EjRabF2b enhances cold resistance in loquat (Eriobotrya japonica) through antioxidant regulation

doi:10.1016/j.jia.2025.10.018

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EjRabF2b enhances cold resistance in loquat (Eriobotrya japonica) through antioxidant regulation

Hao Fu^{1, 2, 3}, Qian Chen^{1, 2}, Shunyuan Yong^{1, 2}, Toru Fujiwara³, Jiangbo Dang^{1, 2}, Danlong Jing^{1, 2}, Di Wu^{1, 2}, , GuoluLiang^{1, 2#}, Qigao Guo^{1, 2#}

¹Key Laboratory of Agricultural Biosafety and Green Production of Upper Yangtze River (Ministry of Education)/ College of Horticulture and Landscape Architecture, Southwest University, Chongqing 400715, China

²State Cultivation Base of Crop Stress Biology for Southern Mountainous Land of Southwest University/Academy of Agricultural Sciences of Southwest University, Chongqing 400715, China

³Department of Applied Biological Chemistry, Graduate School of Agricultural and Life Sciences, The University of Tokyo,1-1-1 Yayoi, Bunkyo-ku, Tokyo 113-8657, Japan

Highlights

EjRabF2b is significantly upregulated in loquat under cold stress, indicating its strong responsiveness to low-temperature signals.

EjRabF2b influences cold tolerance by modulating antioxidant enzyme activity and stabilizing cell membrane structure.

EjZAT10 directly binds to the EjRabF2b promoter and activates its transcription, revealing a key regulatory module in the cold stress response.

Abstract
References

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摘要

枇杷（Eriobotrya japonica）是一种常绿果树，原产于中国，其花期通常在冬季（10月至次年1月），使其在关键的生殖阶段易受低温胁迫。然而，枇杷耐寒性的分子机制尚不清楚。本研究基于多个枇杷品种的转录组数据，采用加权基因共表达网络分析（WGCNA），鉴定出两个与低温处理高度相关的基因模块（brown 模块和 turquoise 模块）。在多个低温响应候选基因中，Rab5 家族 GTP 酶 EjRabF2b 在低温条件下持续上调。功能验证显示，EjRabF2b 在拟南芥和番茄中过表达显著增强了植物的耐寒性，而在枇杷中沉默该基因则削弱了其抗寒能力。在机制上，EjRabF2b 有助于维持细胞膜的完整性并增强抗氧化酶活性。启动子分析与互作验证进一步证实，C2H2 型转录因子 EjZAT10 可直接结合 EjRabF2b 启动子并在低温胁迫下激活其转录。综上，本研究揭示了一个由 EjZAT10 和 EjRabF2b 构成的调控模块，其通过囊泡介导的抗氧化防御与膜保护机制参与枇杷的低温适应过程，为耐寒品种的分子育种提供了理论基础和潜在靶点。

Abstract

Loquat (Eriobotrya japonica.) is an evergreen fruit tree native to China, with a flowering period that typically occurs in winter (October to January), making it vulnerable to low-temperature stress during critical reproductive stages. However, the molecular mechanisms underlying cold tolerance in loquat remain largely unclear. In this study, transcriptome data from multiple loquat cultivars were analyzed using Weighted Gene Co-expression Network Analysis (WGCNA), identifying two gene modules (brown and turquoise module) highly associated with cold treatment. Among the cold-responsive candidates, the Rab5 family GTPase EjRabF2b was consistently upregulated under low-temperature conditions. Functional validation revealed that overexpression of EjRabF2b in Arabidopsis thaliana and tomato significantly enhanced cold tolerance, while its silencing in loquat compromised stress resistance. Mechanistically, EjRabF2b contributed to maintaining cell membrane integrity and enhancing antioxidant enzyme activity. Promoter analysis and interaction assays further confirmed that the C2H2-type transcription factor EjZAT10 directly binds to the EjRabF2b promoter and activates its transcription under cold stress. Collectively, this study uncovers a regulatory module composed of EjZAT10 and EjRabF2b that participates in loquat cold adaptation through vesicle-mediated antioxidant defense and membrane protection, offering a theoretical foundation and potential targets for the molecular breeding of cold-tolerant cultivars.

Keywords: loquat cold tolerance EjRabF2b transcription factors EjZAT10

Online: 01 November 2025

Fund:

F.H. acknowledges the support of the China Scholarship Council program (Project ID: 202406990071). This work was supported by the National Key R&D Program of China (2023YFD1600800), the National Natural Science Foundation of China (No. 32470386), the Chongqing Science and Technology Commission (cstc2021jscx-gksbX0010 and cstc2024ycjh-bgzxm0202), Characteristic Fruit Industry and Technology System Innovation Team of Chongqing Agriculture and Rural Affairs Commission (No.2020[3]01), and the Chongqing Postgraduate Research and Innovation Program, China (CYB22133).

About author: Hao Fu, E-mail: fh1994@126.com; #Correspondence Guolu Liang, Tel: +86-13509419019, E-mail: lianggl@swu.edu.cn; Qigao Guo, Tel: +86-13883415552, E-mail: qgguo@126.com

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Hao Fu, Qian Chen, Shunyuan Yong, Toru Fujiwara, Jiangbo Dang, Danlong Jing, Di Wu, Guolu Liang, Qigao Guo. 2025. EjRabF2b enhances cold resistance in loquat (Eriobotrya japonica) through antioxidant regulation. Journal of Integrative Agriculture, Doi:10.1016/j.jia.2025.10.018

Agarwal, P K, Agarwal, P, Jain, P, Jha, B, Reddy, M K, Sopory, S K. 2008. Constitutive overexpression of a stress-inducible small gtp-binding protein pgrab7 from pennisetum glaucum enhances abiotic stress tolerance in transgenic tobacco. Plant Cell Reports. 27, 105-115.

Ali, M M, Rizwani, H M, Yousef, A F, Zhi, C, Chen, F X. 2021. Analysis of toxic elements in leaves and fruits of loquat by inductively coupled plasma-mass spectrometry (icp-ms). Acta Scientiarum Polonorum-Hortorum Cultus. 20, 33-42.

Beaucham.C, Fridovic.I. 1971. Superoxide dismutase - improved assays and an assay applicable to acrylamide gels. Analytical Biochemistry. 44, 276-287.

Bolte, S, Schiene, K, Dietz, K J. 2000. Characterization of a small gtp-binding protein of the rab 5 family in with increased level of expression during early salt stress. Plant Molecular Biology. 42, 923-936.

Buono, R A, Leier, A, Paez-Valencia, J, Pennington, J, Goodman, K, Miller, N, Ahlquist, P, Marquez-Lago, T T, Otegui, M S. 2017. Escrt-mediated vesicle concatenation in plant endosomes. Journal of Cell Biology. 216, 2167-2177.

Cai, C, Xu, C J, Shan, L L, Li, X, Zhou, C H, Zhang, W S, Ferguson, I, Chen, K S. 2006. Low temperature conditioning reduces postharvest chilling injury in loquat fruit. Postharvest Biology and Technology. 41, 252-259.

Cao, Y Y, Zhang, Q H, Sun, J Z, Li, R M, Huang, Y H, Zhuang, J, Xu, J, Chen, Y. 2022. Effects of weather conditions on the public demand for weather information via smartphone in multiple regions of china. Weather Climate and Society. 14, 813-822.

Catalá, R, Medina, J, Salinas, J. 2011. Integration of low temperature and light signaling during cold acclimation response in. Proceedings of the National Academy of Sciences of the United States of America. 108, 16475-16480.

Clough, S J, Bent, A F. 1998. Floral dip: A simplified method for agrobacterium-mediated transformation of arabidopsis thaliana. Plant Journal. 16, 735-743.

Dhonukshe, P, Baluska, F, Schlicht, M, Hlavacka, A, Samaj, J, Friml, J, Gadella, T W J. 2006. Endocytosis of cell surface material mediates cell plate formation during plant cytokinesis. Developmental Cell. 10, 137-150.

Ebine, K, Fujimoto, M, Okatani, Y, Nishiyama, T, Goh, T, Ito, E, Dainobu, T, Nishitani, A, Uemura, T, Sato, M H, Thordal-Christensen, H, Tsutsumi, N, Nakano, A, Ueda, T. 2011. A membrane trafficking pathway regulated by the plant-specific rab gtpase ara6. Nature Cell Biology. 13, 853-U279.

Fu, H, Chen, Q, Yong, S, Dang, J, He, Q, Jing, D, Wu, D, Liang, G, Guo, Q. 2024. The potential role of vesicle transport-related small gtpases rabs in abiotic stress responses. Plant Physiology and Biochemistry. 109411.

Gong, Z Z, Xiong, L M, Shi, H Z, Yang, S H, Herrera-Estrella, L R, Xu, G H, Chao, D Y, Li, J R, Wang, P Y, Qin, F, Li, J J, Ding, Y L, Shi, Y T, Wang, Y, Yang, Y Q, Guo, Y, Zhu, J K. 2020. Plant abiotic stress response and nutrient use efficiency. Science China-Life Sciences. 63, 635-674.

Guillamón, J G, Prudencio, A S, Yuste, J E, Dicenta, F, Sánchez-Pérez, R. 2020. Ascorbic acid and prunasin, two candidate biomarkers for endodormancy release in almond flower buds identified by a nontargeted metabolomic study. Horticulture Research. 7, 203.

He, F, Li, H G, Wang, J J, Su, Y Y, Wang, H L, Feng, C H, Yang, Y L, Niu, M X, Liu, C, Yin, W L, Xia, X L. 2019a. Pestz1, a c2h2-type zinc finger transcription factor from , enhances freezing tolerance through modulation of ros scavenging by directly regulating. Plant Biotechnology Journal. 17, 2169-2183.

He, F, Li, H G, Wang, J J, Su, Y Y, Wang, H L, Feng, C H, Yang, Y L, Niu, M X, Liu, C, Yin, W L, Xia, X L. 2019b. Pestz1, a c2h2-type zinc finger transcription factor from populus euphratica, enhances freezing tolerance through modulation of ros scavenging by directly regulating peapx2. Plant Biotechnology Journal. 17, 2169-2183.

Hoffman, L, DaCosta, M, Ebdon, J S, Watkins, E. 2010. Physiological changes during cold acclimation of perennial ryegrass accessions differing in freeze tolerance. Crop Science. 50, 1037-1047.

Hou, Q C, Ufer, G D, Bartels, D. 2016. Lipid signalling in plant responses to abiotic stress. Plant Cell and Environment. 39, 1029-1048.

Jiang, Y Y, Peng, J R, Zhu, Y M, Su, W B, Zhang, L, Jing, Y, Lin, S Q, Gao, Y S. 2019. The role of ejsoc1s in flower initiation in eriobotrya japonica. Frontiers in Plant Science. 10.

Kamal, M M, Ishikawa, S, Takahashi, F, Suzuki, K, Kamo, M, Umezawa, T, Shinozaki, K, Kawamura, Y, Uemura, M. 2020. Large-scale phosphoproteomic study of membrane proteins reveals early signaling events in response to cold. International Journal of Molecular Sciences. 21.

Kanehisa, M, Goto, S. 2000. Kegg: Kyoto encyclopedia of genes and genomes. Nucleic Acids Research. 28, 27-30.

Karagiannis, E, Michailidis, M, Tanou, G, Samiotaki, M, Karamanoli, K, Avramidou, E, Ganopoulos, I, Madesis, P, Molassiotis, A. 2018. Ethylene -dependent and -independent superficial scald resistance mechanisms in 'granny smith' apple fruit. Scientific Reports. 8.

Kielbowicz-Matuk, A. 2012. Involvement of plant c2h2-type zinc finger transcription factors in stress responses. Plant Science. 185, 78-85.

Kou, X B, Cao, P, Zhao, Z, Zhang, X, Dai, Y, Wang, K, Wu, J Y, Zhang, S L. 2024. Comparative genomic analysis of the rabgap gene family in seven rosaceae species, and functional identification of pbrrabgap10 in controlling pollen tube growth by mediating cellulose deposition in pear. International Journal of Biological Macromolecules. 256.

Kumar, S, Stecher, G, Tamura, K. 2016. Mega7: Molecular evolutionary genetics analysis version 7.0 for bigger datasets. Molecular Biology and Evolution. 33, 1870-1874.

Langfelder, P, Horvath, S. 2008. Wgcna: An r package for weighted correlation network analysis. Bmc Bioinformatics. 9.

Li, X L, Meng, D, Li, M J, Zhou, J, Yang, Y Z, Zhou, B B, Wei, Q P, Zhang, J K. 2023. Transcription factors mhdreb2a/mhzat10 play a role in drought and cold stress response crosstalk in apple. Plant Physiology. 192, 2203-2220.

Liao, J L, Wu, C X, Burlak, C, Zhang, S, Sahm, H, Wang, M, Zhang, Z Y, Vogel, K W, Federici, M, Riddle, S M, Nichols, R J, Liu, D L, Cookson, M R, Stone, T A, Hoang, Q Q. 2014. Parkinson disease-associated mutation r1441h in lrrk2 prolongs the "active state" of its gtpase domain. Proceedings of the National Academy of Sciences of the United States of America. 111, 4055-4060.

Lin, S, Sharpe, R H, Janick, J, 2010. Loquat: Botany and horticulture. Horticultural Reviews, Volume 23.

Lippuner, V, Cyert, M S, Gasser, C S. 1996. Two classes of plant cdna clones differentially complement yeast calcineurin mutants and increase salt tolerance of wild-type yeast. Journal of Biological Chemistry. 271, 12859-12866.

Liu, M X. 2021. Screening strong cold-hardiness and high-light-efficiency triploid loquat (eriobotrya japonica) and study on the underlying mechanisms. Southwest university, Chian. (in Chinese)

Liu, Y H, Khan, A R, Gan, Y B. 2022. C2h2 zinc finger proteins response to abiotic stress in plants. International Journal of Molecular Sciences. 23.

Liu, Y H, Liu, D D, Hu, R, Hua, C M, Ali, I, Zhang, A D, Liu, B H, Wu, M J, Huang, L L, Gan, Y B. 2017. Atgis, a c2h2 zinc-finger transcription factor from arabidopsis regulates glandular trichome development through ga signaling in tobacco. Biochemical and Biophysical Research Communications. 483, 209-215.

Liu, Z L, Luo, C, Dong, L, Toan, C V, Wei, P X, He, X H. 2014. Molecular characterization and expression analysis of a gtp-binding protein (mirab5) in mangifera indica. Gene. 540, 86-91.

Livak, K J, Schmittgen, T D. 2001. Analysis of relative gene expression data using real-time quantitative pcr and the 2 method. Methods. 25, 402-408.

Min, X Y, Liu, Z P, Wang, Y R, Liu, W X. 2020. Comparative transcriptomic analysis provides insights into the coordinated mechanisms of leaves and roots response to cold stress in common vetch. Industrial Crops and Products. 158.

Mu, J Q, Fu, Y J, Liu, B C, Zhang, Y, Wang, A Y, Li, Y X, Zhu, J B. 2021. Sifba5, a cold-responsive factor from promotes cold resilience and biomass increase in transgenic tomato plants under cold stress. Bmc Plant Biology. 21.

Muñoz-Muñoz, J L, García-Molina, F, García-Ruiz, P A, Arribas, E, Tudela, J, García-Cánovas, F, Rodríguez-López, J N. 2009. Enzymatic and chemical oxidation of trihydroxylated phenols. Food Chemistry. 113, 435-444.

Nahm, M Y, Kim, S W, Yun, D J, Lee, S Y, Cho, M J, Bahk, J D. 2003. Molecular and biochemical analyses of osrab7, a rice rab7 homolog. Plant and Cell Physiology. 44, 1341-1349.

Nakano, Y, Asada, K. 1981. Hydrogen-peroxide is scavenged by ascorbate-specific peroxidase in spinach-chloroplasts. Plant and Cell Physiology. 22, 867-880.

Nguyen, X C, Kim, S H, Hussain, S, An, J, Yoo, Y, Han, H J, Yoo, J S, Lim, C O, Yun, D J, Chung, W S. 2016. A positive transcription factor in osmotic stress tolerance, zat10, is regulated by map kinases in arabidopsis. Journal of Plant Biology. 59, 55-61.

O'Mahony, P J, Oliver, M J. 1999. Characterization of a desiccation-responsive small gtp-binding protein (rab2) from the desiccation-tolerant grass. Plant Molecular Biology. 39, 809-821.

Palta, J P, Whitaker, B D, Weiss, L S. 1993. Plasma-membrane lipids associated with genetic-variability in freezing tolerance and cold-acclimation of solanum species. Plant Physiology. 103, 793-803.

Park, S, Lee, C M, Doherty, C J, Gilmour, S J, Kim, Y, Thomashow, M F. 2015. Regulation of the arabidopsis cbf regulon by a complex low-temperature regulatory network. Plant Journal. 82, 193-207.

Qian, W H, Zhang, Z J. 2012. Precursors to predict low-temperature freezing-rain events in southern china. Chinese Journal of Geophysics-Chinese Edition. 55, 1501-1512.

Qin, M F, Li, H D, Guo, Z T, Zhu, Y L, Wang, R R, Zhang, M, Zhang, Q, Xu, Y, Song, J, Huang, Z, Xu, A X. 2023. Phenotypic damage and transcriptomic responses of flower buds in rapeseed (brassica napus l.) under low-temperature stress. Industrial Crops and Products. 198.

Rossel, J B, Wilson, P B, Hussain, D, Woo, N S, Gordon, M J, Mewett, O P, Howell, K A, Whelan, J, Kazan, K, Pogson, B J. 2007. Systemic and intracellular responses to photooxidative stress in arabidopsis. Plant Cell. 19, 4091-4110.

Rutherford, S, Moore, I. 2002. The arabidopsis rab gtpase family: Another enigma variation. Current Opinion in Plant Biology. 5, 518-528.

Schapire, A L, Voigt, B, Jasik, J, Rosado, A, Lopez-Cobollo, R, Menzel, D, Salinas, J, Mancuso, S, Valpuesta, V, Baluska, F, Botella, M A. 2008. Arabidopsis synaptotagmin 1 is required for the maintenance of plasma membrane integrity and cell viability. Plant Cell. 20, 3374-3388.

Shi, Y, Ding, Y, Yang, S. 2018. Molecular regulation of cbf signaling in cold acclimation. Trends in Plant Science. 23, 623-637.

Sparkes, I A, Runions, J, Kearns, A, Hawes, C. 2006. Rapid, transient expression of fluorescent fusion proteins in tobacco plants and generation of stably transformed plants. Nature Protocols. 1, 2019-2025.

Sun, H J, Uchii, S, Watanabe, S, Ezura, H. 2006. A highly efficient transformation protocol for micro-tom, a model cultivar for tomato functional genomics. Plant and Cell Physiology. 47, 426-431.

Wang, D, Liu, Z, Xiao, Y H, Liu, X L, Chen, Y, Zhang, Z, Kang, H X, Wang, X L, Jiang, S, Peng, S S, Tan, X Q, Zhang, D Y, Liu, Y, Wang, G L, Li, C G. 2021. Association mapping and functional analysis of rice cold tolerance qtls at the bud burst stage. Rice. 14.

Wang, X Y, Wu, Y, Sun, M D, Wei, X, Huo, H Y, Yu, L L, Zhang, J X. 2022. Dynamic transcriptome profiling revealed key genes and pathways associated with cold stress in castor (ricinus communis l.). Industrial Crops and Products. 178.

Xiao, B Z, Chen, X, Xiang, C B, Tang, N, Zhang, Q F, Xiong, L Z. 2009. Evaluation of seven function-known candidate genes for their effects on improving drought resistance of transgenic rice under field conditions. Molecular Plant. 2, 73-83.

Xu, H X, Meng, D, Yang, Q, Chen, T, Qi, M, Li, X Y, Ge, H, Chen, J W. 2023. Sorbitol induces flower bud formation via the mads-box transcription factor in loquat. Journal of Integrative Plant Biology. 65, 1241-1261.

Yin, C F, Karim, S, Zhang, H S, Aronsson, H. 2017. Arabidopsis rabf1 (ara6) is involved in salt stress and dark-induced senescence (dis). International Journal of Molecular Sciences. 18.

Zhang, C B, Wu, F, Yan, Q, Duan, Z, Wang, S S, Ao, B, Han, Y Y, Zhang, J Y. 2023. Genome-wide analysis of the rab gene family in melilotus albus reveals their role in salt tolerance. International Journal of Molecular Sciences. 24.

Zhang, J Y, An, H S, Zhang, X Y, Xu, F J, Zhou, B Q. 2022. Transcriptomic analysis reveals potential gene regulatory networks under cold stress of loquat (lindl.). Frontiers in Plant Science. 13.

Zhou, S Q, Chen, L, Chen, G, Li, Y X, Yang, H Q. 2021. Molecular mechanisms through which short-term cold storage improves the nutritional quality and sensory characteristics of postharvest sweet potato tuberous roots: A transcriptomic study. Foods. 10.

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