• 식물조직배양학회지
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• 제28권3호
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• pp.165-171
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• 2001

Adenosine deaminase 유전자를 연초의 형질전환용 표지유전자로 활용할 때 형질전환체 여부를 매우 빠르고 눈으로 직접 색깔을 확인할 수 있는 새로운 방법이 개발되었다. ADA 효소는 독성인 adenosine 유도체를 비독성인 inosine 유도체와 암모니아로 변환시키는데, 이때 형성된 암모니아를 phenol-nitoprusside와 alkaline-hypochlorite 용액을 이용하여 청색으로 변환시켜 96 well plate상에서 1시간 내에 형질전환체 여부를 쉽게 확인할 수 있게 되었다. ADA효소의 substrate로서 9-D-arabinofuranosyl adenine, cordycepin, 2'-deoxyadenosine, adenosine and xylofuranosyl adenine이 모두 가능하였으며, substrate 용액의 최적조건은 adenosine 10 mM과 pH 7.5이었다. 특히 형질전환체는 ADA효소의 inhibitor인 deoxycoformycin이 함유되어 있는 용액 속에서는 adenosine을 inosine과 암모니아로 변환시키지 못해 색깔의 변화가 없었는데, 이는 형질전환체에서 색깔의 변화는 ADA효소의 작용 때문에 일어나는 것을 의미한다. 따라서 본 연구결과는 ADA 표지유전자가 도입된 형질전환체의 확인에 있어서 GUS gene system과 같이 눈으로 직접 확인할 수 있을 뿐만 아니라 매우 작은 크기의 형질전환체 절편으로 쉽고, 빠르면, 값싸게 확인할 수 있게 되었다.

• Journal of Plant Biotechnology
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• 제40권1호
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• pp.27-36
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• 2013

We isolated and functionally characterized a Dendrobium Actin1 (DmACT1) promoter that drives strong gene expression in the orchid genus Dendrobium. A genomic fragment containing the region 3227 bp upstream of the coding region of DmACT1 was obtained by inverse PCR. Detailed comparison of the full-length cDNA and genomic sequences revealed that DmACT1 has a 1374 bp first intron in the 5' UTR. However, the 5' flanking sequences upstream of the coding region showed no obvious sequence similarities compared to those of known promoters, including plant actin promoters. Serial deletion constructs of the 5' flanking region from the translation initiation codon were fused to the coding sequence of a GUS/luciferase fusion reporter to identify the regulatory elements necessary for promoter activity. Transient assays in the flowers of Dendrobium revealed that the 5' UTR-intron greatly enhanced promoter activity. Moreover, the DmACT1 promoter with its 5' UTR-intron yielded approximately 10-fold higher reporter activity than the rice Act1 promoter-intron. Our data suggest that the DmACT1 promoter with its 5' UTR-intron is a useful tool for strong expression of transgenes in Dendrobium orchids.

• Plant Biotechnology Reports
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• 제5권2호
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• pp.147-156
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• 2011

Efficient Agrobacterium-mediated genetic transformation of Scoparia dulcis L. was developed using Agrobacterium tumefaciens strain LBA4404 harboring the binary vector pCAMBIA1301 with ${\beta}$-glucuronidase (GUS) (uidA) and hygromycin phosphotransferase (hpt) genes. Two-day precultured leaf segments of in vitro shoot culture were found to be suitable for cocultivation with the Agrobacterium strain, and acetosyringone was able to promote the transformation process. After selection on shoot organogenesis medium with appropriate concentrations of hygromycin and carbenicillin, adventitious shoots were developed on elongation medium by twice subculturing under the same selection scheme. The elongated hygromycin-resistant shoots were subsequently rooted on the MS medium supplemented with $1mg\;l^{-1}$ indole-3-butyric acid and $15mg\;l^{-1}$ hygromycin. Successful transformation was confirmed by PCR analysis using uidA- and hpt-specific primers and monitored by histochemical assay for ${\beta}$-GUS activity during shoot organogenesis. Integration of hpt gene into the genome of transgenic plants was also verified by Southern blot analysis. High transformation efficiency at a rate of 54.6% with an average of $3.9{\pm}0.39$ transgenic plantlets per explant was achieved in the present transformation system. It took only 2-3 months from seed germination to positive transformants transplanted to soil. Therefore, an efficient and fast genetic transformation system was developed for S. dulcis using an Agrobacterium-mediated approach and plant regeneration via shoot organogenesis, which provides a useful platform for future genetic engineering studies in this medicinally important plant.

• Molecules and Cells
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• 제37권11호
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• pp.795-803
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• 2014

To withstand ever-changing environmental stresses, plants are equipped with phytohormone-mediated stress resistance mechanisms. Salt stress triggers abscisic acid (ABA) signaling, which enhances stress tolerance at the expense of growth. ABA is thought to inhibit the action of growth-promoting hormones, including brassinosteroids (BRs). However, the regulatory mechanisms that coordinate ABA and BR activity remain to be discovered. We noticed that ABA-treated seedlings exhibited small, round leaves and short roots, a phenotype that is characteristic of the BR signaling mutant, brassinosteroid insensitive1-9 (bri1-9). To identify genes that are antagonistically regulated by ABA and BRs, we examined published Arabidopsis microarray data sets. Of the list of genes identified, those upregulated by ABA but downregulated by BRs were enriched with a BRRE motif in their promoter sequences. After validating the microarray data using quantitative RT-PCR, we focused on RD26, which is induced by salt stress. Histochemical analysis of transgenic Arabidopsis plants expressing RD26pro:GUS revealed that the induction of GUS expression after NaCl treatment was suppressed by co-treatment with BRs, but enhanced by co-treatment with propiconazole, a BR biosynthetic inhibitor. Similarly, treatment with bikinin, an inhibitor of BIN2 kinase, not only inhibited RD26 expression, but also reduced the survival rate of the plant following exposure to salt stress. Our results suggest that ABA and BRs act antagonistically on their target genes at or after the BIN2 step in BR signaling pathways, and suggest a mechanism by which plants fine-tune their growth, particularly when stress responses and growth compete for resources.

• 식물조직배양학회지
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• 제26권3호
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• pp.163-169
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• 1999

우리나라의 주요 개량 포플러의 하나인 현사시 3호를 대상으로 Arobacterium tumefaciens MP 90/PAT을 이용하여 비선택성 제초제인 Basta에 내성을 갖는 형질전환체를 획득하고자 본 실험을 수행하였다. 기내 배양된 엽절편을 재료로 균주에 10분간 감염, 2일간 공조 배양 및 3주간 선발배지에서 배양으로 kanamycin에 내성을 갖는 잠정적인 형질전환 캘러스를 유도하였다. 선발된 캘러스로부터 배양 4주 후 줄기를 유도하였으며, 증식된 줄기는 발근시켜 완전한 형질전환체를 얻었다. 형질전환체는 PCR기법 및 Southern blot 분석으로 PAT 유전자 전이를 확인하고. 유전자의 발현은 GUS 유전자의 발색 반응으로 확인하였다. 형질전환체는 폿트로 이식하여 4주간 생장시킨 후 제초제 Basta로 살포한 결과 대조구 식물체는 고사되었으나, 형질전환체는 정상적인 생육이 가능하였다

• Journal of Plant Biotechnology
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• 제47권1호
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• pp.66-72
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• 2020

Alstroemeria plants were transformed by using an improved particle-gun-mediated transformation system. Friable embryogenic callus (FEC) induced from the leaves with axil tissues of Alstroemeria plant was used as the target tissue. Also, FEC was transformed with the bar gene was used as a selectable marker. In the case of plasmid pAHC25, 7.5% of the twice-bombarded FEC clumps showed blue foci, whereas the clumps with single bombardment showed only 2.3%. Additionally, a 90° rotation with double bombardment led to a higher frequency (6 times) of luciferase gene expression in PBL9780 than the control treatment. After 8 weeks of bombardment, more than 60 independent transgenic lines were obtained for pAHC25 and nearly 150 independent transgenic lines were obtained for PBL9780, all of which were resistant to PPT and demonstrated either GUS or luciferase activity. Regarding effect of osmotic treatment (0.2 M mannitol) with 7 different periods, the highest transient gene expression was obtained in 8 h before and 16 h after transformation in both pAHC25 and PBL9780. Compared with the control, at least three times more GUS foci and photons were observed in this treatment. With respect to different combinations of mannitol and sorbitol with 8 h before and 16 h after transformation, high numbers of transient and stable transgene expressions were observed in both 0.2 M mannitol and 0.2 M sorbitol used in the osmotic pre-culture. This combination showed the highest transformation efficiency in both pAHC25 (8.5%) and PBL9780 (14.5%). In the control treatment, only 10% of the FEC clumps produced somatic embryos. However, by using 0.2 M mannitol and 0.2 M sorbitol, the frequency of somatic embryos increased to 36.5% (pAHC25) and 22.9% (PBL9780). Of the somatic embryos produced, at least 60% germinated. Approximately 100 somatic embryos from these 210 independent transgenic lines from 2 plasmids developed into shoots, which were then transferred to the greenhouse. PCR analysis confirmed the presence of the bar gene. This is the report on the production of transgenic Alstroemeria plants by using particle bombardment with a high efficiency, thereby providing a new alternative for the transferring of gene of interests in Alstroemeria in the breeding program in the future.

• 원예과학기술지
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• 제31권1호
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• pp.95-102
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• 2013

이원적 전사유도 시스템(binary trans-activation system)은 도입유전자의 발현을 조절하는 기작(mechanism) 중에 하나로, 목적 유전자의 발현이 전사활성 인자를 가지고 있는 식물체와의 교배를 통해서만 발현되는 시스템이다. 본 연구에서는 이원적 전사유도 시스템을 원예 작물의 우수한 유전자원 및 신품종 보호 방법으로 이용하고자, 배추에서 이 시스템의 기능을 검정하였다. 배추작물에서 이원적 전사유도 시스템의 이용가능성을 검정하기 위하여 activator construct(35SLhGBart)와 reporter construct(pOpGUS1300)를 작성하였고 공동형질전환방법으로 배추에 형질전환하였다. 두 종류의 카세트가 도입된 형질전환체는 항생제를 이용하여 선발하였으며, 재분화된 신초의 GUS 유전자 발현으로 이 시스템의 활성을 확인하였다. 또한 이 시스템을 조직 특이적으로 유도하기 위하여 애기장대의 자성 배우체 특이적 프로모터를 이용하여 activator construct(795LhGBart)를 작성하여 애기장대에 형질전환 하였다. 공동형질전환된 애기장대는 자성 배우체에서 조직 특이적인 발현을 나타냈다. 이러한 결과는 이원적 전사유도 시스템이 목적유전자의 발현을 배추의 $F_1$ 종자에서 선택적으로 유도하는 방법으로써 우수한 유전자원 및 신품종 보호에 이용될 수 있다는 것을 보여주는 것이라고 생각된다.

• 식물조직배양학회지
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• 제27권5호
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• pp.387-393
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• 2000

The process by which Agrobacterium tumefaciens genetically transforms plants involves a complex series of reactions communicated between the pathogen and the plants. To identify plant factors involved in agrobacterium-mediated plant transformation, a large number of T-DNA inserted Arabidopsis thaliana mutant lines were investigated for susceptibility to Agrobacterium infection by using an in vitro root inoculation assay. Based on the phenotype of tumorigenesis, twelve T-DNA inserted Arabidopsis mutants(rat) that were resistant to Agrobacterium transformation were found. Three mutants, rat1, rat3, and rat4 were characterized in detail. They showed low transient GUS activity and very low stable transformation efficiency compared to the wild-type plant. The resistance phenotype of rat1 and rats resulted from decreased attachment of Agrobacterium tumefaciens to inoculated root explants. They may be deficient in plant actors that are necessary for bacterial attachment to plant cells. The disrupted genes in rat1, rat3, and rat4 mutants were coding a arabinogalactan protein, a likely cell wall protein and a cellulose synthase-like protein, respectively.

• 생명과학회지
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• 제14권4호
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• pp.657-663
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• 2004

고추에서 클로닝된 sesquiterpene cyclase (CASC) promoter에 cinnamic acid 4-hydroxylase (C4H)유전자를 클로닝하여 담배에 형질전환하였다. 형질전환체의 분석은 PCR, Southern blot분석으로 하였으며, CASC promoter의 작동여부를 조사하기 위하여 GUS histochemical assay를 하였다. 스트레스에 반응한다고 알려진 CASC promoter를 C4H gene과 fusion하여 C4H activity를 조사하여 스트레스에 반응하는 정도를 조사하였다. 최종적인 형질전환체로 확인된 개체는 평균 16.4% 정도였으며, 각 promoter별로 약간의 편차를 보였다. C4H activity 조사시 스트레스를 주지 않았을 때 대조구가 비슷한 양상을 나타내었다. 스트레스를 주었을 때 대조구와 비교하여 promoter 3번은 1.3배 activity가 높아졌으며 4번은 1.4배, 6은 2배, cyc 600은 1.1배 높아졌다. 이런 결과로 보아 이 promoter들은 UV에 반응하는 promoter이며 앞으로 stress에 저항하는 유전자의 적당한 promoter로, 타작물에 적용하여 stress저항성 작물의 육성 시 매우 유용하게 사용될 것으로 사료된다.

• Molecules and Cells
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• 제27권4호
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• pp.467-473
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• 2009

Our previous study suggested that OsBWMK1, a gene which encodes a member of the rice MAP kinase family, generates transcript variants which show distinct expression patterns in response to environmental stresses. The transcript variants are generated by alternative splicing and by use of alternative promoters. To test whether the two alternative promoters, pOsBWMK1L (promoter for the OsBWMK1L splice variant) and pOsBWMK1S (promoter for the OsBWMK1S splice variant), are biologically functional, we analyzed transgenic plants expressing GUS fusion constructs for each promoter. Both pOsBWMK1L and pOsBWMK1S are biologically active, although the activity of pOsBWMK1S is lower than that of pOsBWMK1L. Histochemical analysis revealed that pOsBWMK1L is constitutively active in most tissues at various developmental stages in rice and Arabidopsis, whereas pOsBWMK1S activity is spatially and temporally restricted. Furthermore, the expression of pOsBWMK1S::GUS was upregulated in response to hydrogen peroxide, a plant defense signaling molecule, in both plant species. These results suggest that the differential expression of OsBWMK1 splice variants is the result of alternative promoter usage and, moreover, that the mechanisms controlling OsBWMK1 gene expression are conserved in both monocot and dicot plants.