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Huang W, Tan C, Guo H. 2024. Ethylene in fruits: beyond ripening control. Horticulture Research 11(10):uhae229

Li BJ, Grierson D, Shi Y, Chen KS. 2022. Roles of abscisic acid in regulating ripening and quality of strawberry, a model non-climacteric fruit. Horticulture Research 9:uhac089

Wang YB, Zou YL, Wei YT, Meng LS. 2025. Crosstalk between ethylene and JA/ABA/sugar signalling in plants under physiological and stress conditions. Molecular Plant Pathology 26(3):e70048

Liang B, Zheng Y, Wang J, Zhang W, Fu Y, et al. 2020. Overexpression of the persimmon abscisic acid β-glucosidase gene (DkBG1) alters fruit ripening in transgenic tomato. The Plant Journal 102(6):1220−1233

Li S, Zhu B, Pirrello J, Xu C, Zhang B, et al. 2020. Roles of RIN and ethylene in tomato fruit ripening and ripening-associated traits. New Phytologist 226(2):460−475

Aerts N, Pereira Mendes M, Van Wees SCM. 2021. Multiple levels of crosstalk in hormone networks regulating plant defense. The Plant Journal 105(2):489−504

Fernández-Cancelo P, Muñoz P, Echeverría G, Larrigaudière C, Teixidó N, et al. 2022. Ethylene and abscisic acid play a key role in modulating apple ripening after harvest and after cold-storage. Postharvest Biology and Technology 188:111902

Chen T, Qin G, Tian S. 2020. Regulatory network of fruit ripening: current understanding and future challenges. New Phytologist 228(4):1219−1226

Liu M, Wang C, Ji H, Sun M, Liu T, et al. 2024. Ethylene biosynthesis and signal transduction during ripening and softening in non-climacteric fruits: an overview. Frontiers in Plant Science 15:1368692

Khan S, Alvi AF, Saify S, Iqbal N, Khan NA. 2024. The ethylene biosynthetic enzymes, 1-aminocyclopropane-1-carboxylate (ACC) synthase (ACS) and ACC oxidase (ACO): the less explored players in abiotic stress tolerance. Biomolecules 14(1):90

Wu W, Wang WQ, Zhu QG, Jin R, Liu XF, et al. 2022. Convergent and divergent regulations of ethylene and abscisic acid biosynthesis during persimmon fruit postharvest ripening. Postharvest Biology and Technology 191:111977

Brookbank BP, Patel J, Gazzarrini S, Nambara E. 2021. Role of basal ABA in plant growth and development. Genes 12(12):1936

Perotti MF, Posé D, Martín-Pizarro C. 2023. Non-climacteric fruit development and ripening regulation: 'the phytohormones show'. Journal of Experimental Botany 74(20):6237−6253

Zeng L, Xie Z, Ding Z, Yan Y, Yang J, et al. 2025. The regulatory module involved in ABA-induced ethylene production and fruit ripening in banana and its implications. Postharvest Biology and Technology 226:113555

McQuinn RP, Gapper NE, Gray AG, Zhong S, Tohge T, et al. 2020. Manipulation of ZDS in tomato exposes carotenoid- and ABA-specific effects on fruit development and ripening. Plant Biotechnology Journal 18(11):2210−2224

Sun Y, Ji K, Liang B, Du Y, Jiang L, et al. 2017. Suppressing ABA uridine diphosphate glucosyltransferase (SlUGT75C1) alters fruit ripening and the stress response in tomato. The Plant Journal 91(4):574−589

Chen K, Li GJ, Bressan RA, Song CP, Zhu JK, et al. 2020. Abscisic acid dynamics, signaling, and functions in plants. Journal of Integrative Plant Biology 62(1):25−54

Zou J, Li N, Hu N, Tang N, Cao H, et al. 2022. Co-silencing of ABA receptors (SlRCAR) reveals interactions between ABA and ethylene signaling during tomato fruit ripening. Horticulture Research 9:uhac057

Mou W, Li D, Luo Z, Li L, Mao L, et al. 2018. SlAREB1 transcriptional activation of NOR is involved in abscisic acid-modulated ethylene biosynthesis during tomato fruit ripening. Plant Science 276:239−249

Kokubo S, Tomiyasu M, Ma G, Fukazawa C, Motohashi R. 2026. Tomato lipocalins mediate ABA (abscisic acid)- and ethylene-dependent regulation of stress tolerance and fruit ripening. Plant Biotechnology 43:61−71

He Y, Wu Q, Cui C, Tian Q, Zhang D, et al. 2023. ChIP-seq analysis of SlAREB1 downstream regulatory network during tomato ripening. Foods 12(12):2357

Zhai X, Gao X, Huang J, Chen M, Gan Z, et al. 2025. SlABF4 acts as a negative regulator of ethylene biosynthesis in tomato fruit ripening. The Plant Journal 124(3):e70564

Wang S, Saito T, Ohkawa K, Ohara H, Suktawee S, et al. 2018. Abscisic acid is involved in aromatic ester biosynthesis related with ethylene in green apples. Journal of Plant Physiology 221:85−93

Jia M, Li X, Wang W, Li T, Dai Z, et al. 2022. SnRK2 subfamily I protein kinases regulate ethylene biosynthesis by phosphorylating HB transcription factors to induce ACO1 expression in apple. New Phytologist 234(4):1262−1277

Johnson PR, Ecker JR. 1998. The ethylene gas signal transduction pathway: a molecular perspective. Annual Review of Genetics 32:227−254

Binder BM. 2020. Ethylene signaling in plants. Journal of Biological Chemistry 295(22):7710−7725

Zhang Z, Kang C, Zhang S, Li X. 2019. Transcript analyses reveal a comprehensive role of abscisic acid in modulating fruit ripening in Chinese jujube. BMC Plant Biology 19(1):189

Sang Y, Yang W, Zhang W, Guo M, Cheng S, et al. 2023. Abscisic acid enhances storability of winter jujube by regulating cell wall and phenylpropane metabolisms during cold storage. Journal of Agriculture and Food Research 14:100859

Wu Q, Tao X, Cui C, He Y, Zhang D, et al. 2025. Transcription factor Constans-like 4 may regulate tomato fruit ripening by interacting with abscisic acid and ethylene signaling. Scientia Horticulturae 339:113865

Hou BZ, Li CL, Han YY, Shen YY. 2018. Characterization of the hot pepper (Capsicum frutescens) fruit ripening regulated by ethylene and ABA. BMC Plant Biology 18(1):162

Li X, Zhang D, Pan X, Kakar KU, Nawaz Z. 2024. Regulation of carotenoid metabolism and ABA biosynthesis during blueberry fruit ripening. Plant Physiology and Biochemistry 206:108232

Chen R, Wu Y, Wei X, Huang Z, Mao L. 2023. Ethylene promotes ABA biosynthesis by repressing the expression of miR161 in postharvest strawberry fruit. Postharvest Biology and Technology 199:112302

Wang X, Zeng W, Ding Y, Wang Y, Niu L, et al. 2019. PpERF3 positively regulates ABA biosynthesis by activating PpNCED2/3 transcription during fruit ripening in peach. Horticulture Research 6:19

Tosetti R, Elmi F, Pradas I, Cools K, Terry LA. 2020. Continuous exposure to ethylene differentially affects senescence in receptacle and achene tissues in strawberry fruit. Frontiers in Plant Science 11:174

Fernández-Cancelo P, Giné-Bordonaba J, Teixidó N, Alamar MC. 2025. An insight into the hormonal interplay regulating pigment changes and colour development in the peel of 'granny Smith', 'OPAL®' and 'royal gala' apples. Journal of Plant Growth Regulation 44(3):1116−1132

Zeng W, Tan B, Deng L, Wang Y, Muzammal Aslam M, et al. 2020. Identification and expression analysis of abscisic acid signal transduction genes during peach fruit ripening. Scientia Horticulturae 270:109402

Song Z, Lai X, Yao Y, Qin J, Ding X, et al. 2022. F-box protein EBF1 and transcription factor ABI5-like regulate banana fruit chilling-induced ripening disorder. Plant Physiology 188(2):1312−1334

Chen C, Zhang Z, Lei Y, Chen W, Zhang Z, et al. 2024. The transcription factor MdERF023 negatively regulates salt tolerance by modulating ABA signaling and Na⁺/H⁺ transport in apple. Plant Cell Reports 43(7):187

Wang YW, Nambeesan SU. 2024. Ethylene promotes fruit ripening initiation by downregulating photosynthesis, enhancing abscisic acid and suppressing jasmonic acid in blueberry (Vaccinium ashei). BMC Plant Biology 24(1):418

Yu Y, Wang J, Li S, Kakan X, Zhou Y, et al. 2019. Ascorbic acid integrates the antagonistic modulation of ethylene and abscisic acid in the accumulation of reactive oxygen species. Plant Physiology 179(4):1861−1875

Xu L, Yue Q, Xiang G, Bian F, Yao Y. 2018. Melatonin promotes ripening of grape berry via increasing the levels of ABA, H₂O₂, and particularly ethylene. Horticulture Research 5:41

Mansouri S, Koushesh Saba M, Sarikhani H. 2023. Exogenous melatonin delays strawberry fruit ripening by suppressing endogenous ABA signaling. Scientific Reports 13:14209

Zhang H, Wang Y, Cheng J, Lei W, Xu K, et al. 2025. Exogenous melatonin regulates hormone metabolism involved in delaying the ripening process in cherry tomato fruit during storage. Postharvest Biology and Technology 230:113805

Li D, Mou W, Xia R, Li L, Zawora C, et al. 2019. Integrated analysis of high-throughput sequencing data shows abscisic acid-responsive genes and miRNAs in strawberry receptacle fruit ripening. Horticulture Research 6:26

Fei YC, Mo Y, Lin K, Tao L, He X, et al. 2025. Comparative transcriptome analysis reveals a possible mechanism of starvation stress-induced fruit abscission in Macadamia. BMC Plant Biology 25(1):739

Vincent C, Mesa T, Munné-Bosch S. 2020. Hormonal interplay in the regulation of fruit ripening and cold acclimation in avocados. Journal of Plant Physiology 251:153225

Diretto G, Frusciante S, Fabbri C, Schauer N, Busta L, et al. 2020. Manipulation of β-carotene levels in tomato fruits results in increased ABA content and extended shelf life. Plant Biotechnology Journal 18(5):1185−1199

Zhu Q, Tan Q, Gao Q, Zheng S, Chen W, et al. 2024. Calmodulin-like protein CML15 interacts with PP2C46/65 to regulate papaya fruit ripening via integrating calcium, ABA and ethylene signals. Plant Biotechnology Journal 22(6):1703−1723

Wong DCJ, Lopez Gutierrez R, Dimopoulos N, Gambetta GA, Castellarin SD. 2016. Combined physiological, transcriptome, and cis-regulatory element analyses indicate that key aspects of ripening, metabolism, and transcriptional program in grapes (Vitis vinifera L.) are differentially modulated accordingly to fruit size. BMC Genomics 17:416

Martín-Pizarro C, Vallarino JG, Osorio S, Meco V, Urrutia M, et al. 2021. The NAC transcription factor FaRIF controls fruit ripening in strawberry. The Plant Cell 33(5):1574−1593