• Journal of Microbiology and Biotechnology
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• 제32권5호
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• pp.582-593
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• 2022

Among abiotic stresses in plants, drought and chilling stresses reduce the supply of moisture to plant tissues, inhibit photosynthesis, and severely reduce plant growth and yield. Thus, the application of water stress-tolerant agents can be a useful strategy to maintain plant growth under abiotic stresses. This study assessed the effect of exogenous bio-based 2,3-butanediol (BDO) application on drought and chilling response in tomato and turfgrass, and expression levels of several plant signaling pathway-related gene transcripts. Bio-based 2,3-BDOs were formulated to levo-2,3-BDO 0.9% soluble concentrate (levo 0.9% SL) and meso-2,3-BDO 9% SL (meso 9% SL). Under drought and chilling stress conditions, the application of levo 0.9% SL in creeping bentgrass and meso 9% SL in tomato plants significantly reduced the deleterious effects of abiotic stresses. Interestingly, pretreatment with levo-2,3-BDO in creeping bentgrass and meso-2,3-BDO in tomato plants enhanced JA and SA signaling pathway-related gene transcript expression levels in different ways. In addition, all tomato plants treated with acibenzolar-S-methyl (as a positive control) withered completely under chilling stress, whereas 2,3-BDO-treated tomato plants exhibited excellent cold tolerance. According to our findings, bio-based 2,3-BDO isomers as sustainable water stress-tolerant agents, levo- and meso-2,3-BDOs, could enhance tolerance to drought and/or chilling stresses in various plants through somewhat different molecular activities without any side effects.

• BMB Reports
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• 제42권9호
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• pp.611-616
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• 2009

We investigated the expression pattern of dehydration responsive element-binding protein-3 in tomato under different abiotic stresses. Full length LeDREB3 cDNA was isolated from tomato plant, followed by phylogenetic analysis based on deduced amino acid sequences that revealed significant sequence similarity to DREB proteins belonging to diverse families of plant species. Southern blot analysis showed duplicate copies of LeDREB3 in the tomato genome while organ-specific expression profiling indicated constitutive expression of LeDREB3 in all tested organs, which was particularly strong in flower. LeDREB3 expression was significantly induced by Nacl, drought, low temperature and $H_2O_2$. Moreover, LeDREB3 was slightly regulated by treatment with ABA and MV. These observations suggest that the LeDREB3 gene may be involved in the response of the tomato plant to stress.

• BMB Reports
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• 제41권1호
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• pp.86-91
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• 2008

The full-length cDNA of CaAbsi1 encodes a presumptive protein of 134 amino acid residues that has homology to a putative zinc finger protein in its C-terminus. The deduced amino acid sequence has 50% homology to Oryza sativa NP001049-274, the function of which is unknown. Expression of CaAbsi1 was reduced in response to inoculation of non-host pathogens. On the other hand it was induced one hour after exposure to high concentrations of NaCl or mannitol, and six hours after transfer to low temperature. Induction also occurred in response to oxidative stress, methyl viologen, hydrogen peroxide and abscisic acid. Our results suggest that CaAbsi1 plays a role in multiple responses to wounding and abiotic stresses.

• The Plant Pathology Journal
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• 제36권1호
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• pp.1-10
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• 2020

Since salicylic acid (SA) was discovered as an elicitor of tobacco plants inducing the resistance against Tobacco mosaic virus (TMV) in 1979, increasing reports suggest that SA indeed is a key plant hormone regulating plant immunity. In addition, recent studies indicate that SA can regulate many different responses, such as tolerance to abiotic stress, plant growth and development, and soil microbiome. In this review, we focused on the recent findings on SA's effects on resistance to biotic stresses in different plant-pathogen systems, tolerance to different abiotic stresses in different plants, plant growth and development, and soil microbiome. This allows us to discuss about the safe and practical use of SA as a plant defense activator and growth regulator. Crosstalk of SA with different plant hormones, such as abscisic acid, ethylene, jasmonic acid, and auxin in different stress and developmental conditions were also discussed.

• Molecules and Cells
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• 제43권6호
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• pp.501-508
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• 2020

In eukaryotes, membraneous cellular compartmentation essentially requires vesicle trafficking for communications among distinct organelles. A donor organelle-generated vesicle releases its cargo into a target compartment by fusing two distinct vesicle and target membranes. Vesicle fusion, the final step of vesicle trafficking, is driven intrinsically by complex formation of soluble N-ethylmaleimide-sensitive factor attachment protein receptors (SNAREs). Although SNAREs are well-conserved across eukaryotes, genomic studies revealed that plants have dramatically increased the number of SNARE genes than other eukaryotes. This increase is attributed to the sessile nature of plants, likely for more sensitive and harmonized responses to environmental stresses. In this review, we therefore try to summarize and discuss the current understanding of plant SNAREs function in responses to biotic and abiotic stresses.

• Plant Resources
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• 제8권3호
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• pp.181-187
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• 2005

A cinnamoyl CoA reductase (CCR) cDNA (ClCCR) was isolated from tabroot mRNAs of Codonopsis lanceolata by cDNA library construction, and its expression was investigated in relation to abiotic stresses. The ClCCR is 1008 bp in length with an open reading frame (ORF) of 336 amino acids. The deduced amino acid sequence was showed high similarity with cinnamoyl-CoA reductases of P. tremuloides (AAF43141) 87%, F.${\times}$aranassa (AAP46143) 83%, L. album (CAD29427) 80%, E. gunnii (CAA66063) 72%, S. tuberosum (AAN71761) 83%. Reverse transcriptase-polymerase chain reaction (RT-PCR) analysis was revealed that the ClCCR expression was regulated by abiotic stresses.

• 한국초지학회:학술대회논문집
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• 한국초지조사료학회 2005년도 학술심포지엄, 제43회 학술발표회
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• pp.208-209
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• 2005

• Journal of Microbiology and Biotechnology
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• 제33권9호
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• pp.1119-1129
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• 2023

Seeds are colonized by diverse microorganisms that can improve the growth and stress resistance of host plants. Although understanding the mechanisms of plant endophyte-host plant interactions is increasing, much of this knowledge does not come from seed endophytes, particularly under environmental stress that the plant host grows to face, including biotic (e.g., pathogens, herbivores and insects) and abiotic factors (e.g., drought, heavy metals and salt). In this article, we first provided a framework for the assembly and function of seed endophytes and discussed the sources and assembly process of seed endophytes. Following that, we reviewed the impact of environmental factors on the assembly of seed endophytes. Lastly, we explored recent advances in the growth promotion and stress resistance enhancement of plants, functioning by seed endophytes under various biotic and abiotic stressors.

• 식물병연구
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• 제23권2호
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• pp.99-113
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• 2017

식물은 재배기간 동안 세균, 진균, 바이러스 등의 생물 스트레스뿐만 아니라 고온, 염, 건조 등 다양한 환경 스트레스에도 노출되어 왔다. 최근에는 기후 이상현상으로 인하여 환경 스트레스의 빈도 및 강도가 불규칙적으로 증가하고 있으며 이로 인해 병원균의 생장과 영향도 변화하여 생물과 환경의 복합 스트레스가 식물 재배에 큰 영향을 주고 있다. 유용미생물을 이용한 식물의 저항성 유도는 다양한 생물과 환경 스트레스로부터 식물을 보호하는 데 도움을 주며, 이러한 스트레스에 대한 피해를 감소시킬 수 있는 가능성을 열어 주었다. 본 리뷰에서는 식물의 생물과 환경 스트레스에 대한 피해를 감소시키는 데 영향을 주는 미생물의 결정인자에 대해 기술하였으며 미생물 결정인자에 의해 유도되는 식물 신호전달 체계 변화에 대해 기술하였다. 또한 복합 스트레스 경감을 위한 미생물의 역할과 연구 방향에 대해 기술하였다. 이 리뷰를 통해 변화하는 환경에 대비하기 위해서 다양한 방안을 마련하고 있는 농민들에게 도움이 되기를 바라며, 실제 유용미생물 연구가 식물 재배 중 발생할 수 있는 다양한 스트레스에 따른 농가 피해를 감소시킬 효과적 대응 방안으로 이어지길 바란다.

• 식물병연구
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• 제24권3호
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• pp.221-232
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• 2018

근권세균은 식물 생육과 건강 증진에 중요한 역할을 하며 생물학적 스트레스뿐만 아니라 저온, 고온, 건조 및 염과 같은 비생물적 스트레스에도 내성을 부여한다. 본 연구는 토마토에 생물적 및 비생물적 스트레스를 완화시키는 기능을 가진 식물생장촉진 근권세균(plant growth promoting rhizobacteria, PGPR)을 선발하는 것을 목표로 하였으며 토마토 근권에서 Variovorax sp. PMC12균주를 분리하였다. PMC12균주는 in vitro에서 PGPR의 특성으로 알려진 암모니아, IAA, 시드로포아 및 ACC 탈아민효소를 생성하였다. PMC12 균주를 처리한 토마토는 대조구에 비해 염, 저온 및 건조 스트레스 조건에서 지상부 생체중이 유의적으로 높았다. 또한 PMC12 균주를 처리한 토마토는 Ralstonia solanacearum에 의한 세균성 시들음병에 대한 저항성이 증가되었다. 결과적으로 PMC12 균주는 식물의 비생물적 스트레스 및 생물적 스트레스에 대한 감수성을 감소시키는 유망한 생물학적 방제제 및 생물활성제로 사용될 수 있을 것으로 전망된다.