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Salicylic acid (SA) is a plant hormone that has a significant role in many biochemical processes involved in cotton plant resistance against biotic and abiotic stress factors. Exogenous SA has been shown to have effects on plant growth and development, resistance to fungi and insects, and mitigation of abiotic stress factors. Treating cotton seedlings or plants with SA in a culture medium or spraying them with SA has enabled scientists to identify genes responsible for this chemical, associated with several biological functions. SA has been established as part of the defense system in cotton plants: antifungal resistance and insect resistance. Besides, it is a part of plant growth and development as well as fiber development. Identifying SA-responsive genes and understanding their roles in plant resistance enables the development of stress-resistant genotypes. This paper reviews scientific data resulting from the treatment of cotton plants with exogenous SA. In the first section, we discussed antifungal resistance-related data linked to SA treatment, which makes up the highest content of the review. We highlighted its significant role in cotton plant antifungal resistance. The second section deals with SA-responsive genes and metabolites linked with insect resistance. In the third section, we reviewed SA-responsive genes and enzymes associated with cotton plant growth and development. The scientific data regarding SA-linked cotton fiber development have been discussed in the last section. In summary, we discussed SA-responsive genes, proteins, and metabolites that could be used to develop genotypes with enhanced traits.

Salicylic acid (SA) is a plant hormone that has a significant role in many biochemical processes involved in cotton plant resistance against biotic and abiotic stress factors. Exogenous SA has been shown to have effects on plant growth and development, resistance to fungi and insects, and mitigation of abiotic stress factors. Treating cotton seedlings or plants with SA in a culture medium or spraying them with SA has enabled scientists to identify genes responsible for this chemical, associated with several biological functions. SA has been established as part of the defense system in cotton plants: antifungal resistance and insect resistance. Besides, it is a part of plant growth and development as well as fiber development. Identifying SA-responsive genes and understanding their roles in plant resistance enables the development of stress-resistant genotypes. This paper reviews scientific data resulting from the treatment of cotton plants with exogenous SA. In the first section, we discussed antifungal resistance-related data linked to SA treatment, which makes up the highest content of the review. We highlighted its significant role in cotton plant antifungal resistance. The second section deals with SA-responsive genes and metabolites linked with insect resistance. In the third section, we reviewed SA-responsive genes and enzymes associated with cotton plant growth and development. The scientific data regarding SA-linked cotton fiber development have been discussed in the last section. In summary, we discussed SA-responsive genes, proteins, and metabolites that could be used to develop genotypes with enhanced traits.

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기사명 저자명 페이지 원문 목차
Genetic control of resistance mechanisms toward brown planthopper in rice Afifuddin Latif Adiredjo, Iwan Kiswanto p. 1-4
Allelic variation in HMW-GS of mongolian wheat varieties using KASP molecular marker Urtnasan Ganbaatar, Ganbaatar Bodisad, Tuyatsetseg Jambal, Bayarsukh Noov, Dulguun.Dorjgotov, Madhav Subedi p. 5-14
Phytochemical screening, antioxidant and antibacterial activity of six medicinal and aromatic plants in Morocco : a comparative study Aymane Bessi, Chaimae Rais, Chaimae Slimani, Laila Elhanafi, Ikrame Zeouk, Boutaina Louafi, Lahsen El Ghadraoui, El Ouazna Bouchamma p. 15-32
Identification of genes conferring nitrogen deficiency tolerance by GWAS Eun-Gyul Kim, Chuluuntsetseg Jadamba, Soo-Cheul Yoo p. 33-52
Genome-wide characterization and expression profiling of GeBP gene family in Brassica rapa Maria Chowdhory, Arif Hasan Khan Robin p. 53-70
CRISPR/Cas9-mediated improvement of major rice variety TBR225 for low cadmium accumulation Phuong Duy Nguyen, Van Thi Pham, Xuan Hoi Pham, Mai Quynh Le p. 71-83
Molecular screening and diversity of blast resistance genes in some wild and local rice (Oryza sativa L.) genotypes of Bangladesh Sourav Adhikary, Md. Arifur Rahaman, Bipasha Biswas, Sagor G.H.M p. 84-96
Inheritance and phenotypic stability of homoeolog-edited mutants in hexaploid Solanum nigrum Eun Song Lee, Hye-young Kang, Yu Seon Chae, Soon Ju Park p. 97-107
Machine learning-based heading date QTL detection in rice Seung Young Lee, Jae-Hyuk Han, Hyeok-Jin Bak, Su-Kyung Ha, Hyun-Sook Lee, Gileung Lee, Jae-Ryoung Park, Kyeongmin Kang, Jung-Pil Suh, Mina Jin, Ji-Ung Jeung, Youngjun Mo p. 108-118
Morphological variation of F2 population derived from the cross between Perilla frutescens var. crispa and var. frutescens Tae Hyeon Heo, Hyeon Park, Jungeun Cho, Da Hyeon Lee, Ju Kyong Lee p. 119-130
Profiles of gene expression at different time points under salt-stress in Triticum aestivum L. Yeonjun Sung, Changsoo Kim p. 131-155
(The) flooding tolerances of adzuki bean and its relatives at the vegetative and germination stages Hai Anh Tran, Thi Cuc Nguyen, Hyun Jo, Junbeom Park, Jeong-Dong Lee, Hak Soo Seo, Jong Tae Song p. 156-166
Evaluation of genetic diversity of Azerbaijani grape varieties (Vitis ssp.) by using ISSR markers Ruhangiz Mammadova, Vugar Salimov, Shader Alizade, Nurlan Amrahov p. 167-175
Molecular characterization of CRISPR-Cas9-edited rice across generations and associated technical challenges in nucleotide editing tracing Yang Qin, Sang Dae Yun, Hye Lin Kim, Je Yeon Choi, Myung-Ho Lim, Sung Aeong Oh, Soon Ki Park p. 207-228
Validation of molecular markers for breeding high antioxidant traits in Thai rice Phanomsak Tomjai, Chanita Paliyavuth, Supachitra Chadchawan, Pimsiri Tiyayon, Papanee Anantasri, Waraluk Kasettranan p. 176-195
Efficient seed sterilization and protoplast isolation in milk thistle (Silybum Marianum (L.) Gaertn.) Jinwon Lee, Junbeom Park, Zhen Yu Fu, Hyun Jo, Jeong-Dong Lee, Hak Soo Seo, Jong Tae Song p. 196-206
Phenotypic characteristics of quantitative traits in an everbearing strawberry F1 population Iyeong Choi, Young Hun Lee p. 229-242
Genetic divesity of black sapote (Diospyros digyna Jacq.) as revealed by RAPD markers Endang Yuniastuti, Fiska Elvina Oktin, Sukaya, Ariffin Norazrin p. 243-251
Evaluation of phenotypic concordance with four genes involved in powdery mildew resistance of cucumber Mahdi Badri Anarjan, Sang Woo Kim, Do Hwan Hwang, Kihwan Song p. 252-264
Salicylic acid in cotton plant resistance to biotic and abiotic factors Akmal M. Asrorov, Khurshida A. Ubaydullaeva, Mirzakamol S. Ayubov, Adkham N. Abdullaev, Ziyodullo Bashirkhonov, Sadulla A. Abdullaev, Abduvakhid A. Bolkiev, Feruza I. Babadjanova, Nurkhodja Mukhamedov, Ilyos Hudoynazarov, Karomat Kuldoshova, Bahtiyorjon Abdusattarov, Zabardast T. Buriev p. 265-275
Influence of cold and freezing storage on pre-harvest sprouting evaluation in rice panicle Ye-Ji Lee, Su-Kyung Ha, Hyun-Sook Lee, Kyeongmin Kang, Jae-Ryoung Park, Seung Young Lee, Mina Jin, Jung-Pil Suh, Ji-Ung Jeung, Gileung Lee p. 276-280
Enhancement of inpari 42 rice variety through marker-assisted backcrossing for aromatic trait integration and agronomic improvement in BC1F1 generation Muhammad Nuril Fitriyandi, Ummi Sholikhah, Tri Ratnasari, Ahmad Ilham Tanzil, Tri Handoyo, Bambang Sugiharto, Sholeh Avivi, Wahyu Indra Duwi Fanata p. 281-294
Callus-based regeneration in cotton variety Surkhan-106 (Gossypium barbadense L.) Naima Sh. Khojaqulova, Abrorjon Y. Kurbonov, Feruza F. Mamedova, Mokhigul Sh. Abdullayeva p. 295-307

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