• Title/Summary/Keyword: Centromere

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Recent Advancement on the Knowledges of Meiotic Division (I) (減數分裂, 最近의 進步(I))

  • 한창열
    • Korean Journal of Plant Tissue Culture
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    • v.25 no.6
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    • pp.453-475
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    • 1998
  • During the 100 years since the initial discovery of meiotic phenomenon many brilliant aspects have been elucidated, but further researches based on light microscopy alone as an experimental tool have been found to have some limits and shortcomings. By the use of electron microscopy and armed with the advanced knowledges on modern genetics and biochemistry it has been possible to applu molecular technology in gaining information on the detailed aspects of meiosis. As synapsis takes place, a three-layered proteinous structure called the synatonemal complex starts to form in the space between the homologous chromosomes. To be more precise, it begins to form along the paired chromosomes early in the prophase I of meiotic division. The mechanism that leads to precise point-by-point pairing between homologous chromocomes division. The mechamism that leads to precise point-by-point pairing between homologous chromosomes remains to be ascertained. Several items of information, however, suggest that chromsome alignment leading to synapsis may be mediated somehow by the nuclear membrane. Pachytene bivalents in eukaryotes are firmly attached to the inner niclear membrane at both termini. This attached begins with unpaired leptotene chromosomes that already have developed a lateral element. Once attached, the loptotene chromosomes begin to synapse. A number of different models have been proposed to account for genetic recombination via exchange between DNA strands following their breakage and subsequent reunion in new arrangement. One of the models accounting for molecular recombination leading to chromatid exchange and chiasma formation was first proposed in 1964 by Holliday, and 30 years later still a modified version of his model is favored. Nicks are made by endomuclease at corresponding sites on one strant of each DNA duplex in nonsister chromatid of a bivalent during prophase 1 of meiosis. The nicked strands loop-out and two strands reassociate into an exchanged arrangement, which is sealed by ligase. The remaining intact strand of each duplex is nicked at a site opposite the cross-over, and the exposed ends are digested by exonuclease action. Considerable progress has been made in recent years in the effort to define the molecular and organization features of the centromere region in the yeast chromosome. Centromere core region of the DNA duplex is flanked by 15 densely packed nucleosomes on ons side and by 3 packed nucleosomes on the other side, that is, 2000 bp on one side and 400 400 bp in the other side. All the telomeres of a given species share a common DNA sequence. Two ends of each chromosome are virtually identical. At the end of each chromosome there exist two kinds of DNA sequence" simple telpmeric sequences and telpmere-associated sequencies. Various studies of telomere replication, function, and behabior are now in progress, all greatly aided by molecular methods. During nuclear division in mitosis as well as in meiosis, the nucleili disappear by the time of metaphase and reappear during nuclear reorganizations in telophase. When telophase begins, small nucleoli form at the NOR of each nucleolar-organizing chromosome, enlarge, and fuse to form one or more large nucleoli. Nucleolus is a special structure attached top a specific nucleolar-organizing region located at a specific site of a particular chromosome. The nucleolus is a vertical factory for the synthesis of rRNAs and the assenbly of ribosome subunit precursors.sors.

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On Accessory Chromosomes in Secale cereate. III Relationship between the frequency of accessory chromosomes in rye and soil properties (호밀의 부속염색체에 관한 연구 (제3보)호밀의 부속염색체의 빈도와 토양성분과의 상관관계)

  • 이웅직
    • Journal of Plant Biology
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    • v.9 no.3_4
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    • pp.1-6
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    • 1966
  • The study was carried out to analyse the relationship between the frequency of accessory chromosomes in rye and soil property, such as pH, water content, P, N, K, Mg, and Ca. It was apparant that frequency of accessory chromosomes in rye was found to be higher in acidic soil than they are in basic soil. Chromosomal aberraton including translocation hetrozygote and broken centromere were found in the meiosis in PMC. It seems to be that more translocation heterozygote occurs in the plots of Paldang and Sinjangri where pH of soil shows high pH value.

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The Effects of uvsH Gene in Aspergillus nidulans on Mitotic Recombination Behabiour (Aspergillus nidulans에 있어서 uvsH 유전자가 mitotic recombination에 미치는 영향)

  • 채순기;한동민;강현삼
    • Korean Journal of Microbiology
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    • v.24 no.3
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    • pp.221-227
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    • 1986
  • The strain of Aspergillus nidulans carring a uvsH mutation which had been shown to be absolutely required for UV or 4-NQO induced mutagenic processes was studied on mitotic recombinational behaviour. Although the effect of uvsH locus on spontaneous mitotic crossing over between fpB37 and centromere was not considerable, UV-induced intergenic recombination did not occur in uvsH/uvsH homozygotic diploid. In case of gene conversion at riboflavin locus between a pair of non-complementary alleles, riboA1 and riboA3, the uvsH mutation was not concerned with that process occurred spontaneously or induced by UV irradiation. When the cells were irradiated by UV light, high degrees of aneuploid productions were detected in diploid homozygous for uvsH as compared with wild type, while much difference was not found during normal growth.

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Development of Simultaneous YAC Manipulation-Amplification (SYMA) system by Chromosome Splitting Technique Harboring Copy Number Amplification System (복제수 증폭시스템과 염색체 분단기술을 이용한 Simultaneous YAC Manipulation-Amplification (SYMA) 시스템의 개발)

  • Kim, Yeon-Hee;Nam, Soo-Wan
    • Journal of Life Science
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    • v.20 no.5
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    • pp.789-793
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    • 2010
  • Artificial chromosome manipulation and amplification of single-copy yeast artificial chromosome (YAC) are usually required in order to use YACs for applications such as physical mapping and functional analysis in eukaryotes. We designed and implemented a Simultaneous YAC Manipulation-Amplification (SYMA) system that combines the copy number amplification system of YAC with a convenient YAC manipulation system. To achieve the desired split and to amplify a YAC clone-harboring plant chromosome, a pBGTK plasmid containing a conditional centromere and thymidine kinase (TK) gene was constructed as a template to amplify the splitting fragment via PCR. By splitting, new 490-kb and 100-kb split YACs containing the elements for copy number amplification were simultaneously generated from a 590-kb YAC clone. The 100-kb split YAC was then successfully amplified 14.4-fold by adding 3 mg/ml sulfanilamide and $50\;{\mu}g/ml$ methotrexate (S3/M50) as inducing substances.

Molecular Analysis of the Y Chromosome in a 46,XY Female Phenotype

  • Kim, Jin-Woo;Kim, Tae-Jin;Park, So-Yeon;Nam, Sung-A;Jun, Jong-Young
    • Journal of Genetic Medicine
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    • v.3 no.1
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    • pp.5-10
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    • 1999
  • This is a case report of 46,XY female phenotype (46,XY karyotype, no pubic hair, blind vagina and absence of uterus)in an 18-year-old patient. To confirm whether a Y chromosome has a structural abnormality, fluorescent in situ hybridization (FISH) with the chromosome X/Y cocktail probe was simultaneously performed, and the six loci [PABY, RPS4Y(sy16, sy17), ZFY, DYS14] on the short arm, one locus (DYZ3) on the centromere and one locus (DYZ1) on the long arm were amplified by polymerase chain reaction (PCR). The probes used FISH hybridized to centromere of the X chromosome and heterochromatin region (Yq12) of the Y chromosome, and all PCR related Y chromosome showed positive band like normal male. From the results obtained, it seemed that the Y chromosome from the 46,XY female was structurely normal. Especially, the SRY gene has been equated with the mammalian testis-determining factor, and absence or point mutation in the SRY gene causes XY female. To detect the point mutations of SRY sequences, single-strand conformation polymorphism (SSCP) assay was used. Our results confirm that this patient has no mutation in the SRY gene on the Y chromosome.

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Differential Intracellular Localization of Mitotic Centromere-associated Kinesin (MCAK) During Cell Cycle Progression in Human Jurkat T Cells (인체 Jurkat T 세포에 있어서 세포주기에 따른 MCAK 단백질의 세포 내 위치변화)

  • Jun Do Youn;Rue Seok Woo;Kim Su-Jung;Kim Young Ho
    • Journal of Life Science
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    • v.15 no.2 s.69
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    • pp.253-260
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    • 2005
  • Mitotic centromere-associated kinesin (MCAK), which is a member of the Kin I (internal motor domain) subfamily of kinesin-related proteins, is known to play a role in mitotic segregation of chromosome during M phase of the cell cycle. In the present study, we have produced a rat polyclonal antibody using human MCAK (HsMCAK) expressed in E. coli as the antigen. The antibody specifically recognized the HsMCAK protein (81 kDa), and could detect its nuclear localization in human Jurkat T cells and 293T cells by Western blot analysis. The specific stage of the cell cycle was obtained through blocking by either hydroxyl urea or nocodazole and subsequent releasing from each blocking for 2, 4, and 7 h. While the protein level of HsMCAK reached a maximum level in the S phase with slight decline in the $G_{2}-M$ phase, the electrophoretic mobility shift from $p81^{MCAK}\;to\;p84^{MCAK}$ began to be induced in the late S phase and reached a maximum level in the $G_{2}/M $ phase, and then it disappeared as the cells enter into the $G_{1}$ phase. Immunocytochemical analysis revealed that HsMCAK protein localized to centrosome and nucleus at the interphase, whereas it appeared to localize to the spindle pole, centromere of the condensed mitotic DNA, spindle fiber, or midbody, depending on the specific stage of the M phase. These results demonstrate that a rat polyclonal antibody raised against recombinant HsMCAK expressed in E. coli specifically detects human MCAK, and indicate that the electrophoretic mobility shift from $p81^{MCAK}\;to\;p84^{MCAK}$, which may be associated with its differential intracellular localization during the cell cycle, fluctuates with a maximum level of the shift at the $G_{2}-M$ phase.

TRANSMISSION OF C-BAND VARIANTS IN JAPANESE QUAIL

  • Sohn, S.H.;Fechheimer, N.S.;Nestor, K.E.
    • Asian-Australasian Journal of Animal Sciences
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    • v.8 no.2
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    • pp.171-174
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    • 1995
  • Heteromorphisms of chromosome banding patterns can be useful markers for gene mapping and other kinds of genetic studies. In Japanese quail, the centromere region of chromosome No. 4 is the site of a heteromorphism. One form of the C-band at this region is relatively small ("a" form); an alternative form is much larger ("b" form). To identify the transmission patterns, all possible matings were made between birds with karyotype a/a, a/b, and b/b. The outcome from all crosses are entirely consistent with the expectation from simple Mendelian transmission. No evidence was found for segregation distortion or gametic selection. This dimorphism, therefore, is a reliable marker.

Study of Karyotype , Meiosis and Isozyme of Hybrid from cross Lilium longiflorum x L. X elegans (Lilium longiflorum $\times$ L. X elegans 의 자방배양에 의해 얻어진 잡종 F$_1$의 핵형 , 감수분열 및 lsozyme에 대한 연구)

  • 윤의수
    • Korean Journal of Plant Resources
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    • v.1 no.1
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    • pp.80-87
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    • 1988
  • Hybries which was made up by chromosome of L. longiflorum and L. x elegans, using root-tip individual which was obtained through ovary slice culture, and root-tip of these parents, with hoirugen staining, gimsa staining and Q-H staining inaccordance with the location and the existence of secondary construction which waslocating near short arm centromere of No, 1,2,6,9. In metaphase of meiosis ofhybrid which was made up by univalent from 2 individuals to 10 individuals wasobserved, and nuclear plate which was having abnormal type's synthesis amounted to91% of all cells whieh were observed. This result showed the fact that someobstacle arose annormal progress of the divission after that time. 63% of the cellshad micronucleus from 1 individlial to 4 individuals in tetrad phase of meiosisdivision. The peroxidase and $\alpha$ -estelase zymogram phenotypes of parents andhybrids were determined using agarlose IEF gel. Crosses were performed betweenparents bearing dissimilar allelomorphs in orther to discern the genetic control ofthe resolved enzymes. Genetic variation of hybrids were detected at all but 2 plant progenies.

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Analyses of Karyotype and DNA Polymorphism in Coix Lacryma-jobi (율무의 핵형 및 DNA 다형 분석)

  • 김정림;김연복;최세훈;박철호
    • Proceedings of the Plant Resources Society of Korea Conference
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    • 2002.11b
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    • pp.36-37
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    • 2002
  • 율무(Coix lacryma-jobi)의 핵형 분석을 한 결과 1번 염색체는 short arm과 long arm의 크기가 같은 metacentric chromosome이었으며, 전체의 염색체에 대한 상대적인 길이가 12.8로 가장 길었다. 1번 염색체는 단완과 장완의 양쪽 터미널에 각각 하나씩의 밴드를 나타냈으며 단완과 장완 각각에 interstitial band가 나타났다. 또한 1번 염색체는 단완 끝에 부수체를 갖는 NOR 염색체임을 알 수 있었다. 2번 염색체는 Short arm에 비해 long arm이 길었으며, 전체의 염색체에 대한 상대적인 길이는 11.8로 1번 염색체 다음으로 길었다. 2번 염색체 단완 끝에 하나의 터미널 밴드와 양완의 중간에 각각 interstitial 밴드를 나타냈다. 3번 염색체는 2번 염색체 보다 short arm의 길이보다 더 짧았으며, 상대적인 길이는 10.8로 2번 염색체보다 짧았다. 3번 염색체는 단완 끝에 하나의 terminal 밴드와 centromere 밴드를 나타냈다.(중략)

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The Study of G- Banding Chromosome in Silkie (오골계의 염색체 분염법 (G-banding)에 따른 핵형분석에 관한 연구)

  • 강태석;오봉국;손시환
    • Korean Journal of Poultry Science
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    • v.12 no.2
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    • pp.83-87
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    • 1985
  • This experiment was carried out to identify the chromosomes of silkie. It was many difference from other breeds in morphology and characteristics. In this experiment, chromosomal analysis was used early embryos. In aspect of morphological chromosomes, chromosomal size and shape are similar to other breeds. The chromosomes of silkie were shown to morphlogy as follows. They were identified that chromosome #l and #2 were grouped as submentacentric, #3, #5 and #6 were telocentric #4 and #7 were acrocentric and #8 was metacentric chromosome. Zㆍsex chromosome was shown 5th, W-sex chromosome was 8th to 9th and they were metacentric chromosome, respectively. Each chromosome through the G-banding was shown the 3 dark bands in 1 p2, distinct light band in 1p1, dark band in 2p2, broad light band in 3pl, dark band from centromere and distal part in 4th chromosome and dark band in 5pl. Z-sex chromosome was shown dark at p-arm distal part.

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