• Asian-Australasian Journal of Animal Sciences
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• v.2 no.1
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• pp.35-38
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• 1989

Giemsa C-banded mitotic chromosome prepatations from White Leghorn, New Hampshire and Rhode Island Red inbred lines were compared for frequency of C-band regions on individual chromosomes. Except for autosomes 3, 6, 8 and 9 and W sex chromosomes, C-banding was extremely variable in other macrochromosomes. No divergence for C-band difference between homologous chromosomes of these lines was detected. Approximately 75% of the mitotic metaphase microchromosomes have recognizable C-band regions with the current technique.

• Journal of Plant Biology
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• v.22 no.4
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• pp.101-106
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• 1979

Giemsa C-banding analysis with Korean rye strain revealed that individual chromosomes had characteristic banding patterns making it possible to distinguish the seven rye chromosomes one from another. It seems to be evident that B-chromosomes in rye contain proportionally more heterochromatin than autosomes.

• Journal of Plant Biology
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• v.32 no.3
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• pp.181-188
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• 1989

C-banded karyotypes in A. anisopodium, A. sacculiferum, A. deltoide-fistulosum and A. splendens were investigated. The chromosome compositions were diploid of 2n=16 in A anisopodium and A. splendens, and teiraploid of 2n=32 in a. sacculiferum and A. deltoide-fistulosum. The bands were distributed in telomeric parts of the chromosomes dominantly in addition to interstitial regions sporadically, resulting in the specific C-banded karyo types according to the species. No centromeric band was observed in these species except only one chromosome in A. deltoidefistulosum. The interspecific relationship based on the C-band distribution will be discussed.

• Journal of Plant Biology
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• v.39 no.3
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• pp.203-207
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• 1996

On the basis of karyotypic analysis performed by conventional staining and Giemas C-banding technique, cytological relationship was inferred for 21 lines of Paeonia lactiflora Pal. cultivated in Korea. It was very difficult to infer their organized karyotypic classification system using the composition of somatic chromosomes involving sat-chromosomes, relative length of chromosomes, arm ratio and karyotypic formulae by conventional staining. From the distribution and number of Giemsa C-bands on the chromosomes b and c, 21 lines can be subclassified into 5 groups. It seems that the karyotypic polymorphism is observed in 21 lines of cultivated P. lactiflora because peony mainly propagates by outbreeding.

• 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.

• Journal of Plant Biology
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• v.21 no.1_4
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• pp.29-32
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• 1978

The karyotype of Lilium cernum has been analysed by means of C-banding technique. Most of clones observed were 2n=24 chromosomes which consist of two pairs of submetacentric and ten pairs of subtelocentric chromosomes, among which two pairs of chromosomes(B and E) showed secondary constriction in the short arm. In addition to these chromosomes a small supernumerary telocentric chromosome was seen in the eight clones. Sixtyeight bands were observed in the twentytwo chromosomes of complement and one band in the supernumerary chromosome. A pair of chromosome (L) did not show any band. The bnads on the chromosome. A pair of chromosome (L) did not show any band. The bands on the chromosomes were distributed in the centromere, secondary constriction and intercalary regions of arms. Of the twelve pairs of chromosomes ten pairs showed symmetric banding patterns in each, but two pairs (I and K) showed asymmetric banding patterns.

• The Korean Journal of Zoology
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• v.33 no.2
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• pp.217-221
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• 1990

The chromosomal analyses of Dendmcopos major hondoensis and D. leucotos Ieucotos(Picidae:Piciformes) in Korea were performed by conventional Giemsa staining and C-banding method. The diploid number of two species was 2n=90-92 and arm number was AN= 92-96.The conventional karyotypes were very similiar but distribution of constitutive heterochromatin were differ in the first chromosome. The second and several pairs of macro-telocentric chromosbmes have telomeric constitutive heterochromatin.

• Korean Journal of Poultry Science
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• v.14 no.2
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• pp.89-96
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• 1987

The purpose of this paper to present morphological normal chick chromosomes and develope avian cytogenetic techniques including chromosome preparation and banding technique. The early chick embryos provide a consistent source of material with hish mitotic cells. Although chick embryo tissue gives excellent preparations, the 4-5 days embryo is somewhat incovenient materials, Most imp of ant for avian Chromosome analysis are the technical protocols to achieve adequate preservation, spreading, and staining of the full chromosome complement. To precise chromosome analysis, pro-metaphase states are required. Best results of banding will be obtained from air dried slides prepared from early chick embryos that have been aged at least 1 week. Good G-banding differentiation is achieved by adequate trypsin digestion fellowed by staining in Goe,sa dye. The results of C-banding is influenced by many factors including the conditions of Ba(OH)$_2$, HCl treatment, and state of rinsing. In addition to precisely interprets banding patterns, the densitometric analysis is recommended.

• Parasites, Hosts and Diseases
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• v.25 no.1
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• pp.37-44
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• 1987

As a series of systematic classification for Korean common liver fluke, Fasciola sp., karyotype was investigated by means of the modified air-drying technique and of the regular Giemsa staining. Also, C-staining method was applied for detailed karyological analysis from the germ cells of the fluke. The following is a brief summary of the leading facts gained through the experiment. 1. Korean Pasciola sp. was classified into three types based on their chromosomal complements; individuals with 20 or 30 chromosomes and with a 20/30 mosaic constitution. Worms having 30 chromosomes represent a triploid form with 3 sets of 10 basic chromosomes, while those with 20 chromosomes were diploid and mosaic individuals were 2n/3n mixoploid. 2. The frequency of the individual type calculated is as follows; 67.45% of 212 flukes examined was of diploid, 10.85%, triploid, and the rest, 21.7%, mixoploid, respectively. In many cases, two or three types were found in the peculiar bovine host while single type inhabitant was about 20% out of 52 cases. 3. The twenty chromosomes consisted of 1 pair of large metacentrics, 4 pairs of medium-sized subtelocentrics, and 5 pairs of small submetacentrics, while constitution of the thirty chromosomes was nearly interpreted as a triploid form with 3 sets of 10 basic chromosomes. The high centromeric indexes of both types are the first Pairs among all the examined, and 37.93% was of diploid and 47.93%, triploid, respectively. 4. In mixoploid individuals, constitution of the chromosomes of diploid or triploid cells was the same as that of diploid or triploid individuals. 5. All the chromosomes of the germ cells in both types showed C-band around the centromeric region and especially the chromosomes no's 3,7, and 8 showed a remarkable C-band distinguished from other chromosomes. 6. The variance for the sizes of the worms and the eggs were not parallel with three different genotypes in Korean common liver fluke.

• Korean Journal of Environmental Agriculture
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• v.37 no.3
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• pp.229-234
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• 2018

BACKGROUND: in vitro micronucleus test (vitMNT) is one of the promising alternative testing methods in genotoxicity test and was adopted as OECD test guideline for chemical registration. This study was conducted to optimize the cytoplasm conditions in vitMNT using Chinese hamster lung (CHL) cell. METHODS AND RESULTS: In this study cytokinesis-block micronucleus test was conducted. Mitomycin C and colchicine were used as positive control chemicals and were treated for three hours (short time) or twenty-four hours (long time). Giemsa solution was used for cell staining. For optimization of vitMNT, the final fixative was prepared as five concentrations (0%, 1%, 3%, 5%, and 25%) of acetic acid in methanol, and treatment times of the final fixative were varied under four conditions (immediately, one hour, four hours, and one day). CONCLUSION: Acetic acid at 1% in methanol as the final fixative was most adequate to preserve the cytoplasm around the nucleus in the interphase cells. Also, fixative treatment time of cell suspension for one to four hours may minimize the cell rupture. These results can be helpful for getting an accurate result promptly due to clear visual distinction to score micronucleus in vitMNT using giemsa solution.