• Title/Summary/Keyword: chromosome banding

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Identification of Chromosomal Band Markers of the Korean Native Chicken (한국재래계의 염색체 분염 표지 분석)

  • Baik, K. H.;Lee, C. Y.;Sang, B. D.;Choi, C. H.;Kim, H. K.;Sohn, S. H.
    • Journal of Animal Science and Technology
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    • v.45 no.1
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    • pp.1-12
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    • 2003
  • The present study was carried out to establish the standard karyotype of the Korean Native Chicken and to find their chromosomal band markers using high-resolution banding technique. Chromosome analysis was performed on early chick embryos following in vitro culture of fertilized eggs of the yellow-brown and the red-brown lines of the Korean Native Chicken which had been established at National Livestock Research Institute. The high-resolution banding of the chromosome was achieved by treating the embryos with ethidium bromide and colchicine during culture. On GTG-banding, the Korean Native Chicken exhibited a typical chick banding pattern in all the macrochromosomes. Overall chromosomal morphology and positions of typical landmarks of the Korean Native Chicken were virtually identical to those of White Leghorn and International System for Standardized Avian Karyotypes(ISSAK). However, the lengths and G-band numbers of the Korean Native Chicken macrochromosomes were greater than those of White Leghorn and ISSAK. Especially in chromosomes 1 and Z, the Korean Native Chicken exhibited more separated bands in compared with ISSAK. In C-banding patterns, although a lot of observed cells had C-band polymorphic patterns, almost the Korean Native Chicken macrochromosomes had heterochromatic C-band on centromeres and/or near terminal part. However, the heterochromatic C-band was constantly observed at the end of q-arm of Z chromosomes and on the whole W chromosome. In addition, the Korean Native Chicken exhibited distinctive heteromorphic patterns of C-bands on the centromere of chromosome 3 and at the end of q-arm of Z chromosome between homologous chromosomes.

Studies of the chromosome structure of tissue cultured different organisms from the rainbow trout (조직배양에 의한 무지개송어 장기조직세포의 염색체 기본구조에 관한 연구)

  • Jung, Yung-rae;Jeong, Young-gil;Son, Jin-ki;Kim, Moo-kang
    • Korean Journal of Veterinary Research
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    • v.35 no.2
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    • pp.205-216
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    • 1995
  • This study was examined chromosome structure of kidney, fin, blood cell, sexual organ that were differently examined chromosome of a good cell activity from organ, medium, staining methods, instruments with rainbow trout 100. And so we obtained following conclusion. 1. The difference from each organ and medium is that a good cell activity of fin, kidney, sexual organ were obtained in TC-199 medium and a good cell activity in TC-199 medium+PHA(5%). 2. In the difference by staining methods, G-banding and C-banding were analyzed by electron microscope or cytoscan. Among them, heterochromatin of centromere analyzed by C-banding. 3. The zygotene and the leptotene were analyzed in this study. 4. Karyotype, heterochromatin and each stage of cell division were clearly analyzed by cytoscan.

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Studies on the Chromosomal Banding Analysis of Korean Native Fowl (한국재래계의 염색체 분양분석에 관한 연구)

  • 오희정;오봉국
    • Korean Journal of Poultry Science
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    • v.16 no.4
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    • pp.201-207
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    • 1989
  • This study was carried out to identify the chromosome morphological structure and G-, C-banding pattern of Korean native fowl. The samples used in this study were early chick embryos, and the method of chromosomal analysis quoted from the protocal of Ohio univ. with more or less modified. The results were summerized as follow as; 1. In each of macrochromosomal morphology, the arm-ratio, centromeric index, and relative length of Korean native fowl were more or less different from improved breeds, but the designations were the same. 2. The graphical pecks, by densitometric recordings, in each macrochromosome number of 1, 2, 3, 4, Z, and 5, numbered 21, 14, 12, 8, 11, and 4 in G-banded, and 16, 13, 9, 9, 9, and 4 in C-banded, respectively. Those pecks could be explained as a consequence of chromosome condensation during mitosis and of genetic material differences.

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Chromosome Identification of Durum Wheat by Acetocarmine Wright C-banding Technicque. (C-banding 법에 의한 Macaroni Wheat 의 염색체동정)

  • 오세관
    • Korean Journal of Plant Resources
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    • v.4 no.1
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    • pp.5-12
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    • 1991
  • A combination of acerocarininc-Wright C-banding technique was utilized to identify each chromosomes in durum wheat ,Triticum durum var. Hordeiforme (2n=4x=28 AABB), This technique elucidated qualitativr and quantitative traits of the indi-vidual chromosomes In coinplement. Most comspicuous bands were observed at thecentromere of B-genome chronmosomes. Each chromosomes of A-genome had some-what weak centromeric, proximal and terminal bands. Chromosomes 2A and 4A hasa small subterminal bands. 6A is smallest and metacentric chromosome and , has two faint interstitial band. Chromosomes 1B and 6B showed satellite and constriction lage band. Short arm of 3B has three heavily interstitial bands. Both arms of chromosome 4B has a lagc centromeric band and a very lage proximal band. 5B had heavilycentromeric band and the long arm showed prominent two interstitial bands. Chromo-somes 25 and 7B has a small terminal band of both arms.

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Application of G- anad C-banding Techniques for Chromosome Analysis Using Testis of Mouse (Mouse의 정소이용 염색체 조사에 G- 및 C-banding법의 적용)

  • Choi, Yung-Hyun;Kwon, Yong-Won;Yun, Hee-Sun;Yoo, Mi-Ae;Lee, Won-Ho
    • Journal of Life Science
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    • v.8 no.1
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    • pp.60-66
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    • 1998
  • The mototic and meiotic chromosomal characteristics of ICR mice were investigated with G-and C-banding techniques. For the puposes, the chromosomal preparations were made with the modified air-drying method of Imal et al. Chromosomal analysis using testis could be observed mitotic as well as meitotic chromosomal behaviors, and the centromeric regions of all chromosomes including X chromosome were strongly stained in C-banded preparations. Nineteen autosomal bivalents and a single uniequal terminally associated X-Y bivalent in normal cells were observed during the late prophase and the metaphase of the meiosis I. The mean frequencies of previously dissociated X-Y chromosomes in the primary apermatocytes of the control group were 7.45%, but the frequencies of X-Y dissociation in the alkylating agents-treated group were about 3-4 times higher than that in the control group. Application of C-banding in meiotic stages could be certainly distinguish between vibalent type and univalents type of sex chromosomes.

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Heterochromatic Knob Number And Karyotype in Korean Indigenous Waxy Corn by Giemsa C-banding Pattern of Mitotic Chromosome (C-banding 패턴에 의한 한국 재래종 찰옥수수 염색체의 Heterochromatic knob 수와 핵형)

  • Lee, In-Sup
    • Journal of Life Science
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    • v.17 no.6 s.86
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    • pp.762-765
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    • 2007
  • A Giemsa C-banding method was used for the identification of somatic chromosomes and heterochromatic knob position in Korean indigenous waxy com (Zea mays L.). 5 inbred stocks were examined and their heterochromatic knob numbers ranged from 6 to 12. In comparison of homologous chromosomes of two stocks of YS-1 and MY-1, knob numbers, knob positions, arm ratios and relative length of chromosomes were different between the genotypes. The length of homologous chromosomes in YS-1 were generally larger than those of MY-1. The Giemsa method was proved to be useful for the identification of somatic chromosome and a C-banded diagram showing knob positions, arm ratios and relative length of chromosome could be used as a good tool to compare the characteristics of chromosomes of Korean indigenous waxy corn stocks.

Studies on the G-banding Patterns of Normal and of Delayed Spiralized Chromosomes by BUdR in Dwarf Hamsters (Dwarf Hamster의 正常染色體와 BUdR에 의해 凝縮遲延된 染色體의 G-banding Pattern에 대한 硏究)

  • Hahn, Sahsook
    • The Korean Journal of Zoology
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    • v.18 no.2
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    • pp.71-86
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    • 1975
  • The G-banding patterns of normal and of delayed spiralized chromosomes by BUdR were investigated in three established cell lines of dwarf hamsters. The results obtained were as follows: 1. The number of G-bands appeared in Chinese hamster T-233 cell line was 65. The centromeric dark band was found in No.1 chromosome and weakly stained bands were also observed in part of the centromeric regions of Nos. 2, 3, 8 and $X_2$ chromosomes. Two homologous X chromosomes were found in different banding patterns. Terminal dark bands were shown in No. 1 chromosome. No conspicuous bands appeared in No. 10 chromosome. 2. Eighty four bands appeared in Armenian hamster Y-1249 cell line. Centromeric dark bands were observed in Nos. 5 and 10 chromosomes and moderatly stained bands were also found in near the centromeric region of the long arms of Nos. 7 and 9 chromosomes. Two isomorphic X chromosomes were also distinguished by their banding patterns. 3. In Y-1313 Armenian hamster cell line, the bands were 69. No centromeric dark bands were observed in this cell line, but moderatly stained bands appeared in the centromeric area in the long arm of No. 9 chromosome. The banding patterns of these two cell lines of Armenian hamster were quite different and readily distinguished. Only No. 8 chromosome showed similar G-banding patterns. Although Nos. 5, 7 abd 8 chromosomes revealed the same number of bands in these two cell lines, the location and staining intensity were quite different. 4. Chromosomes of Nos. 1, 2, 6, $X_1$ and $X_2$ in T-233 cell line and of 1, 4, 7, 8, 9, $X_1$ and $X_2$ in both cell lines of Armenian hamster were found to be elongated due to the inhibition of mitotic spiralization by BUdR. G-banding patterns of these chromosomes were found to be identical to those of normal chromosomes in these cell lines.

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Cytogenetic Characteristics of Chinese Hamster Ovarian Cell CHO-K1

  • Sohn, Sea-Hwan;Cho, Eun-Jung;Jang, In-Surk
    • Reproductive and Developmental Biology
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    • v.30 no.4
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    • pp.263-270
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    • 2006
  • The Chinese Hamster Ovarian cells CHO-K1 are one of the most extensively used cells for the evaluation of gene expression and toxicology. However, these cells are frequently used for biomedical research without consideration of their cytogenetic characteristics. Therefore, we carried out to investigate the karyologic profiles, the frequency and type of chromosome aberration, and the distribution of telomeric DNA on chromosomes of the CHO-K1 cells. The GTG banding and fluorescence in situ hybridization on CHO-K1 cells were performed to characterize the karyotype and the distribution of telomeric DNA The present study revealed that the chromosome modal number of CHO-K1 cells was 2n=20; eight chromosomes appeared to be identical with those of the normal Chinese hamster, whereas the remaining 12 chromosomes were shown to be translocated, deleted, inversed, or rearranged from Chinese hamster chromosomes. The telomeric DNA on CHO-K1 chromosomes was intensively distributed at the centromeres rather than the ends of chromosomes. In addition, three chromosomes had interstitial telomeres and one marker chromosome entirely consisted of telomeric DNAs. The frequency and type of chromosome aberrations in CHO-K1 cells were examined. Of the 822 metaphase spreads, 68 (8.3%) cells resulted in chromosome aberrations of which the chromosome breakage was the most frequently occurred.

G-, C-, and NOR-banding of Korean Native Pig Chromosomes (한국재래돼지의 G-, C-, 및 NOR-banding)

  • Sohn, S.H.;Kweon, O.S.;Baik, K.H.;Jung, W.;Cho, E.J.;Kang, M.Y.
    • Journal of Animal Science and Technology
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    • v.45 no.6
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    • pp.901-910
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    • 2003
  • Using the G-, C-, and NOR-banding techniques, a karyotyping for Korean Native Pig was performed. Blood samples were collected from 50 male Korean Native Pigs that had been bred at the National Livestock Research Institute and then blood cells were prepared from in vitro cultures followed by karyotyping; G-, C-, and NOR-banding patterns of metaphase chromosomes were analyzed. The karyotype of Korean Native Pig is 38, XX or XY which consists of 5 pairs of submetacentric chromosomes(Group I), 2 pairs of acrocentric chromosomes with short p-arm(Group II), 5 pairs of medium metacentric chromosomes(Group III), 6 pairs of acrocentric chromosomes(Group IV) and metacentric X and Y sex chromosomes. On GTG-banding, the Korean Native Pig exhibited a typical and identical banding pattern in each homologous chromosomes. Overall chromosomal morphology and positions of typical landmarks of the Korean Native Pig were virtually identical to those of Committee for the Standardized Karyotype of the Domestic Pig(CSKDP). However, numbers of G-bands of the Korean Native Pig chromosomes were more than those of CSKDP. In chromosomes 1, 3, 5, 6, 7, 8, 13, 14, 15, 16, 17, 18 and X, the Korean Native Pig exhibited more separated bands as compared with CSKDP. In C-banding patterns, although the quantity of heterochromatin was variable in each chromosome, most of the Korean Native Pig chromosomes had heterochromatic C-bands on centromeres. However, the heterochromatic C-band was constantly observed on the whole Y chromosome. In AgNOR staining, the NORs were located at centromeres on the chromosomes 8 and 10. The number of NORs per metaphase ranged from 2 to 4 giving a mean value of 2.13. The number of NORs were distributed on all chromosome pair 10 but not on chromosome 8. The sizes of NORs were also differed between homologous chromosomes 8. Numbers of NORs of Korean Native Pig were significantly higher than those of Yorkshire. The pattern of pig NORs was polymorphic in breeds, individuals and cells, especially on chromosome 8.

The Genetic Variation of Pinus densiflora and Pinus thunbergii by Giemsa C-banding (소나무 및 곰솔의 염색체(染色體) C-분염(分染)에 의한 유전변이(遺傳變異))

  • Park, Sang Jun;Son, Doo Sik
    • Journal of Korean Society of Forest Science
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    • v.80 no.4
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    • pp.383-392
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    • 1991
  • The genetic variation of Pinus densiflora and Pinus thunbergii by Giemsa C-banding was investigated and the results were as follows : 1. From Karyotype analysis of P. densiflora and P. thunbergii by Giemsa C-banding, somatic chromosome numbers of both species were 2n=24. 2. Chromosome of P. densiflora was M-type in arm ratio and they were no variation among individuals but variation in number and position of the secondary constriction and telomere banding among individuals. 3. P. thunbergii showed also M-type in arm ratio of chromosome, however, there was no variation in both number and position of the secondary constriction among individuals. 4. From chromosome C-banding, bands were appeared in the position of centromere and the secondary constriction in both P. densiflora and P. thunbergii. 5. In P. densiflora, the bands were shown on the secondary-constriction in chromosome No. 3, 4 and 7 of all individuals and the bands of the secondary constriction in chromosome No. 1, 2 and 5 showed variation among individuals. In chromosome No. 9, 10 and 11, the bands were shown in telomere and showed variation among individuals. 6. In P. thunbergii, the bands were shown on the secondary constriction in chromosome No. 2, 3, 7 and 8, and were shown no variation among individuals. There was no band on telomere. 7. The genetic variation by C-banding were shown in P. densiflora among individuals but no in P. thunbergii, and were shown on the secondary constriction in chromosome No. 4 of Pinus densiflora and in clnromosome No. 8 of Pinus thunbergii. These are the difference between the two species by C-banding.

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