• 제목/요약/키워드: Transcriptional Pattern

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A Modeling Study of Co-transcriptional Metabolism of hnRNP Using FMR1 Gene

  • Ro-Choi, Tae Suk;Choi, Yong Chun
    • Molecules and Cells
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    • v.23 no.2
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    • pp.228-238
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    • 2007
  • Since molecular structure of hnRNP is not available in foreseeable future, it is best to construct a working model for hnRNP structure. A geometric problem, assembly of $700{\pm}20$ nucleotides with 48 proteins, is visualized by a frame work in which all the proteins participate in primary binding, followed by secondary, tertiary and quaternary binding with neighboring proteins without additional import. Thus, 40S hnRNP contains crown-like secondary structure (48 stemloops) and appearance of 6 petal (octamers) rose-like architectures. The proteins are wrapped by RNA. Co-transcriptional folding for RNP fibril of FMR1 gene can produce 2,571 stem-loops with frequency of 1 stem-loop/15.3 nucleotides and 53 40S hnRNP beaded structure. By spliceosome driven reactions, there occurs removal of 16 separate lariated RNPs, joining 17 separate beaded exonic structures and anchoring EJC on each exon junction. Skipping exon 12 has 5'GU, 3'AG and very compact folding pattern with frequency of 1 stem-loop per 12 nucleotides in short exon length (63 nucleotides). 5' end of exon 12 contains SS (Splicing Silencer) element of UAGGU. In exons 10, 15 and 17 where both regular and alternative splice sites exist, SS (hnRNP A1 binding site) is observed at the regular splicing site. End products are mature FMR-1 mRNP, 4 species of Pri-microRNAs derived from introns 7,9,15 and 3'UTR of exon17, respectively. There may also be some other regulatory RNAs containing ALU/Line elements as well.

Molecular Analysis of Alternative Transcripts of CCDC94 Gene in the Brain Tissues of Rhesus Monkey (붉은 털 원숭이의 뇌조직에서 CCDC94 유전자 대체 전사체의 분자적 분석)

  • Yun, Se-Eun;Ahn, Kung;Kim, Heui-Soo
    • Journal of Life Science
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    • v.21 no.3
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    • pp.459-463
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    • 2011
  • The genome of the rhesus monkey has diverged as an average sequence identity of ~93%. The rhesus monkey has been widely used as a non-human primate in the field of biomedical and evolutional research. Insertion of transposable elements (TEs) induced several events such as transcriptional diversity and different expression in host genes. In this study, 112 transcripts were identified from a full-length cDNA library of brain tissues of the rhesus monkey. One transcript (R54) showed a different expression pattern between human and rhesus monkey tissues. This phenomenon can be an explanation that R54 transcript was acquired by splicing a donor site derived from exonization of the L2A element. Therefore, integration of TEs during primate radiation could contribute to transcriptional diversity and gene regulation.

Ventx1.1 competes with a transcriptional activator Xcad2 to regulate negatively its own expression

  • Kumar, Shiv;Umair, Zobia;Kumar, Vijay;Lee, Unjoo;Choi, Sun-Cheol;Kim, Jaebong
    • BMB Reports
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    • v.52 no.6
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    • pp.403-408
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    • 2019
  • Dorsoventral patterning of body axis in vertebrate embryo is tightly controlled by a complex regulatory network of transcription factors. Ventx1.1 is known as a transcriptional repressor to inhibit dorsal mesoderm formation and neural differentiation in Xenopus. In an attempt to identify, using chromatin immunoprecipitation (ChIP)-Seq, genome-wide binding pattern of Ventx1.1 in Xenopus gastrulae, we observed that Ventx1.1 associates with its own 5'-flanking sequence. In this study, we present evidence that Ventx1.1 binds a cis-acting Ventx1.1 response element (VRE) in its own promoter, leading to repression of its own transcription. Site-directed mutagenesis of the VRE in the Ventx1.1 promoter significantly abrogated this inhibitory autoregulation of Ventx1.1 transcription. Notably, Ventx1.1 and Xcad2, an activator of Ventx1.1 transcription, competitively co-occupied the VRE in the Ventx1.1 promoter. In support of this, mutation of the VRE down-regulated basal and Xcad2-induced levels of Ventx1.1 promoter activity. In addition, overexpression of Ventx1.1 prevented Xcad2 from binding to the Ventx1.1 promoter, and vice versa. Taken together, these results suggest that Ventx1.1 negatively regulates its own transcription in competition with Xcad2, thereby fine-tuning its own expression levels during dorsoventral patterning of Xenopus early embryo.

DIFFERENTIAL EXPRESSION OF ORNITHINE DECARBOXYLASE AND HA-RAS CELLULAR ONCOGENE DURING DEVELOPMENT OF THE FEMALE RAT

  • Baik, M.G.;Park, C.S.
    • Asian-Australasian Journal of Animal Sciences
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    • v.7 no.1
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    • pp.119-124
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    • 1994
  • Experiments were performed to determine age-associated changes in ornithine decarboxylase (ODC) gene and Ha-ras cellular oncogene expression in tissues of female rats. In the kidney, ODC mRNA levels did not show age-associated changes, while ODC enzyme activities were decreased with advancing age from 3 to 10 months. These results suggest that post-transcriptional mechanism (s) are involved in the age-dependent decrease in renal ODC enzyme activity. In addition, we found no correlation between testosterone-induced renal ODC expression and DNA methylation pattern. Ha-ras mRNA levels in brain decreased as animals aged from 3 to 6 months, while renal Ha-ras mRNA levels were not influenced by age. Results demonstrate the age-dependent expression of Ha-ras in a tissue-specific manner.

Mesodermal repression of single-minded in Drosophila embryo is mediated by a cluster of Snail-binding sites proximal to the early promoter

  • Park, Kye-Won;Hong, Joung-Woo
    • BMB Reports
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    • v.45 no.10
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    • pp.577-582
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    • 2012
  • single-minded (sim) is a master regulatory gene that directs differentiation in the central nervous system during Drosophila embryogenesis. Recent identification of the mesectoderm enhancer (MSE) of sim has led to the hypothesis that two Snail (Sna)-binding sites in the MSE may repress sim expression in the presumptive mesoderm. We provide evidence here that three Sna-binding sites proximal to the sim promoter, but not those of the MSE, are responsible for the mesodermal repression of sim in vivo. Using transgenic embryos injected with lacZ transgenes, we showed that sim repression in the mesoderm requires the three promoter-proximal Sna-binding sites. These results suggest that Sna represses the mesectodermal expression of sim by directly repressing the nearby promoter, and not by quenching adjacent transcriptional activators in the MSE. These data also showed how the MSE, lacking the three proximal Sna-binding sites, reproduced the endogenous pattern of sim expression in transgenic embryos.

Histone methylation and transcription (히스톤 메틸화와 유전자 전사)

  • Kim, Ae-Ri
    • Journal of Life Science
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    • v.17 no.4 s.84
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    • pp.593-598
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    • 2007
  • Amino acids of histone tail are covalently modified in eukaryotic cells. Lysine residues in histone H3 and H4 are methylated at three levels; mono-, di- or trimethylation. Methylation in histones is related with transcription of the genes in distinct pattern depending on lysine residues and methylated levels. Relation between transcription and methylation has been relatively well understood at three lysines H3K4, H3K9 and H3K36. H3K4 is methylated in active or potentially active chromatin and its methylation associates with active transcription. H3K9 is generally methylated in heterochromatin or repressed gene, but trimethylation of this lysine occur in actively transcribed genes also. Methylation at H3K36 generally correlates with active chromatin/transcription, but the correlation of its dimethylation with transcription is controversial. All together methylation patterns of individual lysine residues in histone relate with activation or repression of transcription and may provide distinctive roles in transcriptional regulation of the eukaryotic genes.

Regulation of Expression of the Bacillus caldolyticus Pyrimidine Biosynthetic Operon by pyrR Gene, an Autogenous Regulator

  • Ghim, Sa-Youl
    • Journal of Life Science
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    • v.11 no.2
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    • pp.120-125
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    • 2001
  • The pyrR gene of the pyrimidine biosynthesis (pyr) operon of the thermophile Bacillus caldolyticus, encoding a uracil phosphoribosyltransferase (UPRTase), turned to rely as a pyr operon regulator. It has been proposed that PyrR mediates transcriptional termination-antitermination at three intercistronic regions of the par operon (S.-Y Ghim and J. Neuhard, J. Bacteriol.,176, 3698-3707, 1994). In this research, a plasmid carrying the pyrR region of B. caldolyticus could restore a pyrimidine regulation in a pyrR mutant of B. subtilis. Expression of pyrR was found to increase 6-7 fold during pyrimidine starvation. Additionally, a highly conserved nucleotide sequence which may constitute the binding site for a PyrR protein (PyrR-binding loop) in transcript was staggested. Alternative antiterminator and terminator structures involving three conserved motifs in front of the pyrR, pyrP and pyrB genes, respectively, are proposed to account for the observed regulation pattern.

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The Expression of ultraspiracle Gene Product during Development of Drosophisa melanogaster (노랑초파리 발생과정에서의 ultraspiracle 유전자 산물의 발현)

  • 김세재;정기화이정주
    • The Korean Journal of Zoology
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    • v.38 no.2
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    • pp.220-229
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    • 1995
  • uftraspirocle (usa) gene product (Uspl is a member of the superfamilv of steroid hormone receptors in Drosophila melonogaster which mediate the hormone action by heteromerization with ecdvsone receptor (EcR). Based on the genetic and molecular characterization of usp, it has been proposed that Usp funtions in at least three significant developmental pathway: embrvogenesis, eve morphogenesis, and female reproduction. In this study, the expression patterns of Usp were investigated by immunohistochemistrv in individual tissues from diHernt developmental stases of Drosophila. Usp is localized in the nucleus with ubiquitous distribution throughout development. Usp expression is detected throughout embrvogenesis. Usp is expressed in imaginal and lanral tissues from late third instar 18nra. The expression pattern of Usp is overlapped by those of EcR. Also Usp is expressed in differentiating adult reproductive organs. This result suggests that Usp is not a transcriptional regulatory factor modulating hormonal response during development, but also play some roles in female and male reproduction of Drosophila.

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Comparison of tdcA Expression Between Escherichia coli and Salmonella enterica Serovar Typhimurium

  • Kim, Min-Jeong;Lim, Sang-Yong;Ryu, Sang-Ryeol
    • Journal of Microbiology and Biotechnology
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    • v.21 no.3
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    • pp.252-255
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    • 2011
  • Both Escherichia coli (E. coli) and Salmonella enterica serovar Typhimurium (S. Typhimurium) have a tdc operon that encodes enzymes involved in a metabolic pathway for the degradation of L-serine and L-threonine. However, S. Typhimurium does not have the tdcR gene, which is a positive regulator in E. coli. In the present study, transcriptional analysis revealed that tdcA expression in E. coli is higher under anaerobic than aerobic growth conditions, but the opposite is true in S. Typhimurium. Interestingly, a tdcR mutant strain of E. coli showed a similar expression pattern to that observed in S. Typhimurium and was also induced by anaerobic shock. These results suggest that the induction of tdcA expression by anaerobic conditions is observable when tdcA expression is low owing to the absence of TdcR.

Effect of Transposable Element Insertion on Gene Expression (Transposable Element 삽입의 유전자 발현에 미치는 영향)

  • 김화영
    • Proceedings of the Botanical Society of Korea Conference
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    • 1987.07a
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    • pp.349-356
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    • 1987
  • Insertions of transposable elements in or near a structural gene give rise to null phenotypes, reduced levels of gene expression, or alteration on the tissue-specific pattern of gene expression. Null phenotypes often result from insertions in exons. Reduced levels of gene expression results from insertions in various regions such as promoter region, 5' non-translated region, exon and intron. The maize allele of Adh1-3F1124 is an example of alteration in the tissue-specific patetern of gene expression. Adh1-3F1124 contains a Mu element inserted 31 bp 5' to the transcriptional start site of the wild-type Adh1 activity in seeds and anaerobically-treated seedlings but normal levels in the pollen. Upon the insertion of a transposable element a certain number of host DNA sequences at the insertion site is duplcated. When transposable elements excise, all element sequences are deleted. However, the duplicated host sequences may be left intact or deleted to various extents. This results in null phenotypes, restoration of original levels of gene expression, or altered levels of gene expression. On the basis of effects of transposable-element insertions or excisions on gene expression, the usefulness of transposable ellements for studies on gene expression is discussed.

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