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Items: 1 to 20 of 122


On the relationship between an Asian haplotype on chromosome 6 that reduces androstenone levels in boars and the differential expression of SULT2A1 in the testis.

Hidalgo AM, Bastiaansen JW, Harlizius B, Megens HJ, Madsen O, Crooijmans RP, Groenen MA.

BMC Genet. 2014 Jan 9;15:4. doi: 10.1186/1471-2156-15-4.


Transcript profiling of candidate genes in testis of pigs exhibiting large differences in androstenone levels.

Grindflek E, Berget I, Moe M, Oeth P, Lien S.

BMC Genet. 2010 Jan 25;11:4. doi: 10.1186/1471-2156-11-4.


Genome-wide association scan and phased haplotype construction for quantitative trait loci affecting boar taint in three pig breeds.

Gregersen VR, Conley LN, Sørensen KK, Guldbrandtsen B, Velander IH, Bendixen C.

BMC Genomics. 2012 Jan 13;13:22. doi: 10.1186/1471-2164-13-22.


Molecular cloning and regulation of porcine SULT2A1: relationship between SULT2A1 expression and sulfoconjugation of androstenone.

Sinclair PA, Gilmore WJ, Lin Z, Lou Y, Squires EJ.

J Mol Endocrinol. 2006 Apr;36(2):301-11.


New investigations around CYP11A1 and its possible involvement in an androstenone QTL characterised in Large White pigs.

Robic A, Le Mignon G, Fève K, Larzul C, Riquet J.

Genet Sel Evol. 2011 Apr 19;43:15. doi: 10.1186/1297-9686-43-15.


RNA deep sequencing reveals novel candidate genes and polymorphisms in boar testis and liver tissues with divergent androstenone levels.

Gunawan A, Sahadevan S, Neuhoff C, Große-Brinkhaus C, Gad A, Frieden L, Tesfaye D, Tholen E, Looft C, Uddin MJ, Schellander K, Cinar MU.

PLoS One. 2013 May 16;8(5):e63259. doi: 10.1371/journal.pone.0063259. Print 2013.


A genome-wide association study on androstenone levels in pigs reveals a cluster of candidate genes on chromosome 6.

Duijvesteijn N, Knol EF, Merks JW, Crooijmans RP, Groenen MA, Bovenhuis H, Harlizius B.

BMC Genet. 2010 May 20;11:42. doi: 10.1186/1471-2156-11-42.


Asian low-androstenone haplotype on pig chromosome 6 does not unfavorably affect production and reproduction traits.

Hidalgo AM, Bastiaansen JW, Harlizius B, Knol EF, Lopes MS, de Koning DJ, Groenen MA.

Anim Genet. 2014 Dec;45(6):874-7. doi: 10.1111/age.12226. Epub 2014 Sep 29.


Boar taint in entire male pigs: a genomewide association study for direct and indirect genetic effects on androstenone.

Duijvesteijn N, Knol EF, Bijma P.

J Anim Sci. 2014 Oct;92(10):4319-28. doi: 10.2527/jas.2014-7863. Epub 2014 Aug 22.


Large scale genome-wide association and LDLA mapping study identifies QTLs for boar taint and related sex steroids.

Grindflek E, Lien S, Hamland H, Hansen MH, Kent M, van Son M, Meuwissen TH.

BMC Genomics. 2011 Jul 13;12:362. doi: 10.1186/1471-2164-12-362.


Analysis of the genetics of boar taint reveals both single SNPs and regional effects.

Rowe SJ, Karacaören B, de Koning DJ, Lukic B, Hastings-Clark N, Velander I, Haley CS, Archibald AL.

BMC Genomics. 2014 Jun 3;15:424. doi: 10.1186/1471-2164-15-424.


Gene expression profiles in testis of pigs with extreme high and low levels of androstenone.

Moe M, Meuwissen T, Lien S, Bendixen C, Wang X, Conley LN, Berget I, Tajet H, Grindflek E.

BMC Genomics. 2007 Nov 7;8:405.


Molecular characterization of the porcine TEAD3 (TEF-5) gene: examination of a promoter mutation as the causal mutation of a quantitative trait loci affecting the androstenone level in boar fat.

Robic A, Larzul C, Grindflek E, Chevillon P, Hofer A, Fève K, Iannuccelli N, Milan D, Prunier A, Riquet J.

J Anim Breed Genet. 2012 Aug;129(4):325-35. doi: 10.1111/j.1439-0388.2011.00979.x. Epub 2011 Nov 23.


The effect of a c.-8G>T polymorphism on the expression of cytochrome b5A and boar taint in pigs.

Peacock J, Lou Y, Lundström K, Squires EJ.

Anim Genet. 2008 Feb;39(1):15-21. Epub 2007 Dec 19.


Association between SNPs within candidate genes and compounds related to boar taint and reproduction.

Moe M, Lien S, Aasmundstad T, Meuwissen TH, Hansen MH, Bendixen C, Grindflek E.

BMC Genet. 2009 Jul 5;10:32. doi: 10.1186/1471-2156-10-32.


Expression levels of 25 genes in liver and testis located in a QTL region for androstenone on SSC7q1.2.

Robic A, Fève K, Larzul C, Billon Y, van Son M, Liaubet L, Sarry J, Milan D, Grindflek E, Bidanel JP, Riquet J.

Anim Genet. 2011 Dec;42(6):662-5. doi: 10.1111/j.1365-2052.2011.02195.x. Epub 2011 Apr 13.


Analysis of non-synonymous SNPs of the porcine SERPINA6 gene as potential causal variants for a QTL affecting plasma cortisol levels on SSC7.

Görres A, Ponsuksili S, Wimmers K, Muráni E.

Anim Genet. 2015 Jun;46(3):239-46. doi: 10.1111/age.12276. Epub 2015 Mar 5.


Revealing genetic relationships between compounds affecting boar taint and reproduction in pigs.

Grindflek E, Meuwissen TH, Aasmundstad T, Hamland H, Hansen MH, Nome T, Kent M, Torjesen P, Lien S.

J Anim Sci. 2011 Mar;89(3):680-92. doi: 10.2527/jas.2010-3290.


Differential expression of CYB5A in Chinese and European pig breeds due to genetic variations in the promoter region.

Bai Y, Zhang JB, Xue Y, Peng YL, Chen G, Fang MY.

Anim Genet. 2015 Feb;46(1):16-22. doi: 10.1111/age.12257. Epub 2014 Dec 16.


Examination of testicular gene expression patterns in Yorkshire pigs with high and low levels of boar taint.

Leung MC, Bowley KL, Squires EJ.

Anim Biotechnol. 2010 Apr;21(2):77-87. doi: 10.1080/10495390903500607.

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