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Year 2019, , 325 - 330, 09.09.2019
https://doi.org/10.33988/auvfd.445947

Abstract

References

  • 1. Allan MF, Pomp D, Eisen EJ (2005): Genomic mapping of direct and correlated responses to long-term selection for rapid growth rate in mice. Genetics, 170, 1863-1877.
  • 2. Barton NH, Etheridge AM, Véber A (2017): The infinitesimal model: definition, derivation, and implications. Theor Popul Biol, 118, 50-73.
  • 3. Ehsani A, Sørensen P, Pomp D, et al (2012): Inferring genetic architecture of complex traits using Bayesian integrative analysis of genome and transcriptome data. BMC Genomics, 13, 456.
  • 4. Falconer DS, Mackay TFC (1996): Introduction to Quantitative Genetics. Longman Group Ltd, UK.
  • 5. Flint J, Mackay TF (2009): Genetic architecture of quantitative traits in mice, flies, and humans. Genome Res, 19, 723-733.
  • 6. Gelman A, Carlin JB, Stern HS, et al (2004): Bayesian Data Analysis. Chapman and Hall, USA.
  • 7. Janss LLG, van Arendonk JV, Brascamp EW (1997): Bayesian statistical analyses for presence of single genes affecting meat quality traits in a crossed pig population. Genetics, 145, 395-408.
  • 8. Janss LLG (2008): iBay manual version 1.46. Janss Bioinformatics, Lieden, Netherlands.
  • 9. Janss LLG (1996): Statistical identification of major genes in pigs. PhD Thesis. Wageningen Agricultural University, The Netherlands.
  • 10. Jarvik GP (1998): Complex segregation analyses: uses and limitations. Am J Hum Genet, 63, 942–946.
  • 11. Karacaören B, Fırat MZ (2012): Genetik ilerlemelerin hesaplanmasında kullanılan istatistiksel yöntemlerin karşılaştırılması. Ankara Univ Vet Fak Derg, 59, 115-120.
  • 12. Karacaören B (2014): Empirical comparison of association and admixture mapping for body weight using F2 mice data set. Archiv Tierzucht, 57, 1-6.
  • 13. Medina-Macedo L, Lacerda AEB, Ribeiro JZ, et al. (2014): Investigating the Mendelian inheritance, genetic linkage, and genotypic disequilibrium for ten microsatellite loci of Araucaria angustifolia. Silvae Genet, 63, 234-239.
  • 14. Nielsen R, Slatkin M (2013): An Introduction to Population Genetics: Theory and Applications. Sinauer Associates is an imprint of Oxford University Press, UK.
  • 15. Sanchez MP, Iannuccelli N, Basso B, et al (2007): Identification of QTL with effects on intramuscular fat content and fatty acid composition in a Duroc × Large White cross. BMC Genet, 8, 55.
  • 16. Wolc A, Skotarczak E, Schlote W, et al (2009): Single-gene Effects on Body Weight in Selected and Unselected Mouse Lines Detected by Bayesian Marker-free Segregation Analysis. Scand J Lab Anim Sci, 36, 185-191.

Investigation on presence of major gene for body weight, feed intake and feed efficiency using a segregation analyses in a mice population

Year 2019, , 325 - 330, 09.09.2019
https://doi.org/10.33988/auvfd.445947

Abstract

Recent developments in molecular genetics and statistics have
allowed the identification and use of major genes to explain the genetic
variation. In this context, segregation analysis is a fast, reliable and
inexpensive method that uses only phenotype and pedigree information. The aim
of this study was to examine whether body weight, feed intake, and feed
efficiency in a mouse population are directed by major gene in addition to
polygenic and major gene effects by segregation analysis. For this purpose,
previously collected dataset was used (n= 661). In this study, genetic
variance, error variance, major gene variance, additive and dominant gene
effects were estimated by segregation analyses. Dominant variance (1.04) was
found to be smaller than the additive genetic variance (7.32) for body weight.
Polygenic and major gene heritability predicted as 0.29 (± 0.63) and 0.81 (±
0.98) for body weight, 0.35 (± 0.63) and 0.96 (± 0.98) for feed intake and 0.52
(± 0.63) and 0.81 (± 0.98) for feed efficiency respectively. Existence of major
gene was determined by examining the highest probability density regions.
Although the major gene has been identified for body weight and feed intake,
this result is not confirmed by the Mendelian transmission probabilities.

References

  • 1. Allan MF, Pomp D, Eisen EJ (2005): Genomic mapping of direct and correlated responses to long-term selection for rapid growth rate in mice. Genetics, 170, 1863-1877.
  • 2. Barton NH, Etheridge AM, Véber A (2017): The infinitesimal model: definition, derivation, and implications. Theor Popul Biol, 118, 50-73.
  • 3. Ehsani A, Sørensen P, Pomp D, et al (2012): Inferring genetic architecture of complex traits using Bayesian integrative analysis of genome and transcriptome data. BMC Genomics, 13, 456.
  • 4. Falconer DS, Mackay TFC (1996): Introduction to Quantitative Genetics. Longman Group Ltd, UK.
  • 5. Flint J, Mackay TF (2009): Genetic architecture of quantitative traits in mice, flies, and humans. Genome Res, 19, 723-733.
  • 6. Gelman A, Carlin JB, Stern HS, et al (2004): Bayesian Data Analysis. Chapman and Hall, USA.
  • 7. Janss LLG, van Arendonk JV, Brascamp EW (1997): Bayesian statistical analyses for presence of single genes affecting meat quality traits in a crossed pig population. Genetics, 145, 395-408.
  • 8. Janss LLG (2008): iBay manual version 1.46. Janss Bioinformatics, Lieden, Netherlands.
  • 9. Janss LLG (1996): Statistical identification of major genes in pigs. PhD Thesis. Wageningen Agricultural University, The Netherlands.
  • 10. Jarvik GP (1998): Complex segregation analyses: uses and limitations. Am J Hum Genet, 63, 942–946.
  • 11. Karacaören B, Fırat MZ (2012): Genetik ilerlemelerin hesaplanmasında kullanılan istatistiksel yöntemlerin karşılaştırılması. Ankara Univ Vet Fak Derg, 59, 115-120.
  • 12. Karacaören B (2014): Empirical comparison of association and admixture mapping for body weight using F2 mice data set. Archiv Tierzucht, 57, 1-6.
  • 13. Medina-Macedo L, Lacerda AEB, Ribeiro JZ, et al. (2014): Investigating the Mendelian inheritance, genetic linkage, and genotypic disequilibrium for ten microsatellite loci of Araucaria angustifolia. Silvae Genet, 63, 234-239.
  • 14. Nielsen R, Slatkin M (2013): An Introduction to Population Genetics: Theory and Applications. Sinauer Associates is an imprint of Oxford University Press, UK.
  • 15. Sanchez MP, Iannuccelli N, Basso B, et al (2007): Identification of QTL with effects on intramuscular fat content and fatty acid composition in a Duroc × Large White cross. BMC Genet, 8, 55.
  • 16. Wolc A, Skotarczak E, Schlote W, et al (2009): Single-gene Effects on Body Weight in Selected and Unselected Mouse Lines Detected by Bayesian Marker-free Segregation Analysis. Scand J Lab Anim Sci, 36, 185-191.
There are 16 citations in total.

Details

Primary Language English
Subjects Veterinary Surgery
Journal Section Articles
Authors

Burak Karacaören 0000-0003-2981-6540

İssam Moslem 0000-0001-8994-6916

Publication Date September 9, 2019
Published in Issue Year 2019

Cite

APA Karacaören, B., & Moslem, İ. (2019). Investigation on presence of major gene for body weight, feed intake and feed efficiency using a segregation analyses in a mice population. Ankara Üniversitesi Veteriner Fakültesi Dergisi, 66(4), 325-330. https://doi.org/10.33988/auvfd.445947
AMA Karacaören B, Moslem İ. Investigation on presence of major gene for body weight, feed intake and feed efficiency using a segregation analyses in a mice population. Ankara Univ Vet Fak Derg. September 2019;66(4):325-330. doi:10.33988/auvfd.445947
Chicago Karacaören, Burak, and İssam Moslem. “Investigation on Presence of Major Gene for Body Weight, Feed Intake and Feed Efficiency Using a Segregation Analyses in a Mice Population”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 66, no. 4 (September 2019): 325-30. https://doi.org/10.33988/auvfd.445947.
EndNote Karacaören B, Moslem İ (September 1, 2019) Investigation on presence of major gene for body weight, feed intake and feed efficiency using a segregation analyses in a mice population. Ankara Üniversitesi Veteriner Fakültesi Dergisi 66 4 325–330.
IEEE B. Karacaören and İ. Moslem, “Investigation on presence of major gene for body weight, feed intake and feed efficiency using a segregation analyses in a mice population”, Ankara Univ Vet Fak Derg, vol. 66, no. 4, pp. 325–330, 2019, doi: 10.33988/auvfd.445947.
ISNAD Karacaören, Burak - Moslem, İssam. “Investigation on Presence of Major Gene for Body Weight, Feed Intake and Feed Efficiency Using a Segregation Analyses in a Mice Population”. Ankara Üniversitesi Veteriner Fakültesi Dergisi 66/4 (September 2019), 325-330. https://doi.org/10.33988/auvfd.445947.
JAMA Karacaören B, Moslem İ. Investigation on presence of major gene for body weight, feed intake and feed efficiency using a segregation analyses in a mice population. Ankara Univ Vet Fak Derg. 2019;66:325–330.
MLA Karacaören, Burak and İssam Moslem. “Investigation on Presence of Major Gene for Body Weight, Feed Intake and Feed Efficiency Using a Segregation Analyses in a Mice Population”. Ankara Üniversitesi Veteriner Fakültesi Dergisi, vol. 66, no. 4, 2019, pp. 325-30, doi:10.33988/auvfd.445947.
Vancouver Karacaören B, Moslem İ. Investigation on presence of major gene for body weight, feed intake and feed efficiency using a segregation analyses in a mice population. Ankara Univ Vet Fak Derg. 2019;66(4):325-30.