Details
Title
Calcium (Ca2+) expression and intensity in cumulus-oocyte complex (COCs) in Kacang goat after vitrificationJournal title
Polish Journal of Veterinary SciencesYearbook
2022Volume
vol. 25Issue
No 1Affiliation
Widjiati, W. : Post Graduate School of Universitas Airlangga Surabaya, Indonesia ; Faizah, Z. : Department of Biomedical Science, Faculty of Medicine Universitas Airlangga Surabaya, Indonesia ; Darsini, N. : Department of Biomedical Science, Faculty of Medicine Universitas Airlangga Surabaya, Indonesia ; Hendrawan, V.F. : Department of Reproduction, Faculty of Veterinary Medicine, Universitas Brawijaya Malang, Indonesia ; Karima, H.N. : Bio-Science Central Laboratory, Universitas Brawijaya Malang, Indonesia ; Chotimah, C. : Bio-Science Central Laboratory, Universitas Brawijaya Malang, Indonesia ; Sumitro, S.B. : Department of Biology, Faculty of Science, Universitas Brawijaya Malang, Indonesia ; Yustinasari, L.R. : Department of Veterinary Science, Faculty of Veterinary Medicine, Universitas Airlangga Surabaya, Indonesia ; Kasman, A.A.M.N. : Faculty of Health Science, Universitas Muhammadiyah Mataram, Mataram, Indonesia ; Ntoruru, J.M. : Research Assistant, Meru University, Kenya ; Luqman, E.M. : Department of Veterinary Science, Faculty of Veterinary Medicine, Universitas Airlangga Surabaya, IndonesiaAuthors
Keywords
Calcium (Ca2+) ; confocal laser scanning microscope ; cumulus-oocyte complex (COCs) ; food production ; Kacang goatDivisions of PAS
Nauki Biologiczne i RolniczeCoverage
19-26Publisher
Polish Academy of Sciences Committee of Veterinary Sciences ; University of Warmia and Mazury in OlsztynBibliography
Barceló-Fimbres M, Seidel GE Jr (2007) Effects of fetal calf serum, phenazine ethosulfate and either glucose or fructose during in vitro culture of bovine embryos on embryonic development after cryopreservation. Mol Reprod Dev 74: 1395-1405.
Bonte D, Thys V, de Sutter P, Boel A, Leybaert L, Heindryckx B (2020) Vitrification negatively affects the Ca2+ releasing and activation potential of mouse oocytes, but vitrified oocytes are potentially useful for diagnostic purposes. Reprod Biomed Online 40: 13-25.
Borges E Jr, Braga DP, de Sousa Bonetti TC, Iaconelli A Jr, Franco JG Jr (2009) Artificial oocyte activation using calcium ionophore in ICSI cycles with spermatozoa from different sources. Reprod BioMed Online 18: 45-52.
Chen SU, Yang YS (2009) Slow freezing or vitrification of oocytes: their effects on survival and meiotic spindles, and the time schedule for clinical practice. Taiwan J Obstet Gynecol 48: 15-22.
Cheon B, Lee HC, Wakaii T,Fissore RA (2013) Ca2+ influx and the store-operated Ca2+ entry pathway undergo regulation during mouse oocyte maturation. Mol Biol Cell 24: 1396-1410.
Chithiwala ZH, Lee HC, Hill DL, Jellerette-Nolan T, Fissore R, Grow D, Dumesic DA (2015) Phospholipase C-zeta deficiency as a cause for repetitive oocyte fertilization failure during ovarian stimulation for in vitro fertilization with ICSI: a case report. J Assist Reprod Genet 32: 1415-1419.
Daddangadi A, Uppangala S, Kalthur G, Talevi R, Adiga SK (2020) Germinal stage vitrification is superior to MII stage vitrification in prepubertal mouse oocytes. Cryobiology 93: 49-55.
De Munck N, Vajta G (2017) Safety and efficiency of oocyte vitrification. Cryobiology 78: 119-127.
Favetta V, Colombo RC, Júnior JFM, de Faria RT (2017) Light sources and culture media in the in vitro growth of the Brazilian orchid Microlaelia lundii. Semin Cienc Agrar 38: 1775-1783.
Fraser LR (1982) Ca2+ is required for mouse sperm capacitation and fertilization in vitro. J Androl 3: 412-419.
Gómez-Fernández C, López-Guerrero AM, Pozo-Guisado E, Álvarez IS, Martín-Romero FJ (2012) Calcium signaling in mouse oocyte maturation: the roles of STIM1, ORAI1 and SOCE. Mol Hum Reprod 18: 194-203.
Jang TH, Park SC, Yang JH, Kim JY, Seok JH, Park US, Choi CW, Lee SR, Han J (2017) Cryopreservation and Its clinical applications. Integr Med Res 6: 12-18.
Kang HJ, Lee SH, Park YS, Lim CK, Ko DS, Yang KM, Park DW (2015) Artificial oocyte activation in intracytoplasmic sperm injection cycles using testicular sperm in human in vitro fertilization. Clin Exp Reprod Med 42: 45-50.
Karabulut S, Aksünger Ö, Ata C, Sağıroglu Y, Keskin I (2018) Artificial oocyte activation with calcium ionophore for frozen sperm cycles. Syst Biol Reprod Med 64: 381-388.
Kasai M, Mukaida T (2004) Cryopreservation of animal and human embryos by vitrification. Reprod Biomed Online 9: 164-170
Leibo SP (2008) Cryopreservation of oocytes and embryos: optimization by theoretical versus empirical analysis. Theriogenology 69: 37-47.
Marques CC, Santos-Silva C, Rodrigues C, Matos JE, Moura T, Baptista MC, Horta AEM, Bessa RJB, Alves SP, Soveral G, Pereira RMLN (2018) Bovine oocyte membrane permeability and cryosurvival: Effects of different cryoprotectants and calcium in the vitrification media. Cryobiology 81: 4-11.
Mukaida T, Takahashi K, Kasai M (2002) Blastocyst cryopreservation: ultrarapid vitrification using cryoloop technique. Reprod BioMed Online 6: 221-225.
Nowak M, Madej JA, Dziegeil P (2007) Intensity of COX2 expression in cells of soft tissue fibrosacrcomas in dogs as related to grade of tumour malignancy. Bull Vet Inst Pulawy 51: 275-279.
Orief Y, Schultze-Mosgau A, Dafopoulos K, Al-Hasani S (2005) Vitrification: Will it replace the conventional gamete cryopreservation techniques? Middle East Fertil Soc 10: 171-184.
Rahman ANA, Abdullah R, Embong WK (2007) Goat embryo development from in vitro matured oocytes of heterogeneous quality through intracytoplasmic sperm injection technique. Biotechnol 6: 373-382.
Ramadan WM, Kashir J, Jones C, Coward K (2012) Oocyte activation and phospholipase C zeta (PLCζ): diagnostic and therapeutic implications for assisted reproductive technology. Cell Commum Signal 10: 1-20.
Rienzi L, Gracia C, Maggiulli R, LaBarbera AR, Kaser DJ, Ubaldi FM, Vanderpoel S, Racowsky C (2017) Oocyte, embryo and blastocyst cryopreservation in ART: systematic review and meta-analysis comparing slow-freezing versus vitrification to produce evidence for the development of global guidance. Hum Reprod Update 23: 139-155.
Roth GA, Abate D, Abate KH, Abay SM, Abbafati C, Abbasi N (2018) Global, regional, and national age-sex-specific mortality for 282 causes of death in 195 countries and territories, 1980–2017: a systematic analysis for the global burden of disease study 2017. Lancet 392: 1736-1788.
Sanaei B, Movaghar B, Valojerdi MR, Ebrahimi B, Bazrgar M, Jafarpour F, Nasr-Esfahani MH (2018) An improved method for vitrification of in vitro matured ovine oocytes; beneficial effects of ethylene glycol tetraacetic acid, an intracellular calcium chelator. Cryobiology 84: 82-90.
Stachecki JJ, Cohen J (2004) An overview of oocyte cryopreservation. Reprod Biomed Online 9: 152-163.
Wang C, Machaty Z (2013) Calcium influx in mammalian eggs. Reproduction 145: R97-R105.
Wang F, Yuan RY, Li L, Meng TG, Fan LH, Jing Y, Zhang RR, Li YY, Liang QX, Dong F, Hou Y, Schatten H, Sun QY, Ou XH (2018) Mitochondrial regulation of [Ca2+]i oscillations during cell cycle resumption of the second meiosis of oocyte. Cell Cycle 17: 1471-1486.
Widjiati W, Aulanni’am A, Hendrawan VF (2017) The effect of vitrification of oocytes cumulus complex apoptosis of mice (Mus musculus) to apoptosis, rate of fertilization and embryo quality. Int J Pharm Clin Res 9: 179-182
Widjiati W, Boediono A, Sumitro SB, Hinting A, Aulani’am, Susilowati T (2012) Isolation and identification of transforming growth factor β from in vitro matured cumulus oocyte complexes. Hayati J Biosci 19: 6-10.