Cattle QTL Database

Release 56
(Apr 24, 2025)

. . . from browsing trait ontology

References

On trait: Milk C16 index

Cao M, Shi L, Peng P, Han B, Liu L, Lv X, Ma Z, Zhang S, Sun D (2021). Determination of genetic effects and functional SNPs of bovine HTR1B gene on milk fatty acid traits BMC Genomics,22(1): 575. [see all QTL by this paper]
Gebreyesus G, Buitenhuis A J, Poulsen N A, Visker M H P W, Zhang Q, van Valenberg H J F, Sun D, Bovenhuis H (2019). Multi-population GWAS and enrichment analyses reveal novel genomic regions and promising candidate genes underlying bovine milk fatty acid composition BMC genomics,20(1): 178. [see all QTL by this paper]
Gebreyesus G, Buitenhuis A J, Poulsen N A, Visker M H P W, Zhang Q, van Valenberg H J F, Sun D, Bovenhuis H (2020). Combining multi-population datasets for joint genome-wide association and meta-analyses: The case of bovine milk fat composition traits Journal of dairy science,102(12): 11124-11141. [see all QTL by this paper]
Li C, Sun D, Zhang S, Liu L, Alim M A, Zhang Q (2016). A post-GWAS confirming the SCD gene associated with milk medium- and long-chain unsaturated fatty acids in Chinese Holstein population Animal genetics,47(4):483-90. [see all QTL by this paper]
Li C, Sun D, Zhang S, Yang S, Alim MA, Zhang Q, Li Y, Liu L (2016). Genetic effects of FASN, PPARGC1A, ABCG2 and IGF1 revealing the association with milk fatty acids in a Chinese Holstein cattle population based on a post genome-wide association study BMC genetics,17: 110. [see all QTL by this paper]
Li X, Buitenhuis A J, Lund M S, Li C, Sun D, Zhang Q, Poulsen N A, Su G (2015). Joint genome-wide association study for milk fatty acid traits in Chinese and Danish Holstein populations Journal of dairy science,98(11): 8152-63. [see all QTL by this paper]
Nafikov R A, Schoonmaker J P, Korn K T, Noack K, Garrick D J, Koehler K J, Minick-Bormann J, Reecy J M, Spurlock D E, Beitz D C, (2013). Association of polymorphisms in solute carrier family 27, isoform A6 (SLC27A6) and fatty acid-binding protein-3 and fatty acid-binding protein-4 (FABP3 and FABP4) with fatty acid composition of bovine milk Journal of dairy science,96(9): 6007-21. [see all QTL by this paper]
Shi L, Han B, Liu L, Lv X, Ma Z, Li C, Xu L, Li Y, Zhao F, Yang Y, Sun D (2019). Determination of Genetic Effects of LIPK and LIPJ Genes on Milk Fatty Acids in Dairy Cattle Genes,10(2):E86. [see all QTL by this paper]
Shi L, Liu L, Lv X, Ma Z, Li C, Li Y, Zhao F, Sun D, Han B (2020). Identification of genetic effects and potential causal polymorphisms of CPM gene impacting milk fatty acid traits in Chinese Holstein Animal Genetics,51(4):491-501. [see all QTL by this paper]
Shi L, Liu L, Lv X, Ma Z, Yang Y, Li Y, Zhao F, Sun D, Han B (2019). Polymorphisms and genetic effects of PRLR, MOGAT1, MINPP1 and CHUK genes on milk fatty acid traits in Chinese Holstein BMC genetics,20(1): 69. [see all QTL by this paper]
Shi L, Liu L, Ma Z, Lv X, Li C, Xu L, Han B, Li Y, Zhao F, Yang Y, Sun D (2019). Identification of genetic associations of ECHS1 gene with milk fatty acid traits in dairy cattle Animal genetics,50(5): 430-438. [see all QTL by this paper]
Shi L, Lv X, Liu L, Yang Y, Ma Z, Han B, Sun D (2019). A post-GWAS confirming effects of PRKG1 gene on milk fatty acids in a Chinese Holstein dairy population BMC genetics,20(1): 53. [see all QTL by this paper]
Shi L, Wu X, Yang Y, Ma Z, Lv X, Liu L, Li Y, Zhao F, Han B, Sun D (2021). A post-GWAS confirming the genetic effects and functional polymorphisms of AGPAT3 gene on milk fatty acids in dairy cattle Journal of animal science and biotechnology,12(1): 24. [see all QTL by this paper]

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