Structural Changes of Zona Pellucida Surface of Immature, In vivo and In vitro Matured Canine Oocytes Using Scanning Electron Microscopy |
Choi, Byung-Hyun
(Division of Applied Life Science (BK21 Plus))
Mesalam, Ayman (Division of Applied Life Science (BK21 Plus)) Song, Seok-Hwan (Division of Applied Life Science (BK21 Plus)) Joo, Myeong-don (Division of Applied Life Science (BK21 Plus)) Hwang, Ji-Yoon (Division of Applied Life Science (BK21 Plus)) Oh, Seon-Hwa (Division of Applied Life Science (BK21 Plus)) Lee, Kyeong-Lim (Division of Applied Life Science (BK21 Plus)) Kong, Il-Keun (Division of Applied Life Science (BK21 Plus)) |
1 | Bleil J. D.; Wassarman P. M., 1983: Sperm-egg interactions in the mouse: sequence of events and induction of the acrosome reaction by a zona pellucida glycoprotein. Dev. Biol., 95 317-324. DOI |
2 | Clark G. F., 2010: The mammalian zona pellucida: a matrix that mediates both gamete binding and immune recognition? Syst. Biol. Reprod. Med., 56 349-364. DOI |
3 | De los Reyes M.; Hetz J.; Palomino J., 2009: Ultrastructural study of the canine zona pellucida surface during in vitro maturation. Reprod Domest Anim, 44 Suppl 2 247-250. DOI |
4 | Fujiwara H.; Araki Y.; Toshimori K., 2009: Is the zona pellucida an intrinsic source of signals activating maternal recognition of the developing mammalian embryo? J. Reprod. Immunol., 81 1-8. DOI |
5 | Funahashi H.; Ekwall H.; Rodriguez-Martinez H., 2000: Zona reaction in porcine oocytes fertilized in vivo and in vitro as seen with scanning electron microscopy. Biol. Reprod., 63 1437-1442. DOI |
6 | Guraya S. S., 1965: A histochemical analysis of lipid yolk deposition in the oocytes of cat and dog. J. Exp. Zool., 160 123-135. DOI |
7 | Herrler A.; Beier H. M., 2000: Early embryonic coats: morphology, function, practical applications. An overview. Cells Tissues Organs, 166 233-246. DOI |
8 | Jang G.; Kim M. K.; Oh H. J.; Hossein M. S.; Fibrianto Y. H.; Hong S. G.; Park J. E.; Kim J. J.; Kim H. J.; Kang S. K.; Kim D. Y.; Lee B. C., 2007: Birth of viable female dogs produced by somatic cell nuclear transfer. Theriogenology, 67 941-947. DOI |
9 | Luvoni G. C.; Chigioni S.; Allievi E.; Macis D., 2005: Factors involved in vivo and in vitro maturation of canine oocytes. Theriogenology, 63 41-59. DOI |
10 | Kolbe T.; Holtz W., 2005: Differences in proteinase digestibility of the zona pellucida of in vivo and in vitro derived porcine oocytes and embryos. Theriogenology, 63 1695-1705. DOI |
11 | Mesalam A.; Khan I.; Lee K. L.; Song S. H.; Chowdhury M. M. R.; Uddin Z.; Park K. H.; Kong I. K., 2017a: 2-Methoxystypandrone improves in vitro-produced bovine embryo quality through inhibition of IKBKB. Theriogenology, 99 10-20. DOI |
12 | Moreira da Silva F.; Metelo R., 2005: Relation between physical properties of the zona pellucida and viability of bovine embryos after slow-freezing and vitrification. Reprod Domest Anim, 40 205-209. DOI |
13 | Mesalam A.; Kong R.; Khan I.; Chowdhury M.; Choi B. H.; Kim S. W.; Cho K. W.; Jin J. I.; Kong I. K., 2017b: Effect of charcoal:dextran stripped fetal bovine serum on in vitro development of bovine embryos. Reprod. Biol., 17 312-319. |
14 | Mesalam A.; Lee K. L.; Khan I.; Chowdhury M. M. R.; Zhang S.; Song S. H.; Joo M. D.; Lee J. H.; Jin J. I.; Kong I. K., 2018: A combination of bovine serum albumin with insulintransferrin- sodium selenite and/or epidermal growth factor as alternatives to fetal bovine serum in culture medium improves bovine embryo quality and trophoblast invasion by induction of matrix metalloproteinases. Reprod. Fertil. Dev. |
15 | Michelmann H. W.; Rath D.; Topfer-Petersen E.; Schwartz P., 2007: Structural and functional events on the porcine zona pellucida during maturation, fertilization and embryonic development: a scanning electron microscopy analysis. Reprod Domest Anim, 42 594-602. DOI |
16 | Santos P.; Chaveiro A.; Simoes N.; Moreira da Silva F., 2008: Bovine oocyte quality in relation to ultrastructural characteristics of zona pellucida, polyspermic penetration and developmental competence. Reprod Domest Anim, 43 685-689. DOI |
17 | Reynaud K.; Chebrout M.; Tanguy-Dezaux C.; de la Villeon G.; Chastant-Maillard S., 2012: Chromatin patterns of immature canine oocytes after in vitro maturation. Reprod Domest Anim, 47 Suppl 6 70-73. DOI |
18 | Reynaud K.; Fontbonne A.; Marseloo N.; Viaris de Lesegno C.; Saint-Dizier M.; Chastant-Maillard S., 2006: In vivo canine oocyte maturation, fertilization and early embryogenesis: a review. Theriogenology, 66 1685-1693. DOI |
19 | Royere D., 2006: [Oocyte maturation: can oocyte competence be defined?]. J. Gynecol. Obstet. Biol. Reprod. (Paris), 35 2S8-2S13. DOI |
20 | Suzuki H.; Ju J. C.; Yang X., 2000: Surface ultrastructural alterations of bovine oocytes after parthenogenetic activation. Cloning, 2 69-78. DOI |
21 | Tesoriero J. V., 1982: A morphologic, cytochemical, and chromatographic analysis of lipid yolk formation in the oocytes of the dog. Gamete Res., 6 267-279. DOI |
22 | Vanroose G.; Nauwynck H.; Soom A. V.; Ysebaert M. T.; Charlier G.; Oostveldt P. V.; de Kruif A., 2000: Structural aspects of the zona pellucida of in vitro-produced bovine embryos: a scanning electron and confocal laser scanning microscopic study. Biol. Reprod., 62 463-469. DOI |
23 | Wassarman P. M., 2008: Zona pellucida glycoproteins. J. Biol. Chem., 283C |
24 | Songsasen N.; Wesselowski S.; Carpenter J. W.; Wildt D. E., 2012: The ability to achieve meiotic maturation in the dog oocyte is linked to glycolysis and glutamine oxidation. Mol. Reprod. Dev., 79 186-196. DOI |