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Studies on toxicity of ochratoxin a to chromosomes of tumor cell-line.
1989
Yoon W.J. | Roh M.H. | Kim K.R.
This study was performed to investigate the toxicity of ochratoxin A (OA) to the chromosomes of K562 tumor cell-line in vitro. Chromosomes of K562 tumor cell-line resulted in pseudotriploidy on the control group. Chromosomes of K562 tumor cell-line treated with OA resulted in heteroploidy compared with the control group. The mean number of chromosomes in the karyotype of the control group (60) were 7 in the A group, 5 in the B group, 20 in the C+X group, 7 in the D group, 9 in the E group, 6 in the F group, and 6 in the G+Y group respectively. Treating with 0.7 micro M OA, the number of chromosomes were increased one in E and F group, two in G+Y group compared with control group. In treated with 1.5 micro M OA, the increasing number of chromosome was one in E and F group. In treated with 3 micro M OA, E and F group was increased one and G+Y group were increased two chromosome in G+Y group was decreased one. K562 tumor cell line treated with OA showed Philadelphia-Chromosome in the long arm of the G group karyotype chromosome. The rate of chromosome aberration in K562 tumor cell-line treated with OA was 77 % in 0.7 micro M OA group, 71 % in 1.5 micro M OA group, 82 % in 3 micro M OA group and 94 % in 6 micro M OA group respectively. The rate of chromosome aberration of K562 tumor cell-line treated with OA was high in the high dose level of OA, and chromosome aberration of K562 tumor cell-line treated with OA showed deletion, minute, dicentric-chromosome and translocation in the long arm of the C-group karyotype. As a result of this study, the toxicity of OA showed deletion, minute, dicentric-chromosome and translocation in the long arm of the C-group karyotype, and then, the toxicity of OA resulted in the damage to RNA and protein synthesis in K562 tumor cell-line, and the C-group karyotype of K562 tumor cell-line was target of the toxicity of OA.
Show more [+] Less [-]The karyotype of Korean native goat (Capra hircus)
1999
Oh, S.H. | Yun, Y.M. | Seong, J.K. (Yonsei University, Seoul (Korea Republic). Department of Laboratory Animal Medicine, Medical Research Center, College of Medicine) | Yoon, Y.S. | Lee, J.S. (Seoul National University, Suwon (Korea Republic). Department of Veterinary Histology and Embryology, College of Veterinary Medicine) | Lee, H.S. (Seoul National University, Suwon (Korea Republic). Department of Veterinary Anatomy, College of Veterinary Medicine)
We investigated the cytogenetic characteristics of Korean native goat(Capra hircus). Chromosome slides were prepared from peripheral blood cell cultures. GTG, GBG, RBG and CBG-banding techniques were employed on those slides. The high resolution karyotype of Korean native goat could be made with the incorporation of BrdU. Korean native goat has 60 chromosomes composed of 58 autosomes and XY or XX sex chromosomes. All of autosomes of Korean native goat were acrocentric chromosomes. X chromosome was submetacentric and Y chromosome was metacentric. The GTG, GBG and RBG-band patterns of Korean native goat were similar to those of other goats. CBG-band regions were distince at the proximal portion of the long arms of all autosomes in Korean native goats. According to our investigation, there was no significant difference in chromosomal band patterns between Korean native goat and other goats. It might be necessary ot use molecular genetic markers for clarifying the genetical characteristics of Korean native goat whose biological characteristics are not clearly defined.
Show more [+] Less [-]A case of sex determination by amplification of SRY and Amelogenin gene in horse
2005
Cho, G.J. (Korea Racing Association, Gwachon, Republic of Korea), E-mail: chogj@kra.co.kr | Lee, S.Y. (Korea Racing Association, Gwachon, Republic of Korea) | Yang, Y.J. (Korea Racing Association, Gwachon, Republic of Korea)
The objective of present study was to ascertain sex determination for individual identification, parentage control, and sex chromosome anomalies in horse. PCR amplification products of the equine sex determining region of the Y chromosome gene (SRY) and amelogenin gene (AMEL) were detected by using agarose gel electrophoresis. A normal sire and foal Ⅱ showed 1 SRY band (430 bp) and 3 AMEL (AMELX, AMELY, and AMELX/Y) band, 175 bp, 160 bp, 190 bp, respectively, and a normal dam and foal Ⅰ showed a single AMELX band (175 bp). These results enables a quick diagnosis for sex determination prior to cytogenetic analysis.
Show more [+] Less [-]Further chromosomal and clinical studies on the XY/XYY mosaic bull [Chryptorchidism]
1984
Miyake, Y. | Kanagawa, H. | Ishikawa, T. (Hokkaido Univ., Sapporo (Japan). Faculty of Veterinary Medicine)
Genetic analysis of modifiers for the hooded phenotype in the rat
2010
Torigoe, D., Hokkaido Univ., Sapporo (Japan) | Asano, A. | Yamauchi, H. | Ruiha, D. | Sasaki, N. | Agui, T.
The hooded phenotype is one of the coat color phenotype seen peculiarly in the rat. The hooded locus showing autosomal recessive inheritance is mapped to chromosome (Chr) 14 and that the hooded phenotype receives modification by hooded-modifier gene showing the linkage to the hooded locus. However, a gene responsible for either the hooded or hooded-modifier gene is not yet identified. To clarify genetic control of hooded phenotype, we carried out genetic linkage studies using BN and LEA rats. For determination of phenotypic variation, we measured ratio of pigmented coat area in parental and their Fsub(1) and Fsub(2) rats. We, then, conducted a genome-wide scan on 152 Fsub(2) rats for linkage with ratio of pigmented coat area for the dorsal, ventral and total regions. A major quantitative trait locus (QTL), D14Got40, showing highly significant linkage contributing 70-90% of the variance for hooded phenotype was detected on Chr 14, which may be correspondent to the hooded locus. In addition, another QTL, D17Rat2, showing highly significant linkage was also detected on Chr 17 in dorsal region phenotype as well as a QTL showing suggestive linkage on Chr15 in ventral region phenotype. We, further, investigated a genome-wide scan for epistatic interactions and detected significant interactions between D14Got40 and D20Mit1, and between D14Got40 and D17Rat2 in the dorsal region phenotype. These results suggest that a major QTL in Chr 14, which is possibly correspondent to the hooded locus, mainly regulates the hooded phenotype with some modifier loci, two of which show epistatic interactions with the hooded locus.
Show more [+] Less [-]Trisomy 8 does not affect differentiative potential in a murine parthenogenetic embryonic stem cell line
1998
Park, J.I. (Hokkaido Univ., Sapporo (Japan)) | Yoshida, I. | Tada, T. | Takagi, N. | Takahashi, Y. | Kanagawa, H.
Murine parthenogenetic embryonic stem (ES) cell lines expressing lac zeta reporter gene were isolated after co-transfection with lac zeta reporter gene (pENL) and neoR gene (pSTneo) to TMA-48P cell line of 129/Sv origin. Karyotype analyses showed that all of four transfected cell lines examined contained 41 chromosomes with trisomy 8. Bacterial neoR transgene required for G418 selection were integrated into several chromosomes including chromosome 8. Histological studies of teratomas formed in syngenic mice and embryoid bodies grown in vitro showed that the differentiative potential remained almost identical in chromosomally normal parental cell line and its derivative cell lines trisomic for chromosome 8
Show more [+] Less [-]Studies on the chromosomes of trematoda, Fasciola spp, Eurytrema pancreaticum and Calicophoron calicophorum in Korea
1990
Jang, D.H. | Noh, J.W. | Kang, D.W. (Seoul National University, Suwon (Korea Republic). College of Veterinary Medicine) | Kim, B.K. (Bayer Vetchem Company Ltd., Seoul (Korea Republic). Animal Pharmaceuticals Institute) | Kim, S.W. (Seoul Metropolitan Institute of Health and Environment, Seoul (Korea Republic))