1 |
Ortega MS, Kurian JJ, McKenna R, Hansen PJ. 2017. Characteristics of candidate genes associated with embryonic development in the cow: Evidence for a role for WBP1 in development to the blastocyst stage. PLOS ONE 12:e0178041.
DOI
|
2 |
Penagaricano F, Khatib H. 2012. Association of milk protein genes with fertilization rate and early embryonic development in Holstein dairy cattle. The Journal of dairy research 79:47-52.
DOI
|
3 |
Penagaricano F, Weigel KA, Khatib H. 2012. Genome-wide association study identifies candidate markers for bull fertility in Holstein dairy cattle. Animal genetics 43 Suppl 1:65-71.
DOI
|
4 |
Penagaricano F, Weigel KA, Rosa GJ, Khatib H. 2013. Inferring quantitative trait pathways associated with bull fertility from a genome-wide association study. Frontiers in genetics 3:307.
DOI
|
5 |
Azizian S, Shadparvar AA, Ghavi Hossein-Zadeh N, Joezy-Shekalgorabi S. 2016. Effect of increasing accuracy of genomic evaluations on economic efficiency of dairy cattle breeding programmes. Italian Journal of Animal Science 15:379-385.
DOI
|
6 |
De Vries A. 2006. Economic value of pregnancy in dairy cattle1. Journal of Dairy Science 89:3876-3885.
DOI
|
7 |
Choi I, Cho J. 2016. Reproduction and marketing plans for improving profitability of Korean native cattle (Hanwoo) farm. Journal of Embryo Transfer 31:267-272. [In Korean]
DOI
|
8 |
Cochran SD, Cole JB, Null DJ, Hansen PJ. 2013a. Discovery of single nucleotide polymorphisms in candidate genes associated with fertility and production traits in Holstein cattle. Bio Med Central genetics 14:49.
|
9 |
Cochran SD, Cole JB, Null DJ, Hansen PJ. 2013b. Single nucleotide polymorphisms in candidate genes associated with fertilizing ability of sperm and subsequent embryonic development in cattle. Biology of reproduction 89:69.
DOI
|
10 |
Galvao KN, Federico P, De Vries A, Schuenemann GM. 2013. Economic comparison of reproductive programs for dairy herds using estrus detection, timed artificial insemination, or a combination. Journal of Dairy Science 96:2681-2693.
DOI
|
11 |
Garritano S, Gemignani F, Voegele C, Nguyen-Dumont T, Le Calvez-Kelm F, De Silva D, Lesueur F, Landi S, Tavtigian SV. 2009. Determining the effectiveness of high resolution melting analysis for SNP genotyping and mutation scanning at the TP53 locus. Bio Med Central Genet 10:5.
|
12 |
Kysel'ova J, Rychta ova J, Sztankoova Z, Czernekova V. 2012. Simultaneous identification of CSN3 and LGB genotypes in cattle by high-resolution melting curve analysis. Livestock Science 145:275-279.
DOI
|
13 |
Lim D, Strucken EM, Choi BH, Chai HH, Cho YM, Jang GW, Kim T-H, Gondro C, Lee SH. 2016. Genomic footprints in selected and unselected beef cattle breeds in Korea. PLOS ONE 11:e0151324.
DOI
|
14 |
Cho J, Do C, Choi I. 2016. Reproductive performance of Korean native cattle (Hanwoo) focusing on calving interval and parity. Journal of Embryo Transfer 31:273-279. [In Korean]
DOI
|