A study on embryo production through in-vitro fertization of caprine oocytes

Title: A study on embryo production through in-vitro fertization of caprine oocytes

Authors: JK Agrawal, SD Kharche, A Saxena, S Yadav and RP Panday

Source: Ruminant Science (2017)-6(2):333-336.

Cite this reference as: Agrawal JK, Kharche SD, Saxena A, Yadav S and Panday RP (2017). A study on embryo production through in-vitro fertization of caprine oocytes. Ruminant Science 6(2):333-336.

 

Abstract

The objective of the work was to study the cleavage rate of in-vitro fertilized embryos of caprine oocytes. A total of 3490 oocytes were retrieved from 812 caprine ovaries of abattoir origin. Recovery rate of oocytes per ovary was recorded 4.3. Oocytes were matured in-vitro in TCM-199 containing supplements for 27 hr in humidifier atmosphere of 5% CO2 at 38.5 ºC in CO2 incubator.  Maturation rate was 89.025 per cent. The results of the present study revealed that the overall cleavage rate through in-vitro fertilization was 14.8%. Out of total cleaved embryos, 134 two cell stage embryos were used for tetraploid embryo production. Developmental stages of remaining cleaved embryos were recorded (2 cell; 18.40%, 4 cell; 9.81%, 8-16 cell; 4.29%, morula; 0.92%, blastocysts).

References

Agrawal JK, Saxena A, Kharche SD, Pathak J, Sikarwar AKS, Patel A, Goel AK and Jindal SK (2016). A study on parthenogenetic activation and embryo production from in vitro matured caprine oocytes. Ruminant Science 5(1):21-24.

Cevik M, Tas A, Akkoc T, Bagis H and Arat S (2009). A comparative study of parthenogenetic activation and in vitro fertilization of in vitro matured bovine oocytes. Turkish Journal of Veterinary and Animal Sciences 33(5):393-399

De Smedt V, Crozet N, Ahmed-Ali M, Martino A and Cognie Y (1992). In vitro maturation and fertilization of goat oocytes. Theriogenology 37:1049-1060.

Gardner DK, Lane M, Spitzer A and Batt PA (1994). Enhanced rates of cleavage and development for sheep zygotes cultured to the blastocyst stage in vitro in the absence of serum and somatic cells: amino acids, vitamins, and culturing embryos in groups stimulate development. Biology of Reproduction 50:390-400

Katska KL, Rynska B, Gajda B and Smorag Z (2004). Effect of donor stimulation, frozen semen and heparin treatment on the efficiency of in vitro embryo production in goats. Theriogenology 62:576-586

Keskintepe L, Simplicio AA and Brackett BG (1998). Caprine blastocyst development after in vitro fertilization with spermatozoa frozen indifferent extenders. Theriogenology 49:1265-1274.

Kharche SD, Goel AK, Jindal SK, Sinha NK and Yadav P (2008). Effect of somatic cells co-cuture on cleavage and development of in-vitro fertilized caprine embryos. Indian Journal of Animal Sciences 78:686-92.

Khatun M, Bhuiyan MM, Ahmed JU, Haque A, Rahman MB and Shamsuddin M (2011). In vitro maturation and fertilization of prepubertal and pubertal black Bengal goat oocytes. Journal of Veterinary Science 12(1):75-82.

Kumar D, Shukla MK, Jeena LM, Rahangdale S, Kumari D, Singh A and Sarkhel BC (2016).  Assessment of in vitro maturation of oocytes derived from slaughterhouse goat ovaries. Ruminant Science 5(1):17-20.

Mermillod P, Massip A and Dessy F (1992).  In vitro production of cattle embryos: Review and Belgian results. International Journal of Developmental Biology 36:185-195

Mishra V, Misra AK and Sharma R (2008). A comparative study of parthenogenic activation and in vitro fertilization of bubaline oocytes. Animal Reproduction Science 103:249-259

Mogas T, Palomo MJ, Izquierdo MD and Paramio MT (1997). Developmental capacity of in vitro matured and fertilized oocytes from prepubertal and adult goats. Theriogenology 47:1189-1203.

Mondal A, Khandoker MAMY, Mondal MA, Rahman AHMS, Apu AS and Pervage S (2008). In vitro production of goat embryos in Bangladesh. Bangladesh Journal of Animal Sciences 37(1):1-9

Ongeri EM, Bormann CL, Butler RE, Melican D, Gavin WG, Echelard Y, Krisher RL and Behboodi E (2001). Development of goat embryos after in vitro fertilization and parthenogenetic activatiqn by different methods. Theriogenology 55:1933-1945.

Puri G and Bag S (2014). Generation of parthenogenetic embryos by ethanol activation in buffalo. Ruminant Science 3(1):5-7.

Sadeesh EM, Shah F, Balhara AK, Thirumaran SMK, Balhara S and   Yadav PS (2013). Effect of thiol compound supplemented culture medium on in vitro maturation of buffalo oocytes. Ruminant Science 2(1):59-62.

Singh V, Misra AK, Kumar S and Kumar V (2015a). Effect of seasons on in-vitro maturation and cleavage of oocyte and in-vitro development of buffalo embryo. Ruminant Science 4(1):29-31.

Singh V, Misra AK, Kumar S and Kumar V  (2015b). Effect of growth factors on in vitro maturation and in vitro culture of buffalo oocytes. Ruminant Science 4(2):219-224.

Shukla MK, Shrivastava OP, Kumar D, Shukla SN, Jain N and Sarkhel BC (2016). Effect of follicle size on glucose-6-phosphate dehydrogenase activity of buffalo oocytes. Ruminant Science 5(2):243-245.