• Title/Summary/Keyword: centromere

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Centromere Repeat DNA Originated from Brassica rapa is Detected in the Centromere Region of Raphanus sativus Chromosomes

  • Hwang, Yoon-Jung;Yu, Hee-Ju;Mun, Jeong-Hwan;Bok, Kwang;Park, Beom-Seok;Lim, Ki-Byung
    • Horticultural Science & Technology
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    • v.30 no.6
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    • pp.751-756
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    • 2012
  • Fluorescence in situ hybridization (FISH) is a powerful tool for the detection of DNA sequences in the specific region of the chromosomes. As well as for the integrated physical mapping, FISH karyotype analysis has to be preceded. Karyotype of Raphanus sativus 'Wonkyo 10039' was analyzed by a dual-color FISH technique; using various repetitive DNA probes, including 5S rDNA, 45S rDNA, and centromere retrotransposon. The length of the somatic metaphase chromosome ranged from 1.35 to $2.06{\mu}m$ with a total length of $15.29{\mu}m$. The chromosome complements comprised of eight pairs of metacentrics and one pair of submetacentric. Bleached DAPI Band analysis revealed a heterochromatin region, covering 28.6% to 50.4% each chromosomes. 5S and 45S rDNA sequences were located on two and three pairs of chromosomes, respectively. The centromere retrotransposon of Brassica (CRB) is a major component in Brassica related species that has been maintained as a common centromere component. CRB signals were detected on the centromere and pericentromeric region of R. sativus 'Wonkyo 10039' and three basic Brassica species (B. rapa, B. nigra, and B. oleracea). These results will provide a valuable background for physical mapping and elucidation of the evolutionary relationship among the Brassica related species.

Expression of recombinant plasmids harboring glucoamylase gene STA in saccharomyces cerevisiae (Glucoamylase 유전자 STA를 포함한 재조합 플라스미드들의 saccharomyces cerevisiae에서의 발현)

  • 박장서;박용준;이영호;강현삼;백운화
    • Korean Journal of Microbiology
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    • v.28 no.3
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    • pp.181-187
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    • 1990
  • STA gene coding glucoamylase was introduced into haploid Saccharomyces cerevisiae SHY3 and polyploid Saccharomyces cerevisiae 54. We constructed the recombinant plasmid by substituting the promoter region of alcohol dehydrogenase isoenzyme I gene for that of STA gene to increase the expression of STA gene and found that the activity of glucoamylase was increased in transformants. The plasmid stability was improved remarkably when we got the STA gene into the plasmid which had centromere. The activity of glucoamylase and transformation frequency of it, however, was decreased because of low copy number. Industrial polyploid strain was transformed with the recombinant plasmid having the $2\mu$ origin of replication and STA gene. It produced more alcohol than host when fermented in liquefied starch media. The industrial strain, however, was not transformed with the autonomously replicating plasmid containing centromere.

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Ginsenoside Rg1 suppresses cancer cell proliferation through perturbing mitotic progression

  • Hong, Jihee;Gwon, Dasom;Jang, Chang-Young
    • Journal of Ginseng Research
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    • v.46 no.3
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    • pp.481-488
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    • 2022
  • Background: Although the tumor-suppressive effects of ginsenosides in cell cycle have been well established, their pharmacological properties in mitosis have not been clarified yet. The chromosomal instability resulting from dysregulated mitotic processes is usually increased in cancer. In this study, we aimed to investigate the anticancer effects of ginsenoside Rg1 on mitotic progression in cancer. Materials and methods: Cancer cells were treated with ginsenoside Rg1 and their morphology and intensity of different protein were analyzed using immunofluorescence microscopy. The level of proteins in chromosomes was compared through chromosomal fractionation and Western blot analyses. The location and intensity of proteins in the chromosome were confirmed through immunostaining of mitotic chromosome after spreading. The colony formation assays were conducted using various cancer cell lines. Results: Ginsenoside Rg1 reduced cancer cell proliferation in some cancers through inducing mitotic arrest. Mechanistically, it inhibits the phosphorylation of histone H3 Thr3 (H3T3ph) mediated by Haspin kinase and concomitant recruitment of chromosomal passenger complex (CPC) to the centromere. Depletion of Aurora B at the centromere led to abnormal centromere integrity and spindle dynamics, thereby causing mitotic defects, such as increase in the width of the metaphase plate and spindle instability, resulting in delayed mitotic progression and cancer cell proliferation. Conclusion: Ginsenoside Rg1 reduces the level of Aurora B at the centromere via perturbing Haspin kinase activity and concurrent H3T3ph. Therefore, ginsenoside Rg1 suppresses cancer cell proliferation through impeding mitotic processes, such as chromosome alignment and spindle dynamics, upon depletion of Aurora B from the centromere.

Cancer-Upregulated Gene 2 (CUG2), a New Component of Centromere Complex, Is Required for Kinetochore Function

  • Kim, Hyejin;Lee, Miae;Lee, Sunhee;Park, Byoungwoo;Koh, Wansoo;Lee, Dong Jun;Lim, Dae-Sik;Lee, Soojin
    • Molecules and Cells
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    • v.27 no.6
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    • pp.697-701
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    • 2009
  • We previously identified cancer-upregulated gene 2 (CUG2) as a commonly up-regulated gene in various human cancer tissues, especially in ovary, liver, and lung (Lee et al., 2007a). CUG2 was determined to be a nuclear protein that exhibited high proto-oncogenic activities when overexpressed in NIH3T3 mouse fibroblast cells. To identify other cellular functions of CUG2, we performed yeast two-hybrid screening and identified CENP-T, a component of CENP-A nucleosome complex in the centromere, as an interacting partner of CUG2. Moreover, CENP-A, the principle centromeric determinant, was also found in complex with CENP-T/CUG2. Immunofluorescent staining revealed the co-localization of CUG2 with human centromeric markers. Inhibition of CUG2 expression drastically affected cell viability by inducing aberrant cell division. We propose that CUG2 is a new component of the human centromeric complex that is required for proper chromosome segregation during mitosis.

Role of Centromere Protein H and Ki67 in Relapse-free Survival of Patients after Primary Surgery for Hypopharyngeal Cancer

  • Wang, Jun-Xi;Zhang, Ying-Yao;Yu, Xue-Min;Jin, Tong;Pan, Xin-Liang
    • Asian Pacific Journal of Cancer Prevention
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    • v.13 no.3
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    • pp.821-825
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    • 2012
  • Purpose: Centromere protein H (CENP-H) and Ki67 are overexpressed in some malignancies, but whether they are predictors of survival after primary resection for hypopharyngeal squamous cell carcinoma (HSCC) remains unknown. Methods: We assessed immunohistochemical expression of CENP-H and Ki67 in 112 HSCC specimens collected between March 2003 and March 2005 for analysis by clinical characteristics. The Kaplan-Meier method was used to analyze relapse-free survival and logistic multivariate regression to determine risk factors of relapse-free survival. Cholecystokinin octapeptide assays and flow cytometry were used to examine cell proliferation and apoptosis after siRNA inhibition of CENP-H in HSCC cells. Results: Overall, 50 (44.6%) HSCC specimens showed upregulated CENP-H expression and 69 (61.6%) upregulated Ki67. An increased CENP-H protein level was associated with advanced cancer stage and alcohol history (P=0.012 and P=0.048, respectively) but an increased Ki67 protein level only with advanced cancer stage (P=0.021). Increased CENP-H or Ki67 were associated with short relapse-free survival (P<0.001 or P=0.009, respectively) and were independent predictors of relapse-free survival (P=0.001 and P=0.018, respectively). siRNA knockdown of CENP-H mRNA inhibited cell proliferation and promoted cancer cell apoptosis in vitro. Conclusions: Upregulated CENP-H and Ki67 levels are significantly associated with short relapse-free survival in HSCC. These factors may be predictors of a relapsing phenotype in HSSC cases.

Construction of the Stable and High Copy Number Yeast Vectors (고효율 효모 유전자 운반체의 개발)

  • 김태국;최철용;노현모
    • Microbiology and Biotechnology Letters
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    • v.16 no.6
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    • pp.476-483
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    • 1988
  • Yeat-Escherichia coli shuttle vectors were constructed by combination of various functional segments such as autonomous replicating sequence (ARS1), centromere region (CEN3), origin of replication of 2 $\mu$m plasmid (2 $\mu$m OR). Transformation efficiency, stability and copy number of constructed vectors were analyzed in yeast strains, SHY4(cir$^+$) containing 2 $\mu$m plasmid and NNY1(cir$^{\circ}$) without it. The results showed that centromere containing plasmids were very stable and existed at one copy per cell; fused replication system (2$\mu$m OR and ARS1) containing Plasmids were more stable and higher copy number than one replicon containing plasmids ; presence of endogenous 2$\mu$m plasmid influenced on stability and copy number of 2 $\mu$m based plasmids.

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Centromere protein U enhances the progression of bladder cancer by promoting mitochondrial ribosomal protein s28 expression

  • Liu, Bei-Bei;Ma, Tao;Sun, Wei;Gao, Wu-Yue;Liu, Jian-Min;Li, Li-Qiang;Li, Wen-Yong;Wang, Sheng;Guo, Yuan-Yuan
    • The Korean Journal of Physiology and Pharmacology
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    • v.25 no.2
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    • pp.119-129
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    • 2021
  • Bladder cancer is one of the most common types of cancer. Most gene mutations related to bladder cancer are dominantly acquired gene mutations and are not inherited. Previous comparative transcriptome analysis of urinary bladder cancer and control samples has revealed a set of genes that may play a role in tumor progression. Here we set out to investigate further the expression of two candidate genes, centromere protein U (CENPU) and mitochondrial ribosomal protein s28 (MRPS28) to better understand their role in bladder cancer pathogenesis. Our results confirmed that CENPU is up-regulated in human bladder cancer tissues at mRNA and protein levels. Gain-of-function and loss-of-function studies in T24 human urinary bladder cancer cell line revealed a hierarchical relationship between CENPU and MRPS28 in the regulation of cell viability, migration and invasion activity. CENPU expression was also up-regulated in in vivo nude mice xenograft model of bladder cancer and mice overexpressing CENPU had significantly higher tumor volume. In summary, our findings identify CENPU and MRPS28 in the molecular pathogenesis of bladder cancer and suggest that CENPU enhances the progression of bladder cancer by promoting MRPS28 expression.

Characterization of rDNAs and Tandem Repeats in the Heterochromatin of Brassica rapa

  • Lim, Ki-Byung;de Jong, Hans;Yang, Tae-Jin;Park, Jee-Young;Kwon, Soo-Jin;Kim, Jung Sun;Lim, Myung-Ho;Kim, Jin A;Jin, Mina;Jin, Yong-Moon;Kim, Seog Hyung;Lim, Yong Pyo;Bang, Jae-Wook;Kim, Ho-Il;Park, Beom-Seok
    • Molecules and Cells
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    • v.19 no.3
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    • pp.436-444
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    • 2005
  • We describe the morphology and molecular organization of heterochromatin domains in the interphase nuclei, and mitotic and meiotic chromosomes, of Brassica rapa, using DAPI staining and fluorescence in situ hybridization (FISH) of rDNA and pericentromere tandem repeats. We have developed a simple method to distinguish the centromeric regions of mitotic metaphase chromosomes by prolonged irradiation with UV light at the DAPI excitation wavelength. Application of this bleached DAPI band (BDB) karyotyping method to the 45S and 5S rDNAs and 176 bp centromere satellite repeats distinguished the 10 B. rapa chromosomes. We further characterized the centromeric repeat sequences in BAC end sequences. These fell into two classes, CentBr1 and CentBr2, occupying the centromeres of eight and two chromosomes, respectively. The centromere satellites encompassed about 30% of the total chromosomes, particularly in the core centromere blocks of all the chromosomes. Interestingly, centromere length was inversely correlated with chromosome length. The morphology and molecular organization of heterochromatin domains in interphase nuclei, and in mitotic and meiotic chromosomes, were further characterized by DAPI staining and FISH of rDNA and CentBr. The DAPI fluorescence of interphase nuclei revealed ten to twenty conspicuous chromocenters, each composed of the heterochromatin of up to four chromosomes and/or nucleolar organizing regions.

Stability of Human Centromeric Alphoid DNA Repeat during Propagation in Recombination-Deficient Yeast Strains (효모의 재조합 변이주를 이용한 인간 Centromeric Alphoid DNA Repeat의 안정성에 관한 연구)

  • Kim, Kwang-Sup;Shin, Young-Sun;Lee, Sang-Yeop;Ahn, Eun-Kyung;Do, Eun-Ju;Park, In-Ho;Leem, Sun-Hee;SunWoo, Yang-Il
    • Korean Journal of Microbiology
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    • v.43 no.4
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    • pp.243-249
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    • 2007
  • The centromere is a highly differentiated structure of the chromosome that fulfills a multitude of essential mitotic and meiotic functions. Alphoid DNA (${\alpha}$-satellite) is the most abundant family of repeated DNA found at the centromere of all human chromosomes, and chromosomes of primates in general. The most important parts in the development of Human Artificial Chromosomes (HACs), are the isolation and maintenance of stability of centromeric region. For isolation of this region, we could use the targeting hook with alphoid DNA repeat and cloned by Transformation-Associated Recombination (TAR) cloning technique in yeast Saccharomyces cerevisiae. The method includes rolling-circle amplification (RCA) of repeats in vitro to 5 kb-length and elongation of the RCA products by homologous recombination in yeast. Four types of $35\;kb{\sim}50\;kb$ of centromeric DNA repeat arrays (2, 4, 5, 6 mer) are used to examine the stability of repeats in homologous recombination mutant strains (rad51, rad52, and rad54). Following the transformation into wild type, rad51 and rad54 mutant strains, there were frequent changes in inserted size. A rad52 mutant strain showed extremely low transformation frequency, but increased stability of centromeric DNA repeat arrays at least 3 times higher than other strains. Based on these results, the incidence of large mutations could be reduced using a rad52 mutant strain in maintenance of centromeric DNA repeat arrays. This genetic method may use more general application in the maintenance of tandem repeats in construction of HAC.