• Journal of Plant Biology
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• 제39권2호
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• pp.85-92
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• 1996

Small GTP-binding proteins are divided into three major group: Ras, Rho and Ypt/Rab. They have the conserved regions designed G1 to G5 that are critical in GDP/GTP exchange, GTP-induced conformational change and GTP hydrolysis. We isolated and characterized genomic DNA or cDNAfragments encoding G1 to G3 domains of small GTP-binding protein Rab and Rho from several plant species using two different PCR-based cloning strategies. Seven rab DNA fragments were isolated from 4 different plants, mung-bean, tobacco, rice and pepper using two degenerate primers corresponding to the GTP-binding domain G1 and G3 in small GTP-binding proteins. The amino acid sequences among these rab DNA fragments and other known small GTP-binding proteins shows that they belong to the Ypt/Rab family. Six rho DNA fragments were isolated from 5 different plants, mung-bean, rice, Arabidopsis, Allium and Gonyaulax using the nested PCR method that involves four degenerate primers corresponding to the GTP-binding domain G1, G3 and G4. The rho DNA fragments cloned show more than 90% homology to each other. Sequence comparison between plant and other known Rho family genes suggests that they are closely related (67 to 82% amino acid identity). Sequence analysis and southern blot analysis of rab and rho in mung-bean suggest than thses genes are encoded by multigene family in mung-bean.

• 한국미생물·생명공학회지
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• 제44권1호
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• pp.55-61
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• 2016

본 연구에서는 $BH_4$를 대체할 수 있는 유용물질인 세피아프테린의 생산성 증대를 위하여 GTP 생합성 경로의 유전자들을 동시에 발현할 수 있는 재조합 대장균을 제작하였다. 세피아프테린을 생산할 수 있는 재조합 대장균에서 gmk, ndk 및 guaA-guaB 유전자를 동시에 발현함으로써 세포 내 GTP의 농도가 대조구에 비해 약 200% 이상 증가하였고 $126.1{\pm}9.3mg/l$의 세피아프테린이 생산되었는데 이 결과는 대조구보다 세피아프테린의 생산량이 약 43% 증가된 것이다. GTP 생합성에 관여하는 개별 유전자의 단독 발현 또는 두 가지 유전자의 동시 발현은 세포 내 GTP 농도 향상 큰 영향을 미치지 못했지만 네 가지 유전자 모두를 동시에 발현하는 경우는 세포 내 GTP 농도를 유의적으로 증가시킨다는 것이 확인되었다. 결론적으로 세포 내 GTP 생합성에 관여하는 guaA-guaB, gmk 및 ndk 유전자를 동시에 발현함으로써 재조합 대장균에서 세피아프테린의 생산성 증가를 달성하였다.

• Journal of Plant Biotechnology
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• 제40권1호
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• pp.9-17
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• 2013

Ran is a small GTP-binding protein that binds and subsequently hydrolyzes GTP. The functions of Ran in nuclear transport and mitotic progression are well conserved in plants and animals. In animal cells, stress treatments cause Ran relocalization and slowing of nuclear transport, but the role of Ran proteins in plant cells exposed to stress is still unclear. We have therefore compared Ran genes from three EST libraries construed from different cell types of sweetpotato and the distribution pattern of Ran ESTs differed according to cell type. We further characterized two IbRan genes. IbRan1 is a specific EST to the suspension cells and leaf libraries, and IbRan2 is specific EST to the root library. IbRan1 showed 94.6 % identity with IbRan2 at the amino acid level, but the C-terminal region of IbRan1 differed from that of IbRan2. These two genes showed tissue-specific differential regulation in wounded tissues. Chilling stress induced a similar expression pattern in both IbRan genes in the leaves and petioles, but they were differently regulated in the roots. Hydrogen peroxide treatment highly stimulated IbRan2 mRNA expression in the leaves and petioles, but had no significant effect on IbRan1 gene expression. These results showed that the transcription of these two IbRan genes responds differentially to abiotic stresses and that they are subjected to tissue-specific regulation. Plant Ran-type small G-proteins are a multigenic family, and the characterization of each Ran genes under various environmental stresses will contribute toward our understanding of the distinctive function of each plant Ran isoform.

• Biotechnology and Bioprocess Engineering:BBE
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• 제6권2호
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• pp.75-88
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• 2001

In this paper, the microbial production of riboflavin is reviewed and includes descriptions of riboflavin overproducers, and the biosynthesis and details of the key-enzyme genes related to riboflavin. There kinds of riboflavin overproducers are known; Bacillus subtilis and Candida famate utilize glucose as a carbon source, but the fungus Ashbya gossypii requires plant oil as its sole carbon source. The starting material in ribofalvin biosynthesis is guanosine triphospate (GTP), which is converted to riboflavin through six enzymatic reactions. Though Bacillus subtilis, Candida famate, and Ashbya gossypii operate via different pathways until GTP, they follow the same pathway from GTP to riboflavin. From the metabolic viewpoint, with respect to improved riboflavin production, the supplementation of GTP, aprocess-limiting precursor must be considered. The GTP fluxes originate from three sources, serine, threonine and glyoxylate cycles. The development of pathways to strengthen GTP supplementation using biotechnological techniques remains an issue fro future research.

• 한국식물병리학회:학술대회논문집
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• 한국식물병리학회 2003년도 정기총회 및 추계학술발표회
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• pp.81.2-82
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• 2003

Plants have evolved along with pathogens, and they have developed sophisticated defense systems against specific microorganisms to survive. G-protons are considered one of the upstream signaling components working as a key for the defense signal transduction pathway. For activation and inactivation of G-protein, GTP-biding proteins are involved. GTP -binding proteins are found in all organisms. Small GTP-binding proteins, having masses of 21 to 30kD, belong to a superfamily, often named the Ras supefamily because the founding members are encoded by human Ras genes initially discovered as cellular homologs of the viral ras oncogene. Members of this supefamily share several common structural features, including several guanine nucleotide binding domains and an effector binding domain. However, exhibiting a remarkable diversity in both structure and function. They are important molecular switches that cycle between the GDP-bound inactive form into the GTP-bound active form through GDP/GTP replacement. In addition, most GTP-binding proteins cycle between membrane-bound and cytosolic forms. such as the RAC family are cytosolic signal transduction proteins that often are involved in processing of extracellular stimuli. Plant RAC proteins are implicated in regulation of plant cell architecture secondary wall formation, meristem signaling, and defense against pathogens. But their molecular mechanisms and functions are not well known. We isolated a RacB homolog from rice to study its role of defense against pathogens. We introduced the constitutively active and the dominant negative forms of the GTP-hinging protein OsRacB into the wild type rice. The dominant negative foms are using two forms (full-sequence and specific RNA interference with RacB). Employing southern, and protein analysis, we examine to different things between the wild type and the transformed plant. And analyzing biolistic bombardment of onion epidermal cell with GFP-RacB fusion protein revealed association with the nucle.

• 생명과학회지
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• 제23권1호
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• pp.8-14
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• 2013

고추 탄저병균의 포자 발아 단계에서 발현되는 유전자를 파악하기 위해 포자 발아단계cDNA library를 제작하고, 임의로 선택된 cDNA clone들에 대한 EST sequencing을 실시하였다. 총 983개 EST를 확보하여 contig assembly를 실시한 결과, 197개 contigs와 267개 singletons으로 조합되어, 최종적으로 464개의 유전자를 동정하였다. 464개 유전자 서열에서 유추한 아미노산 서열을 이용한 상동유전자 검색을 통해 절반의 유전자가 GenBank에 기존 등록된 유전자와 유의성 있는 유사성을 보였다. 가장 높은 빈도로 발현된 유전자는 elongation factor, histone protein, ATP synthease, 14-3-3 protein, clock controlled protein을 암호화하는 유전자들이었다. 그리고 고추 탄저병균의 세포 발달과정에 관여 하는것으로 추정되는 GTP-binding protein, MAP kinase, transaldolase, ABC transporter 유전자들도 검출되었다. 또한 고추탄저병균의 병원성에 영향을 미치는 것으로 파악되는 ATP citrate lyase, CAP20, manganese-superoxide dismutase 유전자들도 검출되어, EST sequencing 을 통한 세포 발달 단계 발현 유전자 탐색이 효과적임을 알 수 있었다.

• 미생물학회지
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• 제38권3호
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• pp.173-179
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• 2002

발광 박테리아인 Photobacterium species의 lux 오페론에서 발견된 riboflavin 생합성에 관여하는 유전자들(ribI,II,III,IV)의 기능을 조사하였다. 대장균에서 이들 유전자가 포함된 재조합 플라스미드를 발현시켰을 때 상당량의riboflavin이 합성되는 것을 확인하였으며, 또한 이들 유전자들(ribI,II,III,IV)의 기능을 riboflavin에 대하여 종속 영양체인 대장균 돌연변이주(BSV 11,18)를 이용한 유전학적인 방법과 생화학적 방법으로 분석한 결과, 이들은 각각 riboflavin synthase, 3,4-dihydroxy-2-butanone 4-phosphate (DHBP) synthase, lumazine synthase, GTP cyclohydrolase II활성도를 갖는 단백질을 코드하는 것으로 밝혀졌다. 이는Photobacterium species의 riboflavin 유전자 체계가 riboflavin 생합성에 관여하는 모든 5개의 유전자들이 한 오페론에 존재하는 Bacillus subtilis와 주요 riboflavin 유전자들이 분리되어 있는 대장균과는 다른, 중간적인 형태를 갖는다는 것을 나타낸다.

• Journal of Microbiology and Biotechnology
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• 제20권11호
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• pp.1484-1490
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• 2010

In the Streptomyces hygroscopicus JCM4427 geldanamycin biosynthetic gene cluster, five putative regulatory genes were identified by protein homology searching. Among those genes, gel14, gel17, and gel19 are located downstream of polyketide synthase genes. Gel14 and Gel17 are members of the LAL family of transcriptional regulators, including an ATP/GTP-binding domain at the N-terminus and a DNA-binding helix-turn-helix domain at the C-terminus. Gel19 is a member of the TetR family of transcriptional regulators, which generally act to repress transcription. To verify the biological significance of the putative regulators in geldanamycin production, they were individually characterized by gene disruption, genetic complementation, and transcriptional analyses. All three genes were confirmed as positive regulators of geldanamycin production. Specifically, Gel17 and Gel19 are required for gel14 as well as gelA gene expression.

• Molecules and Cells
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• 제27권5호
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• pp.583-589
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• 2009

GTP cyclohydrolase I (GTPCH) is a key enzyme in the de novo synthesis of tetrahydrobiopterin. Previously, the Drosophila melanogaster GTPCH gene has been shown to be expressed from two different promoters (P1 and P2). In our study, the 5'-flanking DNA regions required for P1 and P2 promoter activities were characterized using transient expression assay. The DNA regions between -98 and +31, and between -73 and +35 are required for efficient P1 and P2 promoter activities, respectively. The regions between -98 and -56 and between -73 and -41 may contain critical elements required for the expression of GTPCH in Drosophila. By aligning the nucleotide sequences in the P1 and P2 promoter regions of the Drosophila melanogaster and Drosophila virilrs GTPCH genes, several conserved elements including palindromic sequences in the regions critical for P1 and P2 promoter activities were identified. Western blot analysis of transgenic flies transformed using P1 or P2 promoter-lacZ fusion plasmids further revealed that P1 promoter expression is restricted to the late pupae and adult developmental stages but that the P2 promoter driven expression of GTPCH is constitutive throughout fly development. In addition, X-gal staining of the embryos and imaginal discs of transgenic flies suggests that the P2 promoter is active from stage 13 of embryo and is generally active in most regions of the imaginal discs at the larval stages.

• 농업과학연구
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• 제34권2호
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• pp.161-170
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• 2007

Poly($\gamma$-glutamic acid) 및 levan의 생성균주로 알려진 Bacillus subtilis BS 62의 $\gamma$-GTP(ggt) 유전자를 해석하기 위하여 PCR 반응에 의해 BS 62의 염색체 DNA로부터 약 2.5 kb의 $\gamma$-GTP(ggt) 유전자 분획을 얻어 그 PCR 산물의 염기서열을 분석하여 기왕에 보고된 기타의 ggt 유전자와 비교 분석한 결과, B. subtilis $\gamma$-GTP 유전자(BSU49358)와 98%의 높은 상동성을 보였으며, Pseudomonas sp. A14(S63255)와는 37%, 방선균인 Streptomyces avermitils(AP005028)의 게놈 DNA와는 38%의 상동성을 나타냈다. BS 62의 $\gamma$-GTP 유전자의 open reading frame은 587개의 amino acid로 구성된 polypeptide의 것으로 해석되었으며, N-terminal의 28개 아미노산은 B. subtilis 펩타이드의 전형적인 형태를 보였고, 전형적인 리보솜의 부착부위는 개시코돈 ATG의 위쪽 7번에서 12번 염기(AGGAGG)에 위치하였고, 그리고 종지코돈 다음에서는 stem-loop 구조, ORF의 위쪽 약 50 bp 지점에서는 catabolite-responsive element가 발견되었다. 또한 B. subtilis 효소의 촉매자리로 추정되는 467번 잔기는 threonine으로서, 다른 박테리아의 serine, 포유동물의 cysteine과는 구별되는 것이었다.