Browse > Article
http://dx.doi.org/10.12750/JET.2018.33.4.265

Effect of OPU Session Periods on the Efficiency of In Vitro Embryo Production in Elite Korean Native Cow  

Choi, Byung-Hyun (Division of Applied Life Science (BK21 Plus))
Song, Seok-Hwan (Division of Applied Life Science (BK21 Plus))
Park, Bun-Young (GAST, Gyeongsang National University)
Kong, Rami (Division of Applied Life Science (BK21 Plus))
Son, Mi-Ju (GAST, Gyeongsang National University)
park, Chan-Sang (Division of Applied Life Science (BK21 Plus))
Shin, Nyeon-Hak (Gyeongsangnamdo Livestock Experiment Station)
Cheon, Hye-Young (Gyeongsangnamdo Livestock Experiment Station)
Lee, Sung-Hoon (Gyeongsangnamdo Livestock Experiment Station)
Jin, Jong-In (Institute of Agriculture and Life Science)
Lee, Jung-Gyu (Institute of Agriculture and Life Science)
Kong, Il-Keun (Division of Applied Life Science (BK21 Plus))
Publication Information
Journal of Embryo Transfer / v.33, no.4, 2018 , pp. 265-270 More about this Journal
Abstract
Up-to-date artificial insemination (AI) using frozen sperm consider as the most widely using technology for improvement of Korean Native Cow (Hanwoo) embryo production. However, it is time consuming, required at least 15~20 years to make more than 6 generations, and their offspring number is limited. To overcome such limitations, superovulation and in vitro fertilization have been developed. For superovulation, the number of produced embryos are not enough for commercialization and donor cows need rest period. This led to use of slaughterhouse ovary for in vitro fertilization, but it is impossible to repeat the collection from the same individual and it only can improve the genetic merits of offspring for one generation. Production of embryos using Ovum Pick-Up (OPU) technique, where oocytes can be repeatedly collected from living elite donor, might overcome these limitations. In this study, we investigated the possibility of using OPU technique from donors at different age and different session periods for mass-embryo-production. Oocytes were collected from 26 donor cows twice per week, 3 - 4 months per year, between 2013 and 2016. Results showed that, the average number of embryo produced in first year used donor was significantly higher than that in second year used donor ($3.89{\pm}2.85$ vs $3.29{\pm}2.70$), however, there was no significant difference between third year used donor ($3.51{\pm}3.32$) and other groups. Taken together, our data showed that repeated using of donor up to three years is possible for in vitro embryo mass-production. Moreover, OPU can be used as suitable embryo producing technique for livestock breed improvement.
Keywords
OPU; Embryo; Embryo transfer; Korean native cow;
Citations & Related Records
연도 인용수 순위
  • Reference
1 Mesalam A, Kong R, Khan I, Chowdhury M, Choi BH, Kim SW, Cho KW, Jin JI and Kong IK. 2017b. Effect of charcoal: dextran stripped fetal bovine serum on in vitro development of bovine embryos. Reprod. Biol. 17:312-319.   DOI
2 Pierson RA and Adams GP. 1999. Remote assessment of ovarian response and follicular status using visual analysis of ultrasound images. Theriogenology 51:47-57.   DOI
3 Rizos D, Ward F, Duffy P, Boland MP and Lonergan P. 2002. Consequences of bovine oocyte maturation fertilzation or early embryo development in vitro versus in vivo: Implications for blastocyst yield and blastocyst quality. Mol. Reprod. Dev. 61:234-248.   DOI
4 Roth Z, Inbar G and Arav A. 2008. Comparison of oocyte developmental competence and follicular steroid content of nulliparous heifers and cows at different stages of lactation. Theriogenology 69:932-939.   DOI
5 Su L, Yang S, He X, Li X, Ma J, Wang Y, Presicce GA and Ji W. 2012. Effect of donor age on the developmental competence of bovine oocytes retrieved by ovum pick up. Reprod. Domest. Anim. 47:184-189.   DOI
6 Van Wagtendonk-de Leeuw AM, Mullaart E, Roos de APW, Merton JS, Den Daas JHG and de Ruigh L. 2000. Effects of different reproduction techniques: AI, MOET or IVP, on health and welfare of bovine offspring. Theriogenology 53:575-597.   DOI
7 Xu KP, Greve T, Callesen H and Hyttel P. 1987. Pregnancy resulting from cattle oocytes matured and fertilized in vitro. J. Reprod. Fertil. 81:501-504.   DOI
8 Yang X, Jiang S and Foote RH. 1993. Bovine oocyte development following different oocyte maturation and sperm capacitation procedures. Mol. Reprod. Dev. 34:94-100.   DOI
9 Boni R. 2012. Ovum pick-up in cattle: a 25 yr retrospective analysis. Anim. Reprod, 9:362-369.
10 Blondin P, Guibault LA and Sirard MA. 1997. The time interval between FSH-P administration and slaughter can influence the developmental competence of beef heifer oocytes. Theriogenology 48:803-813.   DOI
11 Brackett BG, Bousquet D, Boice ML, Donawick WJ, Evans JF and Dressel MA. 1982. Normal development following in vitro fertilization in the cow. Biol. Reprod. 27:147-158.   DOI
12 Deb GK, Jin JI, Kwon TH, Choi BH, Bang JI, Dey SR, Cho IR and Kong IK. 2011. Improved blastocyst development of single cow OPU-derived presumptive zygotes by group culture with agarose-embedded helper embryos. Reprod. Biol. Endocrinol. 9:121. doi: 10.1186/1477-7827-9-121   DOI
13 Brackett BG, Younis AI and Fayrer-Hosken RA. 1989. Enhanced viability after in vitro fertilization of bovine oocytes matured in vitro with high concentrations of luteinizing hormone. Fertil. Steril. 52:319-324.   DOI
14 Choi BH, Jin JI, Kwon TH, Kim SS, Jo HT and Kong IK. 2011. Effect of recipient breeds on gestation length and birth weight of offspring derived from OPU Hanwoo embryo. J. Emb. Trans. 26:27-32.
15 Cran DG, Johnson LA, Miller NG, Cochrane D and Polge C. 1993. Production of bovine calves following separation of X- and Y-chromosome bearing sperm and in vitro fertilization. Vet. Rec. 132:40-41.   DOI
16 Galli C, Crotti G, Notari C, Turini P, Duchi R and Lazzari G. 2001. Embryo production by ovum pick up from live donors. Theriogenology 55:1341-57   DOI
17 Jin JI, Choi BH, Kim SS, Park BY, Lee JG and Kong IK. 2015. Possibility of Repeated Use of Elite Donor Cows for Mass Production of OPU-Derived Embryos. J. Emb. Trans. 30:149-159.   DOI
18 Galli C, Duchi R, Colleoni S, Labutina I and Lazzari G. 2014. Ovum pick up, intracytoplasmic sperm injection and somatic cell nuclear transfer in cattle, buffalo and horses: from the research laboratory to clinical practice. Theriogenology 81:138-151.   DOI
19 Hendriksen PJM, Vos PLAM, Steenweg WNM, Bevers MM and Dieleman SJ. 2000. Bovine follicular development and its effect on the in vitro competence of oocytes. Theriogenology 53:11-20.   DOI
20 Jin JI, Choi BH, Kim SS, Jo HT, Sun DW, Lim HT, Lee JG, Min CS and Kong IK. 2014. Transplantation and Production of OPU Derived Hanwoo IVP Embryos. J. Emb. Trans. 29:273-281.   DOI
21 Lonergan P, Fair T, Corcoran D and Evans ACO. 2006. Effect of culture environment on gene expression and develop mental characteristics in IVF-derived embryos. Theriogenology 65:137-152.   DOI
22 Jin JI, Kwon TH, Choi BH, Kim SS, Jo HT, Bang JI, Kim SC, Cho KW, Lee JG and Kong IK. 2011. Effect of early pregnant heifer as donor on the ovum pick-up derived oocyte aspiration and embryo production. J. Emb. Trans. 26:19-25.
23 Kim DI, Seo SW, Chung JK, Lee KS, Seo KW, Park CS, Chung YC and Park BK. 2002. The Studies on In Vivo Embryo Production and Transfer in Hanwoo - I. Factors Influencing In vivo Embryo Production. J. Emb. Trans. 17:23-32.
24 Kim HR, Kim DL, Won YS, Kim CK, Chung YC, LEE KS, Suh KW and Park CS. 1998. Studies on the improvement of embryo transfer efficiency in Korean cattle. I. effect of embryo conditions on pregnancy rate after embryo transfer. J. Emb. Trans. 13:53-60.
25 Kim SS, Choi BH, Jo HT, Jin JI, Ha AN, Min CS, Cho GW and Kong IK. 2014. Effect of Collection Seasons on the Oocyte Quality and Developmental Competence of Oocytes Derived from Korean Native Cows (Hanwoo) by Ovum Pick-Up. J. Emb. Trans. 29:265-71.   DOI
26 Kubota C, Yang X, Dinnyes A, Todoroki J, Yamakuchi H and Mizoshita K. 1998. In vitro and in vivo survival of frozenthawed bovine oocytes after IVF, nuclear transfer, and parthenogenetic activation. Mol. Reprod. Dev. 51:281-286.   DOI
27 Merton JS, de Roos AP, Mullaart E, de Ruigh L, Kaal L, Vos PL and Dieleman SJ. 2003. Factors affecting oocyte quality and quantity in commercial application of embryo technologies in the cattle breeding industry, Theriogenology 59:651-674.   DOI
28 Mesalam A, Khan I, Lee KL, Song SH, Chowdhury MMR, Uddin Z, Park KH and Kong IK. 2017a. 2-Methoxystypandrone improves in vitro-produced bovine embryo quality through inhibition of IKBKB. Theriogenology 99:10-20.   DOI