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"Expression pattern"

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"Expression pattern"

Research Articles
Differential Expression Pattern of Lignin Biosynthetic Genes in Dwarf Cherry Tomato (Solanum lycopersicum var. cerasiforme)
Md Abdur Rahim, AKM Zilani Rabbi, Khandker Shazia Afrin, Hee-Jeong Jung, Hoy-Taek Kim, Jong-In Park, Ill-Sup Nou
Plant Breed. Biotech. 2019;7(3):229-236.   Published online September 1, 2019
DOI: https://doi.org/10.9787/PBB.2019.7.3.229

Cherry tomatoes are highly nutritious, flavory with a pleasant taste and are becoming increasingly popular to the consumers. The cherry tomato cv. ‘Minichal’ produced some dwarf plants along with normal plants. Lignin, a phenolic biopolymer is the key component of cell walls in plants. Here, we analyzed lignin biosynthesis-related genes in leaves, inflorescences and fruits of dwarf and normal cherry tomato plants by reverse-transcription quantitative PCR (RT-qPCR). Among analyzed genes, SlCCOAOMT1, SlCCOAOMT2, SlCCOAOMT3, SlF5H, and SlCOMT showed significantly higher expressions, in leaf and inflorescence of dwarf plants compared with the normal plants, while SlPAL1 showed a significantly higher expression only in the leaves. On the contrary, SlHCT and SlC3H showed significantly lower expression levels in the leaves and inflorescences of dwarf plants compared with normal ones. The results suggest that SlHCT and SlC3H might have an impact on the dwarf cherry tomato plants.

Citations

Citations to this article as recorded by  
  • Joint Impacts of Meloidogyne incognita and Soil Nutrition on Solanum lycopersicum var. cerasiforme
    Lei Wang, Xingfu Yan, Zhanhui Tang
    Plant Disease.2024; 108(5): 1252.     CrossRef
  • A response of biomass and nutrient allocation to the combined effects of soil nutrient, arbuscular mycorrhizal, and root-knot nematode in cherry tomato
    Lei Wang, Xin Chen, Xingfu Yan, Congli Wang, Pingting Guan, Zhanhui Tang
    Frontiers in Ecology and Evolution.2023;[Epub]     CrossRef
  • Nutrients Regulate the Effects of Arbuscular Mycorrhizal Fungi on the Growth and Reproduction of Cherry Tomato
    Lei Wang, Xin Chen, Yeqin Du, Di Zhang, Zhanhui Tang
    Frontiers in Microbiology.2022;[Epub]     CrossRef
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Expression of Heat Shock Proteins by Heat Stress in Soybean
Kitae Song, Won Cheol Yim, Byung-Moo Lee
Plant Breed. Biotech. 2017;5(4):344-353.   Published online December 1, 2017
DOI: https://doi.org/10.9787/PBB.2017.5.4.344

Heat stress is one of the factors disturb productivity and growth of plants. Many genes including heat shock protein (HSP), heat shock transcription factors (HSF) and chaperones, were identified and characterized in many plants to play role in increased tolerance to abiotic stress. To reveal responsive gene to heat stress, we performed RNA-seq using two Korean soybean varieties under heat stress and normal conditions. The transcripts were analyzed, and we obtained 2,458 genes including 46 co-up regulation and 55 co-down regulated genes in both soybean varieties. We also revealed HSPs, HSFs and chaperones in the differentially expressed genes using BLAST and Pfam analyzation and verified expression changes under heat stress. Finally, we find 68 genes involved in HSP, HSF, chaperones in heat responsive genes associated increasing heat tolerance. As a result, relatively small HSP families were up regulated and continuously expressed in long period heat stress. On the other hand, large molecule HSPs, HSFs and chaperonin did not response to long heat stress. The expression profiling and characterization provide invaluable information to understand heat tolerance of soybean.

Citations

Citations to this article as recorded by  
  • Unveiling the Heat Shock Protein Network in Sugar Beet: Comprehensive Genome-Wide Identification, Characterization, and Stress-Induced Expression Patterns
    Erdoğan Horuz, Necdet Mehmet Unel, Yasemin Celik Altunoglu, Mehmet Cengiz Baloglu
    Plant Molecular Biology Reporter.2025; 43(4): 2251.     CrossRef
  • Transcriptional Insights into Soybean Genotypes Under Prolonged Heat Stress: Identification of Key Genes and Soil Influences for Enhanced Tolerance
    Liza Van der Laan, Dinakaran Elango, Antonella Ferela, Jamie A. O’Rourke, Asheesh K. Singh
    Plant Stress.2025; 18: 101038.     CrossRef
  • Two cowpea Rubisco activase isoforms for crop thermotolerance
    Armida Gjindali, Rhiannon Page, Catherine J. Ashton, Ingrid Robertson, Mike T. Page, Duncan Bloemers, Peter D. Gould, Dawn Worrall, Douglas J. Orr, Elizabete Carmo‐Silva
    New Phytologist.2025; 247(3): 1199.     CrossRef
  • Global transcriptional modulation and nutritional status of soybean plants following foliar application of zinc borate as a suspension concentrate fertilizer
    Eloisa Vendemiatti, Rafael Oliveira Moreira, Gabriel Lasmar dos Reis, Inty Omar Hernandez-De Lira, Eugenia Peña-Yewtukhiw, Franz Walter Rieger Hippler, Luis Omar Torres-Dorante, Kiran Pavuluri, Alex Valentine, Vitor L. Nascimento, Vagner Augusto Benedito
    Scientific Reports.2025;[Epub]     CrossRef
  • Identification of candidate genes for drought tolerance in soybean through QTL mapping and gene expression analysis
    Gi-Rim Park, Seon-Hwa Bae, Beom-Kyu Kang, Jeong-Hyun Seo, Jae-Hyeon Oh
    Frontiers in Genetics.2025;[Epub]     CrossRef
  • Genetic dissection of heat stress tolerance in soybean through genome-wide association studies and use of genomic prediction to enhance breeding applications
    Liza Van der Laan, Leonardo de Azevedo Peixoto, Asheesh K. Singh
    npj Science of Plants.2025;[Epub]     CrossRef
  • Revolutionizing heat stress tolerance in Glycine max: Exploring the latest advances in microbial application
    Shifa Shaffique, Md. Injamum-Ul-Hoque, Azamal Husen, Sang-Mo kang, In-Jung Lee
    Plant Stress.2025; 15: 100725.     CrossRef
  • Insights into the Heat Shock Protein 70 (Hsp70) Family in Camelina sativa and Its Roles in Response to Salt Stress
    Parviz Heidari, Sadra Rezaee, Hadiseh Sadat Hosseini Pouya, Freddy Mora-Poblete
    Plants.2024; 13(23): 3410.     CrossRef
  • Understanding heat-shock proteins’ abundance and pivotal function under multiple abiotic stresses
    Prabhat Kumar, Debashis Paul, Sunita Jhajhriya, Rishi Kumar, Suman Dutta, Priyanka Siwach, Sumanta Das
    Journal of Plant Biochemistry and Biotechnology.2024; 33(4): 492.     CrossRef
  • 1H-NMR-based metabolomic profiling and proteomic analysis of soybean (Glycine max L.) in response to dicarboxylic acids (photon) application as a stress priming agent
    Mhlonipheni Nhlakanipho Msomi, Gerhard Prinsloo, Noluyolo Nogemane
    Heliyon.2024; 10(18): e37466.     CrossRef
  • Improvement of heat stress tolerance in soybean (Glycine max L), by using conventional and molecular tools
    Guan Jianing, Gai Yuhong, Guan Yijun, Adnan Rasheed, Zhao Qian, Xie Zhiming, Athar Mahmood, Zhang Shuheng, Zhang Zhuo, Zhao Zhuo, Wang Xiaoxue, Wei Jian
    Frontiers in Plant Science.2022;[Epub]     CrossRef
  • Heat shock transcriptional factor genes (VfHSFs) of Vitis flexuosa respond differentially to high temperature in grapevines
    Ju Hyoung Lee, Seon Ae Kim, Soon Young Ahn, Hae Keun Yun
    Horticulture, Environment, and Biotechnology.2021; 62(1): 87.     CrossRef
  • High‐temperature resilience in Bacillus safensis primed wheat plants: A study of dynamic response associated with modulation of antioxidant machinery, differential expression of HSPs and osmolyte biosynthesis
    Jayanwita Sarkar, Usha Chakraborty, Bishwanath Chakraborty
    Environmental and Experimental Botany.2021; 182: 104315.     CrossRef
  • Melatonin Ameliorates Thermotolerance in Soybean Seedling through Balancing Redox Homeostasis and Modulating Antioxidant Defense, Phytohormones and Polyamines Biosynthesis
    Muhammad Imran, Muhammad Aaqil Khan, Raheem Shahzad, Saqib Bilal, Murtaza Khan, Byung-Wook Yun, Abdul Latif Khan, In-Jung Lee
    Molecules.2021; 26(17): 5116.     CrossRef
  • Effect of Heat Stress on Seed Protein Composition and Ultrastructure of Protein Storage Vacuoles in the Cotyledonary Parenchyma Cells of Soybean Genotypes That Are Either Tolerant or Sensitive to Elevated Temperatures
    Hari B. Krishnan, Won-Seok Kim, Nathan W. Oehrle, James R. Smith, Jason D. Gillman
    International Journal of Molecular Sciences.2020; 21(13): 4775.     CrossRef
  • Assessment of synthetic hexaploid wheats in response to heat stress and leaf rust infection for the improvement of wheat production
    Hai An Truong, Won Je Lee, Masahiro Kishii, Suk-Whan Hong, Chon-Sik Kang, Byung Cheon Lee, Hojoung Lee
    Crop & Pasture Science.2019; 70(10): 837.     CrossRef
  • Transcriptome analysis reveals plasticity in gene regulation due to environmental cues in Primula sikkimensis, a high altitude plant species
    Priya Darshini Gurung, Atul Kumar Upadhyay, Pardeep Kumar Bhardwaj, Ramanathan Sowdhamini, Uma Ramakrishnan
    BMC Genomics.2019;[Epub]     CrossRef
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