• 생명과학회지
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• 제33권1호
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• pp.34-42
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• 2023

환경 스트레스 신호 인지부터 스트레스 반응 유전자의 발현에 이르는 신호전달 네트워크에 있어서, 스트레스 반응 프로모터의 cis-조절 요소와 거기에 결합하는 다양한 전사인자는 환경 스트레스에 대한 식물의 적응을 조절한다. 애기장대 AP2/ERF 전사인자 패밀리 중 그룹 VII ERF는 RAP2.12, RAP2.2, RAP2.3, AtERF73/HRE1, AtERF71/HRE2 유전자를 포함하며, 저산소 스트레스 반응에서 중요한 역할을 하는 것으로 알려져 있다. 본 연구에서는 HRE1 프로모터의 저산소 반응 부위를 동정하였다. 이를 위해 1,000 bp, 800 bp, 600 bp, 400 bp, 200 bp, 100 bp, 그리고 50 bp HRE1 프로모터 부위를 포함하는 벡터를 제작하여 프로모 터 활성을 분석한 결과, -200에서 -100 프로모터 부위가 HRE1의 저산소 반응에서 중요함을 확인하였다. HRE1의 -200에서 -100 프로모터 부위에는 저산소 반응 cis-조절 요소로 알려진 ERF-결합 부위와 DOF-결합 부위가 존재하는데, 이는 HRE1의 발현이 ERF 전사인자와 DOF 전사인자에 의해 조절될 수 있음을 시사한다. 전체적으로, 본 연구를 통해 HRE1 의 저산소 스트레스 반응에는 -200에서 -100 프로모터 부위에 존재하는 cis-조절 요소가 중요한 역할을 한다는 것을 확인하였다.

• BMB Reports
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• 제43권8호
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• pp.567-572
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• 2010

In this study, we cloned the ERF-B3 subfamily transcription factor gene BnaERF-B3-hy15 from Brassica napus L. Huyou15. This 600 bp gene encodes a 199 amino acid classic ethylene responsive factor (ERF), which shown no binding or very weak binding GCC box-binding activity by the yeast one-hybrid assay. We used gene shuffling and the yeast one-hybrid system to obtain three mutated sequences that can bind to the GCC box. Sequence analysis indicated that two residues, Gly156 in the AP2 domain and Phe62 at the N-terminal domain were mutated to arginine and serine, respectively. Changes of Gly156 to arginine and Phe62 to serine increased the GCC-binding activity of BnaERF-B3-hy15 and the alter of Gly156 to arginine changed the AP2-domain structure of BnaERF-B3-hy15.

• 생명과학회지
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• 제17권2호통권82호
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• pp.235-240
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• 2007

본 연구는 Affymetrix Arabidopsis DNA chip을 이용하여 비 병원성 인자인 AvrRpt2 단백질에 의해서 특이적으로 전사 과정이 조절되는 애기장대 유전자들을 분리하고 병 저항성 방어체계와 관련한 이들 유전자들의 기능 분석을 시도하였다. 그 중에서 먼저 식물 호르몬인 ethylene의 신호 조절에 관여하는 ERFs (ethylene-responsive element binding factors) 전사조절 유전자 family 중에서 Bla subfamily 그룹으로 알려져 있는 AtERF11 유전자의 병 저항성 관련 기능을 규명하였다. 저항성 유전자 RPS2가 없는 경우에는 비 병원성 인자인 AvrRpt2 단백질은 기주 식물체내의 기초 병저항성을 감소시키고 병원성 세균의 증식을 향상시켜서 병증을 증대시키는 effector로 작용한다는 기존의 연구결과와 유사하게, 저항성 유전자 RPS2가 없는 조건에서 AtERF11 유전자의 발현이 AvrRpt2 단백질의 작용에 의해서 특이적으로 감소되는 것을 확인하였다. 이러한 결과를 바탕으로 AtERF11 유전자는 식물체의 병 저항성 방어기작에 있어서 positive regulator로서 작용하기 때문에 effector로 작용하는 AvrRpt2 단백질에 의해서 조절되는 것으로 추측하였다. 본 가설을 증명하기 위해 AtERF11의 발현을 증폭시킨 애기장대 형질전화체를 제작하고 P. syringae pv. tomato DC 3000에 대한 병저항성을 실험하였다. AtERF11 유전자가 대량 발현하는 형질전화 된 애기장대에서는 야생종에 비해 대략 100배 이상 세균의 증식이 억제되는 강력한 병저항성을 가진다는 것을 검증하였다.

• Plant Breeding and Biotechnology
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• 제5권2호
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• pp.123-133
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• 2017

AP2/EREBP gene family consists of transcription factor genes with a conserved AP2 DNA-binding domain and is involved in various biological processes. AP2/EREBP gene families were identified through genome-wide searches in five Cucurbitaceae species including cucumber, wild cucumber, melon, watermelon, and bitter gourd, which consisted of more than 100 genes in each of the five species. The gene families were further divided into five groups including four subfamilies (ERF, DREB, AP2 and RAV) and a soloist group. Among the subfamilies, DREB subfamily which is known to be related to abiotic stress response was more analyzed and a total of 25 genes were identified as Cucurbitaceae homologues of Arabidopsis CBF/DREB1 genes which are important for abiotic stress-response and tolerance. In silico expression profiling using RNA-Seq data revealed diverse expression patterns of cucumber AP2/EREBP genes. AP2/EREBP gene families identified in this study will be valuable for understanding the stress response mechanism as well as facilitating molecular breeding in Cucurbitaceae crops.

• BMB Reports
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• 제38권4호
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• pp.440-446
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• 2005

A cDNA that was rapidly induced upon abscisic acid, cold, drought, mechanical wounding and to a lesser extent, by high salinity treatment, was isolated from Arabidopsis seedlings. It was classified as DREB subfamily member based on multiple sequence alignment and phylogenetic characterization. Since it encoded a protein with a typical ERF/AP2 DNA-binding domain and was closely related to the TINY gene, we named it TINY2. Gel retardation assay revealed that TINY2 was able to form a specific complex with the previously characterized DRE element while showed only residual affinity to the GCC box. When fused to the GAL4 DNA-binding domain, either full-length or its C-terminus functioned effectively as a trans-activator in the yeast one-hybrid assay while its N-terminus was completely inactive. Our data indicate that TINY2 could be a new member of the AP2/EREBP transcription factor family involved in activation of down-stream genes in response to environmental stress.

• Journal of Plant Biotechnology
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• 제46권2호
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• pp.97-105
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• 2019

Dehydration Responsive Element Binding (DREB) gene is one of the essential transcription factors plants use for responding to stress conditions including salinity, drought, and cold stress. The purpose of this study was to isolate the full length and characterize the DREB gene from three different genotypes of sugarcane, wild, commercial cultivar, and interspecific hybrid sugarcane. The length of the gene, designated ScDREB was 789 bp, and coding for a putative polypeptide of 262 amino acid residues. Sequences of the gene were submitted to the GenBank database with accession numbers of KX280722.1, KX280721.1, and KX280719.1 for wild sugarcane, commercial cultivar (KPS94-13), and interspecific hybrid (Biotec2), respectively. In silico characterization indicated that the deduced polypeptide contains a putative nuclear localization signal (NLS) sequence, and a conserved AP2/ERF domain of the DREB family, at 82-140 amino residues. Based on multiple sequence alignment, sequences of the gene from the three sugarcane genotypes were classified in the DREB2 group. Gene expression analysis indicated, that ScDREB2 expression pattern in tested sugarcane was up-regulated by salt stress. When the plants were under 100 mM NaCl stress, relative expressions of the gene in leaves was higher than those in roots. In contrast, under 200 mM NaCl stress, relative expressions of the gene in roots was higher than those in leaves. This is the first report on cloning the full length and characterization, of ScDREB2 gene of sugarcane. Results indicate that ScDREB2 is highly responsive to salt stress.

• The Plant Pathology Journal
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• 제37권2호
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• pp.182-193
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• 2021

The transcription factor SHE1 was identified as an interacting partner with the cucumber mosaic virus (CMV) 1a protein in the yeast two-hybrid system, by a pull-down assay, and via bimolecular fluorescent complementation. Using fluorescent-tagged proteins and confocal microscopy, the CMV 1a protein itself was found distributed predominantly between the nucleus and the tonoplast membrane, although it was also found in speckles in the cytoplasm. The SHE1 protein was localized in the nucleus, but in the presence of the CMV 1a protein was partitioned between the nucleus and the tonoplast membrane. SHE1 expression was induced by infection of tobacco with four tested viruses: CMV, tobacco mosaic virus, potato virus X and potato virus Y. Transgenic tobacco expressing the CMV 1a protein showed constitutive expression of SHE1, indicating that the CMV 1a protein may be responsible for its induction. However, previously, such plants also were shown to have less resistance to local and systemic movement of tobacco mosaic virus (TMV) expressing the green fluorescent protein, suggesting that the CMV 1a protein may act to prevent the function of the SHE1 protein. SHE1 is a member of the AP2/ERF class of transcription factors and is conserved in sequence in several Nicotiana species, although two clades of SHE1 could be discerned, including both different Nicotiana species and cultivars of tobacco, varying by the presence of particular insertions or deletions.

• Genomics & Informatics
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• 제20권2호
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• pp.19.1-19.15
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• 2022

Alfalfa (Medicago sativa) is an important food and feed crop which rich in mineral sources. The WUSCHEL-related homeobox (WOX) gene family plays important roles in plant development and identification of putative gene families, their structure, and potential functions is a primary step for not only understanding the genetic mechanisms behind various biological process but also for genetic improvement. A variety of computational tools, including MAFFT, HMMER, hidden Markov models, Pfam, SMART, MEGA, ProtTest, BLASTn, and BRAD, among others, were used. We identified 34 MsWOX genes based on a systematic analysis of the alfalfa plant genome spread in eight chromosomes. This is an expansion of the gene family which we attribute to observed chromosomal duplications. Sequence alignment analysis revealed 61 conserved proteins containing a homeodomain. Phylogenetic study sung reveal five evolutionary clades with 15 motif distributions. Gene structure analysis reveals various exon, intron, and untranslated structures which are consistent in genes from similar clades. Functional analysis prediction of promoter regions reveals various transcription binding sites containing key growth, development, and stress-responsive transcription factor families such as MYB, ERF, AP2, and NAC which are spread across the genes. Most of the genes are predicted to be in the nucleus. Also, there are duplication events in some genes which explain the expansion of the family. The present research provides a clue on the potential roles of MsWOX family genes that will be useful for further understanding their functional roles in alfalfa plants.