The growing oocytes become progressively capable of resuming meiosis, and full meiotic competence appear when they are about 80% of the size of fully grown oocytes. As hormonal influences vary at different stages of reproductive cycle, the size of oocytes may vary according to the reproductive stages. The present study was designed to compare the diameter between the ovulated and freshly collected immature canine oocytes. The ovulated oocytes were collected 72 hr after ovulation by oviductal tube flushing by laparotomy under general anesthesia. Immature oocytes were collected by ovarian slicing method. Diameter of all oocytes was measured directly using epiflurescence microscope with a calibrated micro-eyepiece micrometer at ×200 magnification. The thickness of zona pellucida and diameter of cytoplasm were measured separately and recorded. A total of 2209 zona intact oocytes were collected, among them 628 from anestrus, 675 from follicular, 838 from luteal and 68 by fallopian tubes flushing methods. The average number of oocytes was 104.7, 168.8, 119.7 and 11.3 for anestrus, follicular, luteal and fallopian tubes flushing methods, respectively. The average diameters of the ooplasm and oocyte were significantly varied in different reproductive stages as well as with ovulated oocytes (P<0.05). The average diameter of ooplasm and oocyte was 115.6 and 127.7, 143.0 and 162.0, 134.6 and 150.6, 159.6 and 185.6 for anestrus, follicular, luteal and ovulated oocytes, respectively. Highest number of oocytes with larger diameter could be collected from the follicular and luteal stages. In conclusion, the follicular and luteal ovaries are the best sources of oocytes for canine IVM.

The canine major histocompatibility complex (MHC) is referred to dog leukocyte antigens (DLA), which is known to be the most polymorphic genetic system in canine species. Many cloned dogs have been produced since Snuppy, first cloned dog, there was no research about genetic identity of MHC among cloned animals. Recently in Lee’s group, two non-transgenic cloned beagles (BG1, 2) were produced by somatic cell nuclear transfer (SCNT) using fetal fibroblast (BF). Also, four transgenic cloned beagles (Ruppy 1-3, 5) were generated using transgenic BF transfected with Red fluorescent protein (RFP) gene. We hypothesize that non-transgenic (BG1, 2) and transgenic (Ruppy 1-3, 5) cloned beagles derived from identical donor cells have the same immunological genetic characteristic except for RFP gene insertion in the genome. Thus, the aim of this study is to confirm the immunological identity of DLA class II in cloned beagles produced using same nuclear donor cell. Genomic DNA was extracted from blood of BG1, BG2, Ruppy 1, 2, 3 and 5. Genomic DNA of normal two control beagle, no correlation with BF was also investigated for rulling out the possibility that beagles were inbred. Forward and reverse primers used for DLA-DQA1 and DQB1 respectively were DQAF: 5’-TAAGGTTCTTTTCTCCCTCT-3’ and DQAR: 5’-GGACAGATTCAGTGAAGAGA-3’ DQBR:5’-CTCACTGGCCCGGCTGTCTC-3’ and DQBR: 5’-CACCTCGC CGCTGCAACGTG-3’. Polymerase Chain Reaction (PCR) products were purified, sequenced directly using the Big Dye Terminator kit. Sequencing analysis was performed on an automated 3730xl DNA analyzer. In experiment 1, sequence of DLA-DQ alpha 1 (DQA1) and DLA-DQ beta 1 (DQB1) exon 2, hypervariabel region, was compared in BG1 and BG2. Experiment 2 also compared the sequence of DQA1 and DQB1 among Ruppy 1, 2, 3 and 5. Experimental 3 compared sequence of DQA1 and DQB1 among all cloned dogs (BG1, BG2 and Ruppy 1-3, 5). As a result, BG1 and BG2 have same allele for DQA1 and DQB1 as we expected. They share DQA1*00101 and DQB1*02901 in experiment 1. In experiment 2, Ruppy 1, 2, 3 and 5 also have identical DQA1*00101 and DQB1*02901 allele. No discrimination between transgenic dogs and cloned dogs was seen in DQA1 and DQB1 Allele in experiment 3. DQA1, DQB1 allele was identified as *00101 and *02901 in all dogs. We provided the allele identity of DQA1and DQB1 in cloned beagles, which can be used as preliminary data for immunological related studies. In conclusion, transgenic cloned dogs despite of red fluorescent protein genes being inserted in their nuclear DNA were immunologically compatible with non-transgenic cloned dogs. We demonstrated that cloned beagles produced using identical nuclear donor were immunologically compatible.

The objective of this study was to investigate the effects of oxygen tension during in vitro maturation of porcine oocytes on the nuclear maturation and differences in gene expression. Cumulus-oocyte complexes (COCs) were collected from ovaries obtained at a local slaughterhouse, matured for 44 hours in TCM199 supplemented with porcine follicular fluid (pFF) under 5% or 20% oxygen concentration. In results, oxygen tension had no significant effects on nuclear maturation. Relative poly(A) mRNA abundance of MnSOD, CCNB1, LDHA, G6PD, BCL, GPX1, IGFR2, GLUT1, BAX, GREM, PTGS2 was analysed in cumulus cells. GLUT1, G6PD, LDHA were up-regulated in the cumulus cells matured in low oxygen, suggesting a higher glucose uptake and an increase in anaerobic glycolysis, whereas CCNB, MnSOD were up-regulated in the cumulus cells matured in high oxygen, which suggest a higher activity of mitosis-promoting factor and antioxidant response. In conclusion, cumulus cells increase in glucose metabolism via anaerobic glycolysis under low oxygen concentration and show significant change in antioxidant against oxidant damage or apoptotic response under high oxygen concentration. For such an effect of cumulus cells, oocytes could be matured normally regardless of various oxygen concentration.

TILLING (Targeting Induced local Lesions IN Genomes) is known to be an excellent methodology for reverse genetics approach. About 15,000 M3 TILLING lines have been developed after gamma-ray irradiation to the rice seeds of Donganbye. In order to assess genetic diversity of the TILLING population. we have employed a multiple dominant marker technique, such as AFLP. A total of 96 (0.64%) lines including Dongganbye were randomly selected and their genetic diversity was assessed on the basis of AFLP marker polymorphism by using 5 primer combinations. An average of 100.4 loci with a range of 97 to 106 were detected by using the primer combinations, resulting in 173 (34.6%) polymorphic loci among 96 lines. A broad range of similarities with 80% to 96% was evidenced between Donganbye and each of 96 TILLING lines, reflecting genetic diversity of the TILLING population. About 30 polymorphic loci have been cloned and their sequences have been blasted against rice whole genome sequences. The sequences evidenced highly significant matches to each of genes including exons and introns, upstream sequences and downstream of genes, and intergeneic sequences. Therefore, the TILLING rice population would be valuable genetic sources for rice functional genomics.