Pimprapar Wongsrikeao scite author profile

Abstract. The present study was conducted to investigate the effects of storage time and temperature of porcine ovaries on the quality and nuclear maturation in vitro of oocytes obtained from stored ovaries and their subsequent development after in vitro fertilization. The ovaries were stored in physiological saline for 0, 3, 6, 9 and 12 h at various temperatures (4, 15, 25 and 35 C). The pH of follicular fluid obtained from the ovaries, DNA fragmentation of the oocyte nucleus and meiotic competence of oocytes were examined. Some oocytes from ovaries stored at 15, 25 and 35 C for 6 h were fertilized in vitro, and then cultured for 7 days to examine the ability of embryos to develop to the blastocyst stage. When the ovaries were stored at 35 C, the pH of follicular fluid decreased and the proportions of oocytes with DNA fragmented nuclei increased as the storage time was prolonged, and the storage of ovaries for 6, 9 and 12 h resulted in lower maturation rates of oocytes. When the ovaries were stored at 4, 15, 25 and 35 C for 6 h, the storage at higher temperatures (≥15 C) decreased the pH of follicular fluid and induced nucleic DNA fragmentation in higher proportions of oocytes. None of the oocytes from ovaries stored at 4 C reached metaphase II. The storage of ovaries at 15 C reduced the rates of in vitro fertilized oocytes and subsequent embryo development, but there were no significant differences in the rates of fertilization and blastocyst formation between oocytes from ovaries stored at 25 C and 35 C. Our findings indicate that the storage of ovaries at 25-35 C for 6 h is effective for maintaining the developmental competence of porcine oocytes even though the development rates were lower than those of ovaries stored at 35 C for 3 h.

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Effects of single and double exposure to brilliant cresyl blue on the selection of porcine oocytes for in vitro production of embryos

Wongsrikeao

Otoi

Yamasaki

et al. 2006

Theriogenology

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Effect of the Removal of Cumulus Cells on the Nuclear Maturation, Fertilization and Development of Porcine Oocytes

Wongsrikeao

Kaneshige

Ooki

et al. 2005

Reprod Domestic Animals

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The present study was conducted to investigate the effects of attachment of cumulus cells to porcine oocytes during the process of maturation and fertilization on the nuclear maturation, fertilization and subsequent development after in vitro fertilization (IVF). In the first experiment, the cumulus cells were removed from cumulus-oocyte complexes (COCs) at 0, 24 and 42 h after the onset of maturation culture and were then cultured until reaching 42 h of cultivation. In the second experiment, COCs were denuded as described in the first experiment, then fertilized and cultured for 7 days. As a control, cumulus cells were allowed to maintain attachment to the oocytes until the end of IVF. The proportion of oocytes reaching metaphase II significantly increased with the delay in the removal treatment of cumulus cells. The proportion of normal fertilization gradually increased with delay in the removal treatment of cumulus cells from COCs until the end of IVF. However, no significant difference in the proportion of normal fertilization was found between the 42-h and control groups. The removal treatment of cumulus cells in the 0- and 24-h group significantly (p < 0.05) decreased the proportion of cleaved embryos when compared with the control, and none of them developed to the blastocyst stage. The proportion of development to the blastocyst stage was significantly higher (p < 0.05) in the control group than in the 42-h group (18.1% vs 12.4%; p < 0.05). The present study indicates that the attachment of cumulus cells to the oocyte during maturation and fertilization is important to support oocyte nuclear maturation, fertilization and subsequent embryo development. Particularly, the attachment of cumulus cells to the oocyte during IVF promotes embryonic development.

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Effects of oxygen tension on the development and quality of porcine in vitro fertilized embryos

et al. 2004

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Antiviral restriction factor transgenesis in the domestic cat

et al. 2011

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The domestic cat is a neurobehaviorally complex, accessible species with specific value in research situations where rodents are unsuited on the basis of disease susceptibility, size, or other factors. For example, studies in the cat have revealed much of our present knowledge of the organization of the mammalian brain, in particular the cerebral cortex, and humans and cats are each afflicted with pandemic AIDS lentiviruses that are susceptible to species-specific restriction factors. A capability for feline transgenesis is needed to realize the distinctive potential. Here we introduced a retroviral restriction factor, rhesus macaque TRIMCyp, and GFP, into the domestic cat germline. The method establishes transgenesis by direct gamete genetic modification for the first time in any carnivore. We produced uniformly transgenic outcomes and observed widespread expression, no mosaicism, and germline transmission without F1 silencing. TRIMCyp-transgenic cat lymphocytes resisted FIV replication. The approach yields a first capability to experimentally manipulate AIDS virus restriction factors at the systemic, whole animal level in a susceptible species. In addition to determining if a species can be made genetically immune to its AIDS virus, it can be used to test HIV-1 gene therapy potential, and to build feline models relevant to other diseases.

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