Allelic variant in the anti-müllerian hormone gene leads to autosomal and temperature-dependent sex reversal in a selected nile tilapia line

Owing to the demand for sustainable sex-control protocols in aquaculture, research in tilapia sex determination is gaining momentum. The mutual influence of environmental and genetic factors hampers disentangling the complex sex determination mechanism in Nile tilapia (Oreochromis niloticus). Previo...

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Main Authors: Stephan Wessels, Reza Ahmad Sharifi, Liane Magdalena Luehmann, Sawichaya Rueangsri, Ina Krause, Sabrina Pach, Gabriele Hoerstgen-Schwark, Christoph Knorr
Format: Journal
Published: 2018
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http://cmuir.cmu.ac.th/jspui/handle/6653943832/44984
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spelling th-cmuir.6653943832-449842018-01-24T06:02:26Z Allelic variant in the anti-müllerian hormone gene leads to autosomal and temperature-dependent sex reversal in a selected nile tilapia line Stephan Wessels Reza Ahmad Sharifi Liane Magdalena Luehmann Sawichaya Rueangsri Ina Krause Sabrina Pach Gabriele Hoerstgen-Schwark Christoph Knorr Owing to the demand for sustainable sex-control protocols in aquaculture, research in tilapia sex determination is gaining momentum. The mutual influence of environmental and genetic factors hampers disentangling the complex sex determination mechanism in Nile tilapia (Oreochromis niloticus). Previous linkage analyses have demonstrated quantitative trait loci for the phenotypic sex on linkage groups 1, 3, and 23. Quantitative trait loci for temperature-dependent sex reversal similarly reside on linkage group 23. The anti-Müllerian hormone gene (amh), located in this genomic region, is important for sexual fate in higher vertebrates, and shows sexually dimorphic expression in Nile tilapia. Therefore this study aimed at detecting allelic variants and marker-sex associations in the amh gene. Sequencing identified six allelic variants. A significant effect on the phenotypic sex for SNP ss831884014 (p < 0.0017) was found by stepwise logistic regression. The remaining variants were not significantly associated. Functional annotation of SNP ss831884014 revealed a non-synonymous amino acid substitution in the amh protein. Conseq uently, a fluorescence resonance energy transfer (FRET) based genotyping assay was developed and validated with a representative sample of fish. A logistic linear model confirmed a highly significant effect of the treatment and genotype on the phenotypic sex, but not for the interaction term (treatment: p < 0.0001; genotype: p < 0.0025). An additive genetic model proved a linear allele substitution effect of 12% in individuals from controls and groups treated at high temperature, respectively. Moreover, the effect of the genotype on the male proportion was significantly higher in groups treated at high temperature, giving 31% more males on average of the three genotypes. In addition, the groups treated at high temperature showed a positive dominance deviation (+11.4% males). In summary, marker-assisted selection for amh variant ss831884014 seems to be highly beneficial to increase the male proportion in Nile tilapia, especially when applying temperature-induced sex reversal. © 2014 Wessels et al. 2018-01-24T06:02:26Z 2018-01-24T06:02:26Z 2014-08-26 Journal 19326203 2-s2.0-84929273691 10.1371/journal.pone.0104795 https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84929273691&origin=inward http://cmuir.cmu.ac.th/jspui/handle/6653943832/44984
institution Chiang Mai University
building Chiang Mai University Library
country Thailand
collection CMU Intellectual Repository
description Owing to the demand for sustainable sex-control protocols in aquaculture, research in tilapia sex determination is gaining momentum. The mutual influence of environmental and genetic factors hampers disentangling the complex sex determination mechanism in Nile tilapia (Oreochromis niloticus). Previous linkage analyses have demonstrated quantitative trait loci for the phenotypic sex on linkage groups 1, 3, and 23. Quantitative trait loci for temperature-dependent sex reversal similarly reside on linkage group 23. The anti-Müllerian hormone gene (amh), located in this genomic region, is important for sexual fate in higher vertebrates, and shows sexually dimorphic expression in Nile tilapia. Therefore this study aimed at detecting allelic variants and marker-sex associations in the amh gene. Sequencing identified six allelic variants. A significant effect on the phenotypic sex for SNP ss831884014 (p < 0.0017) was found by stepwise logistic regression. The remaining variants were not significantly associated. Functional annotation of SNP ss831884014 revealed a non-synonymous amino acid substitution in the amh protein. Conseq uently, a fluorescence resonance energy transfer (FRET) based genotyping assay was developed and validated with a representative sample of fish. A logistic linear model confirmed a highly significant effect of the treatment and genotype on the phenotypic sex, but not for the interaction term (treatment: p < 0.0001; genotype: p < 0.0025). An additive genetic model proved a linear allele substitution effect of 12% in individuals from controls and groups treated at high temperature, respectively. Moreover, the effect of the genotype on the male proportion was significantly higher in groups treated at high temperature, giving 31% more males on average of the three genotypes. In addition, the groups treated at high temperature showed a positive dominance deviation (+11.4% males). In summary, marker-assisted selection for amh variant ss831884014 seems to be highly beneficial to increase the male proportion in Nile tilapia, especially when applying temperature-induced sex reversal. © 2014 Wessels et al.
format Journal
author Stephan Wessels
Reza Ahmad Sharifi
Liane Magdalena Luehmann
Sawichaya Rueangsri
Ina Krause
Sabrina Pach
Gabriele Hoerstgen-Schwark
Christoph Knorr
spellingShingle Stephan Wessels
Reza Ahmad Sharifi
Liane Magdalena Luehmann
Sawichaya Rueangsri
Ina Krause
Sabrina Pach
Gabriele Hoerstgen-Schwark
Christoph Knorr
Allelic variant in the anti-müllerian hormone gene leads to autosomal and temperature-dependent sex reversal in a selected nile tilapia line
author_facet Stephan Wessels
Reza Ahmad Sharifi
Liane Magdalena Luehmann
Sawichaya Rueangsri
Ina Krause
Sabrina Pach
Gabriele Hoerstgen-Schwark
Christoph Knorr
author_sort Stephan Wessels
title Allelic variant in the anti-müllerian hormone gene leads to autosomal and temperature-dependent sex reversal in a selected nile tilapia line
title_short Allelic variant in the anti-müllerian hormone gene leads to autosomal and temperature-dependent sex reversal in a selected nile tilapia line
title_full Allelic variant in the anti-müllerian hormone gene leads to autosomal and temperature-dependent sex reversal in a selected nile tilapia line
title_fullStr Allelic variant in the anti-müllerian hormone gene leads to autosomal and temperature-dependent sex reversal in a selected nile tilapia line
title_full_unstemmed Allelic variant in the anti-müllerian hormone gene leads to autosomal and temperature-dependent sex reversal in a selected nile tilapia line
title_sort allelic variant in the anti-müllerian hormone gene leads to autosomal and temperature-dependent sex reversal in a selected nile tilapia line
publishDate 2018
url https://www.scopus.com/inward/record.uri?partnerID=HzOxMe3b&scp=84929273691&origin=inward
http://cmuir.cmu.ac.th/jspui/handle/6653943832/44984
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