• 제목/요약/키워드: chromosome

검색결과 2,468건 처리시간 0.026초

한국 무릇(Scilla scilloides Complex)의 세포유전학적 연구 III. BB 게놈의 핵형과 B염색체 조성 (Cytogenetic Studies of Scilla scilloides Complex from Korea III. Karyotype of Cytotype BB and B-Chromosome Composition)

  • 방재욱
    • Journal of Plant Biology
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    • 제36권3호
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    • pp.281-284
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    • 1993
  • A karyotype of cytotype BB plant in Scilla scilloides Complex was established and the frequency of B-chromosomes were investigated. Chromosome complements of BB genome were composed of five pairs of subtelocentric and four pairs of metacentric chromosomes. Chromosome 1 has satellite with nucleolar organizer. Polymorphism was found in chromosome 2. The karyotype of cytotype BB will be available for analysis of genome composition in various cytotypes of S. scilloides Complex. The frequency of B-chromosome was 78.6%. Numbers of B-chromosome ranged from 1 to 4 and plants with 2B-chromosomes were predominant (57.2%). Two type of B-chromosomes, F and F', were found; F is a large iso-chromosome and F' a small one.

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Fusarium 속 균종들의 염색체수 (Chromosome Number in Several Species of the Genus Fusarium)

  • 민병례
    • 미생물학회지
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    • 제29권1호
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    • pp.69-73
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    • 1991
  • The chromosome of Fusarium species during the vegetatve nuclear divisions in hyphae were observed by use of HCl-Giemsa technique on light microscope. The haploid chromosome number of Fusarium anthophilum 7472 was n=7, n=6 in F. anthophilum 7481 and n=6 in F. oxysporum 7500. The haploid chromosome number was 7 in F. napiforme 6129 and F. napiforme 6144. Those of F. caucasicum F. caucasicum ATCC 18791 and F. aquaeductuum ATCC 15612 were n=5. F. coeruleum ATCC 20088 was n=6, n=8 in F. camptoceras ATCC 16065 and n=7 in F. sambucinum NRRL 13451. From these results and previous papers, it may be concluded that the basic haploid chromosome number of the genus Fusarium is n=4.

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Construction of Chromosome-Specific BAC Libraries from the Filamentous Ascomycete Ashbya gossypii

  • Choi Sang-Dun
    • Genomics & Informatics
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    • 제4권2호
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    • pp.80-86
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    • 2006
  • It is clear that the construction of large insert DNA libraries is important for map-based gene cloning, the assembly of physical maps, and simple screening for specific genomic sequences. The bacterial artificial chromosome (BAC) system is likely to be an important tool for map-based cloning of genes since BAC libraries can be constructed simply and analyzed more efficiently than yeast artificial chromosome (YAC) libraries. BACs have significantly expanded the size of fragments from eukaryotic genomes that can be cloned in Escherichia coli as plasmid molecules. To facilitate the isolation of molecular-biologically important genes in Ashbya gossypii, we constructed Ashbya chromosome-specific BAC libraries using pBeloBAC11 and pBACwich vectors with an average insert size of 100 kb, which is equivalent to 19.8X genomic coverage. pBACwich was developed to streamline map-based cloning by providing a tool to integrate large DNA fragments into specific sites in chromosomes. These chromosome-specific libraries have provided a useful tool for the further characterization of the Ashbya genome including positional cloning and genome sequencing.

Report on the chromosome numbers of four Carex taxa in Korea (Cyperaceae)

  • CHUNG, Kyong-Sook;IM, Hyoung-Tak
    • 식물분류학회지
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    • 제49권3호
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    • pp.269-273
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    • 2019
  • We report the meiotic chromosome numbers of four Carex taxa from Korean populations. Three are the first reports made on taxa from Korean populations: Carex appendiculata (Trautv. & C. A. Mey.) $K{\ddot{u}}k$. ($n=27_{II}$), C. fernaldiana H. $L{\acute{e}}v$. & Vaniot ($n=33_{II}$), and C. metallica H.$L{\acute{e}}v$. ($n=15_{II}$). Reports on the other species expand the range of variation in the chromosome number within a taxon, C. miyabei Franch. (n = $43_{II}$, $44_{II}$, $45_{II}$). Carex L. (Cyperaceae) consists of more than 2,000 species worldwide and is the most species-rich genus in Korea. The species diversity in the genus has been hypothesized to be associated with the chromosome variation, but chromosome information pertaining to Korean Carex taxa is not well known. This report updates the chromosome number inventory on Korean Carex to 24 out of 180 taxa.

Application of Chromosome Manipulation, DOP-PCR and AFLP Methods to Isolate Sex-Specific DNAs from Rumex acetosa L.

  • Jin, Dong-Chung;Kim, Joong-Soon;Park, ji-Young;Bong, Jae-Wook;Hur, Yoon-Kang
    • Journal of Photoscience
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    • 제12권2호
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    • pp.75-82
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    • 2005
  • Rumex acetosa L. is a dioecious flowering plant with well developed sex chromosome system: 2n = 12 + XX in the female plants and 2n = 12 + XY1Y2 in the male plants. To isolate sex-linked DNA, we carried out chromosome micromanipulation, followed by DOP-PCR, AFLP of the PCR products, reverse Southern hybridization and sequence analysis. From 500 AFLP specific clones, 13 X-chromosome and 5 Y-chromosome specific clones were obtained. Except one clone RADAX-239 ($\underline{R}umex\;\underline{a}-\underline{D}OP-PCR-\underline{A}FLP-\underline{Y}-chromosome\;specific$), all clones appear to be R. acetosa plant-specific sequences and non-coding sequences. Southern blot analysis using these clones could not discriminate genomic DNAs either from male or female plants. Results of this study imply that both autosome-origin and degeneration of sex chromosomes are prevalent in plant systems.

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계층형 신경회로망을 이용한 염색체 영상의 핵형 분류 (Karyotype Classification of The Chromosome Image using Hierarchical Neural Network)

  • 장용훈
    • 한국컴퓨터산업학회논문지
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    • 제2권8호
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    • pp.1045-1054
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    • 2001
  • 본 논문에서는 염색체의 핵형을 자동으로 분류하는 연구방법을 개선하기 위하여 염색체의 영상을 재구성하는 방법과 패턴의 인식을 위해 계층형 신경회로망의 구현에 관한 두 가지의 알고리즘을 제안한다. 먼저 영상 재구성방법을 사용하여 임상적으로 정상인으로 판명된 20명의 염색체 영상에서 형태 구조학적인 특징정보와 농도정보를 추출하였다. 10명에 대하여 추출한 정보를 다섯 가지로 조합하여 계층형 신경회로망(Hierarchical Multilayer Neural Network: HMNN)의 학습입력으로 사용하여 핵형을 분류할 수 있는 패턴인식기를 구현하였다. 그리고 나머지 10명에 대한 다섯 가지의 조합된 정보를 HMNN의 분류입력으로 사용하여 실험한 결과 약 98.26%의 우수한 인식률을 나타내는 최적화된 계층적 인공신경회로망을 구현할 수 있었다.

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동물 염색체 분리를 위한 최적 혈액배양 조건에 관한 연구 (Methodology of Lymphocytes Culture for Animal Chromosome Preparation)

  • 손시환;이정업
    • Reproductive and Developmental Biology
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    • 제35권3호
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    • pp.257-263
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    • 2011
  • In general, the blood cell culture is a common method for animal chromosome preparation. However, every animal and its cells have unique physiological characteristics and functions. Hence, it is very difficult to find the suitable method of chromosome preparation using animal lymphocyte culture. This study was carried out to fine the suitable method of chromosome preparation using lymphocytes cultures in mammalians and aves including cattle, rat, mouse and chicken. To seek the optimal method of lymphocyte culture in each animal, $2^3$ factorial experiment was designed. The design evaluated three main effects in culture duration, kinds of mitogen supplements and colcemid exposure time with two levels within each effect. The mitotic index and the score of chromosome morphology were analyzed. In results, the suitable methods of lymphocyte culture for chromosome preparation were 72 hours culture, pokeweed mitogen(PWM) supplement and 90 minutes of colcemid exposure in cattle, 72 hours culture, PWM supplement and 50 minutes of colcemid exposure in chicken, 96 hours culture, concanavalin A supplement and 90 minutes of colcemid exposure in rat, and 72 hours culture, PWM supplement and 50 minutes of colcemid exposure in mouse, respectively. In conclusion, kinds of mitogen, culture duration and colcemid exposure time significantly affected the mitotic index and chromosome morphology, in animal lymphocyte culture. The interaction effects between/among treatment factors were also statistically significant.

핵형 분류를 위한 패턴 분류기 구현 (The Implementation of Pattern Classifier or Karyotype Classification)

  • 엄상희;남기곤;장용훈;이권순;정형환;김금석;전계록
    • 대한의용생체공학회:학술대회논문집
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    • 대한의용생체공학회 1997년도 추계학술대회
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    • pp.133-136
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    • 1997
  • The human chromosome analysis is widely used to diagnose genetic disease and various congenital anomalies. Many researches on automated chromosome karyotype analysis has been carried out, some of which produced commercial systems. However, there still remains much room or improving the accuracy of chromosome classification. In this paper, We propose an optimal pattern classifier by neural network to improve the accuracy of chromosome classification. The proposed pattern classifier was built up of multi-step multi-layer neural network(MMANN). We reconstructed chromosome image to improve the chromosome classification accuracy and extracted three morphological features parameters such as centromeric index(C.I.), relative length ratio(R.L.), and relative area ratio(R.A.). This Parameters employed as input in neural network by preprocessing twenty human chromosome images. The experiment results show that the chromosome classification error is reduced much more than that of the other classification methods.

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Meiotic chromosome numbers of five Carex taxa in Korea (Cyperaceae)

  • CHUNG, Kyong-Sook;IM, Hyoung-Tak
    • 식물분류학회지
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    • 제48권3호
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    • pp.201-205
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    • 2018
  • Carex L. (Cyperaceae) is the largest angiosperm genus in the temperate zones with more than 2,000 species worldwide. Unusual chromosome structures, called holocentric chromosomes, have been postulated to contribute to species diversity in the genus. In Korea, this genus has the greatest number of species, but chromosome information as it pertains to the taxa is mostly unknown. Here, we report meiotic chromosome numbers of five Carex taxa in Korea. The following observations are made: Carex jaluensis Kom. ($n=27_{II}$, $28_{II}$, $29_{II}$, $30_{II}$), C. japonica Thunb. ($n=28_{II}$, $29_{II}$), C. planiculmis Kom. ($n=30_{II}$), C. miyabei Franch. ($n=33_{II}$, $36_{II}$), C. neurocarpa Maxim. ($n=51_{II}$, $53_{II}$, $54_{II}$). Except for C. planiculmis, all of the species exhibit variations in chromosome numbers within individuals and/or taxa. The findings with regard to chromosome number diversity in Carex suggest that chromosome number variation (aneuploidy, agmatoploidy and/or symploidy) plays an important role in the richness of the species in the genus. Further cytological investigations are needed for a better understanding of sedge diversity in Korean flora.

Steroid 물질처리를 받은 Chinese hamster 세포에 있어서의 염색체 이상 (Some Chromosome Alteranations in the Cultured Chinese Hamster Cells Treated by Steroids)

  • 강영선
    • 한국동물학회지
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    • 제6권2호
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    • pp.21-27
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    • 1963
  • This study is concerned with alterations in chromosomes (numbers and morphology) when the culture of Chinese hamster cells (FAF-28 strain) was treated by steroids, testosterone and DOC. 1. In 200 cells of normal untreated cells as control population the chromosome of stemline was decided as which was contained in 158 cells ; that is , in 79 percent of the population. The average chromosome number in above 20 cells observed was calculated as 23.95 with minimum limit at 20 and maximum limit at 70. 2. Many different chromosome numbers, ranging from 19 to 352 were observed in the 200 cells treated by testosterone. The diploid number of 22 showed the peak of variation curve was counted in 71 cells (35.5%) and an average chromosome number of stemline was 22 which was counted in 74 cells (37%). While all of the chromosome number of stemline was 22 which was counted in 74 cells (37%). While all of the chromosome numbers in the 200 cells observed ranged from 20 to 181 , an average chromosome number was also found to be 30.09. 4. The chromosome component in the cultured normal FAF-28 cells with 22 diploid chromosomeswas as follows ; 9a) 2 paris were long and metacentric (LM), (b) 3 pairs were medium length and metacentric (MM), (c) 3 pairs were small and subtelocentric (SS) and (d) 3 pairs were small and metacentric (SM). 5. The twenty cells with 44 chromosomes were selected at random from each cell population treated with testosterone and DOC , so that chromosome idiogram and morphology could be studies. In the twenty cells of the testosterone treated population the average ratio of above four groups, LM ; MM;Ss:SM, was found to be 8.6 : 10.8:13.5:10.7. On the other hand, the average ratio in the same number of cells of the DOC treated one was 7.7 :11.4:12.5:12.7. 6. The five types of the altered chromosomes morphologically in the hundred cells selected at random from each cell population treated by testosterone and DOC were observed (Type I-V). The thirty-one altered chromosomes were found to be in the testosterone treated cell population and the sixteen in DOC treated.

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