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TetR-VP16-mediated transcription activation system에서 TetR-VR16과 TetR 이종dimer에 의한 전사활성의 영향
최광훈,김기호,김홍진 중앙대학교 약학연구소 1999 약학 논총 Vol.13 No.-
In TetR-VP16-mediated transcription activation stystem TetR-VP16 hobodimer activates the tet operator modified minimal promoter. To determine the effect of the heterodimer of TetR-VP16 on transcriptional activation from that minimal promoter cotransfection assays were performed with U373 cells. In coexpression of TetR-VP16 and TetR the expression from the minimal promoter was activated 4-12 fold higher than in expression of TetR-VP16, suggesting that the usage of the heterodimer of TetR-VP16 can improve the effecacy of TetR-VP16-mediated transcription activation system
식중독환자에서 분리한 Salmonella Enteritidis 다제내성 플라스미드의 내성유전자 집락의 구조해석
정서연,손창규,곽경탁,김병천,박완,Jung, Seo-Yeon,Son, Chang-Kyu,Kwak Kyung-Tak,Kim, Byung-Chun,Park, Wan 한국미생물학회 2002 미생물학회지 Vol.38 No.4
Clinically isolated Salmonella Enteritidis strain has a multi drug resistance plasmid, which confers ampicillin, chloramphe-nicol, sulfonamide, streptomycin and tetracycline, named pCAST2. We cloned a 7 kb Sacl fragment of pCAST2 which has sulfonamide, streptomycin and tetracycline resistance genes. The 7 kb SacI fragment showed the organization of sulII-strA-strB-tetR-tetA gene cluster which is different from the other clusters reported previously. In this study, we presented the method to detect this cluster by PCR analysis and showed that this cluster was found in Salmonella strains occurred sporadically at Kyungpook province in 2002. 2001년 경북지역의 설사환자로부터 분리된, Salmonella Enteritidis SY9 균주로부터 ampicillin, chloramphenicol, sulfonamide, streptomycin, tetracycline에 내성을 가지는 40 kb plasmid를 분리하였다. pCAST2 라고 명명한 이 다제내성 plasmid로부터 sulfonamide, streptomycin, tetracycline 내성유전자를 가지는 약 7 kb의 Sacl 단편을 클로닝 하였다. 이 7 kb 단편 염기서열의 내성유전자의 구조는 sulII-strA-strB-tetR-tetA의 집락으로 기존에 보고되지 않은 새로운 유전자 배열을 나타내었다. 본 연구에서는 내성유전자 집락을 검출할수 있는 primer를 제작하여 PCR 분석을 통해서 이들 구조를 탐지할 수 있는 방법을 제시하였다. 또한 PCR 분석을 통한 구조 비교로, 이 집락이 2002년 8월에 경북지역에서 산발적으로 발생한 Salmonella 균주에서도 발견됨을 확인하였다.
Lee Kyoung,Ryu Eun-Kyeong,Choi Kyung-Soon,Cho Min-Chul,Jeong Jae-Jun,Choi Eun-Na,Lee Soo-O,Yoon Do-Young,Hwang In-Gyu,Kim Chi-Kyung The Microbiological Society of Korea 2006 The journal of microbiology Vol.44 No.2
Pseudomonas putida KL47 is a natural isolate that assimilates benzene, 1-alkylbenzene $(C_1-C_4)$, biphenyl, p-cumate, and p-cymene. The genetic background of strain KL47 underlying the broad range of growth substrates was examined. It was found that the cym and cmt operons are constitutively expressed due to a lack of the cymR gene, and the tod operon is still inducible by toluene and biphenyl. The entire array of gene clusters responsible for the catabolism of toluene and p-cymene/p-cumate has been cloned in a cosmid vector, pLAFR3, and were named pEK6 and pEK27, respectively. The two inserts overlap one another and the nucleotide sequence (42,505 bp) comprising the cym, cmt, and tod operons and its flanking genes in KL47 are almost identical (>99 %) to those of P. putida F1. In the cloned DNA fragment, two genes with unknown functions, labeled cymZ and cmtR, were newly identified and show high sequence homology to dienelactone hydrolase and CymR proteins, respectively. The cmtR gene was identified in the place of the cmtI gene of previous annotation. Western blot analysis showed that, in strains F1 and KL47, the todT gene is not expressed during growth on Luria Bertani medium. In minimal basal salt medium, expression of the todT gene is inducible by toluene, but not by biphenyl in strain F1; however, it is constantly expressed in strain KL47, indicating that high levels of expression of the todST genes with one amino acid substitution in TodS might provide strain KL47 with a means of adaptation of the tod catabolic operon to various aromatic hydrocarbons.
Kyoung Lee,Eun Kyeong Ryu,Kyung Soon Choi,Min Chul Cho,Jae Jun Jeong,Eun Na Choi,Soo O Lee,윤도영,Ingyu Hwang,Chi-Kyung Kim 한국미생물학회 2006 The journal of microbiology Vol.44 No.2
Pseudomonas putida KL47 is a natural isolate that assimilates benzene, 1-alkylbenzene (C1-C4), biphenyl, p-cumate, and p-cymene. The genetic background of strain KL47 underlying the broad range of growth substrates was examined. It was found that the cym and cmt operons are constitutively expressed due to a lack of the cymR gene, and the tod operon is still inducible by toluene and biphenyl. The entire array of gene clusters responsible for the catabolism of toluene and p-cymene/p-cumate has been cloned in a cosmid vector, pLAFR3, and were named pEK6 and pEK27, respectively. The two inserts overlap one another and the nucleotide sequence (42,505 bp) comprising the cym, cmt, and tod operons and its flanking genes in KL47 are almost identical (>99%) to those of P. putida F1. In the cloned DNA fragment, two genes with unknown functions, labeled cymZ and cmtR, were newly identified and show high sequence homology to dienelactone hydrolase and CymR proteins, respectively. The cmtR gene was identified in the place of the cmtI gene of previous annotation. Western blot analysis showed that, in strains F1 and KL47, the todT gene is not expressed during growth on Luria Bertani medium. In minimal basal salt medium, expression of the todT gene is inducible by toluene, but not by biphenyl in strain F1; however, it is constantly expressed in strain KL47, indicating that high levels of expression of the todST genes with one amino acid substitution in TodS might provide strain KL47 with a means of adaptation of the tod catabolic operon to various aromatic hydrocarbons.