idno><idno type="DOI">10.1111/j.1095-8649.2007.01664.x</idno><idno type="ArticleID">JFB1664</idno></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0022-1112</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Nile tilapia</term><term>Oreochromis niloticus</term><term>differentially expressed genes</term><term>saltwater tolerance</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">This paper describes the finding of genes displaying differential expression in Nile tilapia (Oreochromis niloticus) adapted to saltwater and discusses their potential involvement in saltwater tolerance. The availability of fresh water is severely limited in many countries; therefore, the use of brackish‐water areas may present an opportunity to expand the tilapia aquaculture industry. Increased knowledge of genes involved in saltwater tolerance will facilitate selection for this trait in tilapia. A set of fish from four different families of Nile tilapia was divided into two freshwater containers, the different families equally represented in the two experimental groups, and salinity was gradually increased in one of them. A differential expression study identified a number of genes expressed differently in saltwater and fresh water. Based on these expression analyses and on a judgement of potential candidate genes probably to be involved in adaptation to changes in salinity, four genes were selected and their levels of expression further analysed by real‐time polymerase chain reaction. 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Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</json:string></affiliations></json:item><json:item><name>W. J. Lee</name><affiliations><json:string>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</json:string></affiliations></json:item><json:item><name>Ø. Lie</name><affiliations><json:string>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</json:string></affiliations></json:item><json:item><name>F. Lingaas</name><affiliations><json:string>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</json:string><json:string>E-mail: frode.lingaas@veths.no</json:string></affiliations></json:item></author><subject><json:item><lang><json:string>eng</json:string></lang><value>differentially expressed genes</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>Nile tilapia</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>Oreochromis niloticus</value></json:item><json:item><lang><json:string>eng</json:string></lang><value>saltwater tolerance</value></json:item></subject><articleId><json:string>JFB1664</json:string></articleId><language><json:string>eng</json:string></language><originalGenre><json:string>article</json:string></originalGenre><abstract>This paper describes the finding of genes displaying differential expression in Nile tilapia (Oreochromis niloticus) adapted to saltwater and discusses their potential involvement in saltwater tolerance. The availability of fresh water is severely limited in many countries; therefore, the use of brackish‐water areas may present an opportunity to expand the tilapia aquaculture industry. Increased knowledge of genes involved in saltwater tolerance will facilitate selection for this trait in tilapia. A set of fish from four different families of Nile tilapia was divided into two freshwater containers, the different families equally represented in the two experimental groups, and salinity was gradually increased in one of them. A differential expression study identified a number of genes expressed differently in saltwater and fresh water. Based on these expression analyses and on a judgement of potential candidate genes probably to be involved in adaptation to changes in salinity, four genes were selected and their levels of expression further analysed by real‐time polymerase chain reaction. The selected genes beta haemoglobin, Ca2+ transporting plasma membrane ATPase, pro‐opiomelanocortin and beta‐actin showed changes in expression. 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H.</forename><surname>Rengmark</surname></persName><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation></author><author xml:id="author-2"><persName><forename type="first">A.</forename><surname>Slettan</surname></persName><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation></author><author xml:id="author-3"><persName><forename type="first">W. J.</forename><surname>Lee</surname></persName><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation></author><author xml:id="author-4"><persName><forename type="first">Ø.</forename><surname>Lie</surname></persName><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation></author><author xml:id="author-5"><persName><forename type="first">F.</forename><surname>Lingaas</surname></persName><email>frode.lingaas@veths.no</email><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation></author></analytic><monogr><title level="j">Journal of Fish Biology</title><idno type="pISSN">0022-1112</idno><idno type="eISSN">1095-8649</idno><idno type="DOI">10.1111/(ISSN)1095-8649</idno><imprint><publisher>Blackwell Publishing Ltd</publisher><pubPlace>Oxford, UK</pubPlace><date type="published" when="2007-12"></date><biblScope unit="volume">71</biblScope><biblScope unit="supplement">sc</biblScope><biblScope unit="page" from="409">409</biblScope><biblScope unit="page" to="422">422</biblScope></imprint></monogr><idno type="istex">E75272F95D392531A0030E428C8979E84F61DB36</idno><idno type="DOI">10.1111/j.1095-8649.2007.01664.x</idno><idno type="ArticleID">JFB1664</idno></biblStruct></sourceDesc></fileDesc><profileDesc><creation><date>2007</date></creation><langUsage><language ident="en">en</language></langUsage><abstract xml:lang="en"><p>This paper describes the finding of genes displaying differential expression in Nile tilapia (Oreochromis niloticus) adapted to saltwater and discusses their potential involvement in saltwater tolerance. The availability of fresh water is severely limited in many countries; therefore, the use of brackish‐water areas may present an opportunity to expand the tilapia aquaculture industry. Increased knowledge of genes involved in saltwater tolerance will facilitate selection for this trait in tilapia. A set of fish from four different families of Nile tilapia was divided into two freshwater containers, the different families equally represented in the two experimental groups, and salinity was gradually increased in one of them. A differential expression study identified a number of genes expressed differently in saltwater and fresh water. Based on these expression analyses and on a judgement of potential candidate genes probably to be involved in adaptation to changes in salinity, four genes were selected and their levels of expression further analysed by real‐time polymerase chain reaction. The selected genes beta haemoglobin, Ca2+ transporting plasma membrane ATPase, pro‐opiomelanocortin and beta‐actin showed changes in expression. 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H.</givenNames><familyName>Rengmark</familyName></personName></creator><creator creatorRole="author" xml:id="cr2" affiliationRef="#aff-1-1"><personName><givenNames>A.</givenNames><familyName>Slettan</familyName></personName></creator><creator creatorRole="author" xml:id="cr3" affiliationRef="#aff-1-1"><personName><givenNames>W. J.</givenNames><familyName>Lee</familyName></personName></creator><creator creatorRole="author" xml:id="cr4" affiliationRef="#aff-1-1"><personName><givenNames>Ø.</givenNames><familyName>Lie</familyName></personName></creator><creator creatorRole="author" xml:id="cr5" affiliationRef="#aff-1-1" corresponding="yes"><personName><givenNames>F.</givenNames><familyName>Lingaas</familyName></personName></creator></creators><affiliationGroup><affiliation xml:id="aff-1-1" countryCode="NO"><unparsedAffiliation> * <i>Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway</i><i>, </i> † <i>Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway</i><i> and </i> ‡ <i>GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</i></unparsedAffiliation></affiliation></affiliationGroup><keywordGroup xml:lang="en"><keyword xml:id="k1">differentially expressed genes</keyword><keyword xml:id="k2">Nile tilapia</keyword><keyword xml:id="k3"><i>Oreochromis niloticus</i></keyword><keyword xml:id="k4">saltwater tolerance</keyword></keywordGroup><abstractGroup><abstract type="main" xml:lang="en"><p>This paper describes the finding of genes displaying differential expression in Nile tilapia (<i>Oreochromis niloticus</i>) adapted to saltwater and discusses their potential involvement in saltwater tolerance. The availability of fresh water is severely limited in many countries; therefore, the use of brackish‐water areas may present an opportunity to expand the tilapia aquaculture industry. Increased knowledge of genes involved in saltwater tolerance will facilitate selection for this trait in tilapia. A set of fish from four different families of Nile tilapia was divided into two freshwater containers, the different families equally represented in the two experimental groups, and salinity was gradually increased in one of them. A differential expression study identified a number of genes expressed differently in saltwater and fresh water. Based on these expression analyses and on a judgement of potential candidate genes probably to be involved in adaptation to changes in salinity, four genes were selected and their levels of expression further analysed by real‐time polymerase chain reaction. The selected genes <i>beta haemoglobin</i>, <i>Ca<sup>2+</sup> transporting plasma membrane ATPase</i>, <i>pro‐opiomelanocortin </i>and <i>beta‐actin </i>showed changes in expression. The genes were mapped and assigned to an already existing, high‐resolution linkage map.</p></abstract></abstractGroup></contentMeta></header></component></istex:document></istex:metadataXml><mods version="3.6"><titleInfo lang="en"><title>Identification and mapping of genes associated with salt tolerance in tilapia</title></titleInfo><titleInfo type="alternative" contentType="CDATA" lang="en"><title>Identification and mapping of genes associated with salt tolerance in tilapia</title></titleInfo><name type="personal"><namePart type="given">A. H.</namePart><namePart type="family">Rengmark</namePart><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">A.</namePart><namePart type="family">Slettan</namePart><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">W. J.</namePart><namePart type="family">Lee</namePart><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">Ø.</namePart><namePart type="family">Lie</namePart><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation><role><roleTerm type="text">author</roleTerm></role></name><name type="personal"><namePart type="given">F.</namePart><namePart type="family">Lingaas</namePart><affiliation>* Department of Basic Sciences and Aquatic Medicine, Norwegian School of Veterinary Science, P. O. Box 8146 Dep, N‐0033 Oslo, Norway , † Department of Natural Sciences, Agder University College, Serviceboks 422, N‐4604 Kristiansand, Norway and ‡ GenoMar asa, Oslo Research Park, Gaustadalléen 21, N‐0349 Oslo, Norway</affiliation><affiliation>E-mail: frode.lingaas@veths.no</affiliation><role><roleTerm type="text">author</roleTerm></role></name><typeOfResource>text</typeOfResource><genre type="article" displayLabel="article"></genre><originInfo><publisher>Blackwell Publishing Ltd</publisher><place><placeTerm type="text">Oxford, UK</placeTerm></place><dateIssued encoding="w3cdtf">2007-12</dateIssued><edition>(Received 6 January 2006, Accepted 1 August 2007)</edition><copyrightDate encoding="w3cdtf">2007</copyrightDate></originInfo><language><languageTerm type="code" authority="rfc3066">en</languageTerm><languageTerm type="code" authority="iso639-2b">eng</languageTerm></language><physicalDescription><internetMediaType>text/html</internetMediaType><extent unit="figures">2</extent><extent unit="tables">3</extent><extent unit="references">40</extent></physicalDescription><abstract lang="en">This paper describes the finding of genes displaying differential expression in Nile tilapia (Oreochromis niloticus) adapted to saltwater and discusses their potential involvement in saltwater tolerance. The availability of fresh water is severely limited in many countries; therefore, the use of brackish‐water areas may present an opportunity to expand the tilapia aquaculture industry. Increased knowledge of genes involved in saltwater tolerance will facilitate selection for this trait in tilapia. A set of fish from four different families of Nile tilapia was divided into two freshwater containers, the different families equally represented in the two experimental groups, and salinity was gradually increased in one of them. A differential expression study identified a number of genes expressed differently in saltwater and fresh water. Based on these expression analyses and on a judgement of potential candidate genes probably to be involved in adaptation to changes in salinity, four genes were selected and their levels of expression further analysed by real‐time polymerase chain reaction. The selected genes beta haemoglobin, Ca2+ transporting plasma membrane ATPase, pro‐opiomelanocortin and beta‐actin showed changes in expression. The genes were mapped and assigned to an already existing, high‐resolution linkage map.</abstract><subject lang="en"><genre>keywords</genre><topic>differentially expressed genes</topic><topic>Nile tilapia</topic><topic>Oreochromis niloticus</topic><topic>saltwater tolerance</topic></subject><relatedItem type="host"><titleInfo><title>Journal of Fish Biology</title></titleInfo><genre type="journal">journal</genre><identifier type="ISSN">0022-1112</identifier><identifier type="eISSN">1095-8649</identifier><identifier type="DOI">10.1111/(ISSN)1095-8649</identifier><identifier type="PublisherID">JFB</identifier><part><date>2007</date><detail type="volume"><caption>vol.</caption><number>71</number></detail><detail type="supplement"><caption>Suppl. no.</caption><number>sc</number></detail><extent unit="pages"><start>409</start><end>422</end><total>14</total></extent></part></relatedItem><identifier type="istex">E75272F95D392531A0030E428C8979E84F61DB36</identifier><identifier type="DOI">10.1111/j.1095-8649.2007.01664.x</identifier><identifier type="ArticleID">JFB1664</identifier><accessCondition type="use and reproduction" contentType="copyright">2007 The Fisheries Society of the British Isles</accessCondition><recordInfo><recordContentSource>WILEY</recordContentSource><recordOrigin>Blackwell Publishing Ltd</recordOrigin></recordInfo></mods></metadata><serie></serie></istex></record>Pour manipuler ce document sous Unix (Dilib)
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