Genome-wide analysis of porcine backfat and intramuscular fat fatty acid composition using high-density genotyping and expression data
Background Porcine fatty acid composition is a key factor for quality and nutritive value of pork. Several QTLs for fatty acid composition have been reported in diverse fat tissues. The results obtained so far seem to point out different genetic control of fatty acid composition conditional on the fat deposits. Those studies have been conducted using simple approaches and most of them focused on one single tissue. The first objective of the present study was to identify tissue-specific and tissue-consistent QTLs for fatty acid composition in backfat and intramuscular fat, combining linkage mapping and GWAS approaches and conducted under single and multitrait models. A second aim was to identify powerful candidate genes for these tissue-consistent QTLs, using microarray gene expression data and following a targeted genetical genomics approach.Results The single model analyses, linkage and GWAS, revealed over 30 and 20 chromosomal regions, 24 of them identified here for the first time, specifically associated to the content of diverse fatty acids in BF and IMF, respectively. The analyses with multitrait models allowed identifying for the first time with a formal statistical approach seven different regions with pleiotropic effects on particular fatty acids in both fat deposits. The most relevant were found on SSC8 for C160 and C161(n-7) fatty acids, detected by both linkage and GWAS approaches. Other detected pleiotropic regions included one on SSC1 for C160, two on SSC4 for C160 and C182, one on SSC11 for C20:3 and the last one on SSC17 for C16:0. Finally, a targeted eQTL scan focused on regions showing tissue-consistent effects was conducted with Longissimus and fat gene expression data. Some powerful candidate genes and regions were identified such as the PBX1, RGS4, TRIB3 and a transcription regulatory element close to ELOVL6 gene to be further studied.Conclusions: Complementary genome scans have confirmed several chromosome regions previously associated to fatty acid composition in backfat and intramuscular fat, but even more, to identify new ones. Although most of the detected regions were tissue-specific, supporting the hypothesis that the major part of genes affecting fatty acid composition differs among tissues, seven chromosomal regions showed tissue-consistent effects. Additional gene expression analyses have revealed powerful target regions to carry the mutation responsible for the pleiotropic effects. © 2013 Muñoz et al.; licensee BioMed Central Ltd.
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2013
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| Subjects: | Fatty acid composition, Pleiotropic effects, QTL scan, eQTL, |
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dig-inia-es-10261-2909592023-02-17T12:31:23Z Genome-wide analysis of porcine backfat and intramuscular fat fatty acid composition using high-density genotyping and expression data Muñoz Muñoz, María Rodríguez, M. C. Alves, E. Folch, J. M. Ibáñez-Escriche, N. Silió, L. Fernández, A. I. Fatty acid composition Pleiotropic effects QTL scan eQTL Background Porcine fatty acid composition is a key factor for quality and nutritive value of pork. Several QTLs for fatty acid composition have been reported in diverse fat tissues. The results obtained so far seem to point out different genetic control of fatty acid composition conditional on the fat deposits. Those studies have been conducted using simple approaches and most of them focused on one single tissue. The first objective of the present study was to identify tissue-specific and tissue-consistent QTLs for fatty acid composition in backfat and intramuscular fat, combining linkage mapping and GWAS approaches and conducted under single and multitrait models. A second aim was to identify powerful candidate genes for these tissue-consistent QTLs, using microarray gene expression data and following a targeted genetical genomics approach.Results The single model analyses, linkage and GWAS, revealed over 30 and 20 chromosomal regions, 24 of them identified here for the first time, specifically associated to the content of diverse fatty acids in BF and IMF, respectively. The analyses with multitrait models allowed identifying for the first time with a formal statistical approach seven different regions with pleiotropic effects on particular fatty acids in both fat deposits. The most relevant were found on SSC8 for C160 and C161(n-7) fatty acids, detected by both linkage and GWAS approaches. Other detected pleiotropic regions included one on SSC1 for C160, two on SSC4 for C160 and C182, one on SSC11 for C20:3 and the last one on SSC17 for C16:0. Finally, a targeted eQTL scan focused on regions showing tissue-consistent effects was conducted with Longissimus and fat gene expression data. Some powerful candidate genes and regions were identified such as the PBX1, RGS4, TRIB3 and a transcription regulatory element close to ELOVL6 gene to be further studied.Conclusions: Complementary genome scans have confirmed several chromosome regions previously associated to fatty acid composition in backfat and intramuscular fat, but even more, to identify new ones. Although most of the detected regions were tissue-specific, supporting the hypothesis that the major part of genes affecting fatty acid composition differs among tissues, seven chromosomal regions showed tissue-consistent effects. Additional gene expression analyses have revealed powerful target regions to carry the mutation responsible for the pleiotropic effects. © 2013 Muñoz et al.; licensee BioMed Central Ltd. 2023-02-17T12:31:23Z 2023-02-17T12:31:23Z 2013 artículo BMC Genomics 14: e845 (2013) http://hdl.handle.net/20.500.12792/3061 http://hdl.handle.net/10261/290959 10.1186/1471-2164-14-845 1471-2164 en open BioMed Central |
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Fatty acid composition Pleiotropic effects QTL scan eQTL Fatty acid composition Pleiotropic effects QTL scan eQTL |
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Fatty acid composition Pleiotropic effects QTL scan eQTL Fatty acid composition Pleiotropic effects QTL scan eQTL Muñoz Muñoz, María Rodríguez, M. C. Alves, E. Folch, J. M. Ibáñez-Escriche, N. Silió, L. Fernández, A. I. Genome-wide analysis of porcine backfat and intramuscular fat fatty acid composition using high-density genotyping and expression data |
| description |
Background Porcine fatty acid composition is a key factor for quality and nutritive value of pork. Several QTLs for fatty acid composition have been reported in diverse fat tissues. The results obtained so far seem to point out different genetic control of fatty acid composition conditional on the fat deposits. Those studies have been conducted using simple approaches and most of them focused on one single tissue. The first objective of the present study was to identify tissue-specific and tissue-consistent QTLs for fatty acid composition in backfat and intramuscular fat, combining linkage mapping and GWAS approaches and conducted under single and multitrait models. A second aim was to identify powerful candidate genes for these tissue-consistent QTLs, using microarray gene expression data and following a targeted genetical genomics approach.Results The single model analyses, linkage and GWAS, revealed over 30 and 20 chromosomal regions, 24 of them identified here for the first time, specifically associated to the content of diverse fatty acids in BF and IMF, respectively. The analyses with multitrait models allowed identifying for the first time with a formal statistical approach seven different regions with pleiotropic effects on particular fatty acids in both fat deposits. The most relevant were found on SSC8 for C160 and C161(n-7) fatty acids, detected by both linkage and GWAS approaches. Other detected pleiotropic regions included one on SSC1 for C160, two on SSC4 for C160 and C182, one on SSC11 for C20:3 and the last one on SSC17 for C16:0. Finally, a targeted eQTL scan focused on regions showing tissue-consistent effects was conducted with Longissimus and fat gene expression data. Some powerful candidate genes and regions were identified such as the PBX1, RGS4, TRIB3 and a transcription regulatory element close to ELOVL6 gene to be further studied.Conclusions: Complementary genome scans have confirmed several chromosome regions previously associated to fatty acid composition in backfat and intramuscular fat, but even more, to identify new ones. Although most of the detected regions were tissue-specific, supporting the hypothesis that the major part of genes affecting fatty acid composition differs among tissues, seven chromosomal regions showed tissue-consistent effects. Additional gene expression analyses have revealed powerful target regions to carry the mutation responsible for the pleiotropic effects. © 2013 Muñoz et al.; licensee BioMed Central Ltd. |
| format |
artículo |
| topic_facet |
Fatty acid composition Pleiotropic effects QTL scan eQTL |
| author |
Muñoz Muñoz, María Rodríguez, M. C. Alves, E. Folch, J. M. Ibáñez-Escriche, N. Silió, L. Fernández, A. I. |
| author_facet |
Muñoz Muñoz, María Rodríguez, M. C. Alves, E. Folch, J. M. Ibáñez-Escriche, N. Silió, L. Fernández, A. I. |
| author_sort |
Muñoz Muñoz, María |
| title |
Genome-wide analysis of porcine backfat and intramuscular fat fatty acid composition using high-density genotyping and expression data |
| title_short |
Genome-wide analysis of porcine backfat and intramuscular fat fatty acid composition using high-density genotyping and expression data |
| title_full |
Genome-wide analysis of porcine backfat and intramuscular fat fatty acid composition using high-density genotyping and expression data |
| title_fullStr |
Genome-wide analysis of porcine backfat and intramuscular fat fatty acid composition using high-density genotyping and expression data |
| title_full_unstemmed |
Genome-wide analysis of porcine backfat and intramuscular fat fatty acid composition using high-density genotyping and expression data |
| title_sort |
genome-wide analysis of porcine backfat and intramuscular fat fatty acid composition using high-density genotyping and expression data |
| publisher |
BioMed Central |
| publishDate |
2013 |
| url |
http://hdl.handle.net/20.500.12792/3061 http://hdl.handle.net/10261/290959 |
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