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Agriculture

Analysis of the dynamic changes of endogenous hormones for the pericarp and seed kernel of young fruit in Camellia chekiangoleosa Hu

Chunlian Yua Changshan Country Oil Tea Industry Development Center, Changshan, People’s Republic of ChinaView further author information
,
Xiaohua Yaob Zhejiang Provincial Key Laboratory of Tree Breeding, Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Hangzhou, People’s Republic of ChinaView further author information
,
Kailiang Wangb Zhejiang Provincial Key Laboratory of Tree Breeding, Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Hangzhou, People’s Republic of ChinaView further author information
,
Guangyuan Huanga Changshan Country Oil Tea Industry Development Center, Changshan, People’s Republic of ChinaView further author information
,
Shuang Donga Changshan Country Oil Tea Industry Development Center, Changshan, People’s Republic of ChinaView further author information
&
Wei Longb Zhejiang Provincial Key Laboratory of Tree Breeding, Research Institute of Subtropical Forestry, Chinese Academy of Forestry, Hangzhou, People’s Republic of ChinaCorrespondence[email protected]
View further author information
Pages 1188-1197 | Received 22 Jun 2022, Accepted 06 Oct 2022, Published online: 21 Nov 2022

References

  • Bednarek P, Schneider B, Svatos A, Svatoš A, Oldham NJ, Hahlbrock K, et al. 2005. Structural complexity, differential response to infection, and tissue specificity of indolic and phenylpropanoid secondary metabolism in arabidopsis roots. Plant Physiol. 138(2):1058–1070.
  • Cheng X, Ruyter-Spira C, Bouwmeester H. 2013. The interaction between strigolactones and other plant hormones in the regulation of plant development. Front Plant Sci. 4:199–215.
  • Cui KY, Lin YY, Zhou X, Li SC, Liu H, Zeng F, Zhu F, Ouyang G, Zeng Z, et al. 2015. Comparison of sample pretreatment methods for the determination of multiple phytohormones in plant samples by liquid chromatography–electrospray ionization-tandem mass spectrometry. Microchem J. 121:25–31.
  • Eriksson S, BöHlenius H, Moritz T, Nilsson O, et al. 2006. GA4 is the active Gibberellin in the regulation ofLEAFYTranscription and arabidopsis floral initiation. Plant Cell. 18(9):2172–2181.
  • Floková K, Tarkowská D, Miersch O, Strnad M, Wasternack C, Novák O, et al. 2014. UHPLC-MS/MS based target profiling of stressinduced phytohormones. Phytochemistry. 105:147–157.
  • Gan LJ, Song MY, Wang XC, Yang N, Li H, Liu X, Li Y. 2022. Cytokinins are involved in regulation of tomato pericarp thickness and fruit size. Hortic. Res. 9:uhab041.
  • Garrido-Bigotes A, Figueroa PM, Figueroa CR. 2018. Jasmonate metabolism and its relationship with abscisic acid during strawberry fruit development and ripening. J Plant Growth Regul. 37:101–113.
  • He H, Yamamuro C. 2022. Interplays between auxin and GA signaling coordinate early fruit development. Hortic Res 9:uhab078.
  • He J, Chen Q, Xin P, Yuan J, Ma Y, Wang X, Xu M, Chu J, Peters RJ, Wang G, et al. 2019. CYP72A enzymes catalyse 13-hydrolyzation of gibberellins. Nat Plants. 5:1057–1065.
  • He JH, Ma FW, Shu HR. 2012. The change of endogenous hormones in ‘Jinhuang’ mango fruit with normal and aborted embryo. Acta. Hortic. Sin. 39(6):1167–1174. (in chinese).
  • He YC, Wu MJ, Dong L. 2020. Analysis of kernel oil content and variation of fatty acid composition of Camellia chekiangoleosa in the main producing areas. Nonwood Forest Research. 38(3):37–45. (in chinese).
  • Huang B, Wang Z, Huang J, Li X, Zhu H, Wen Q, Xu L-a, et al. 2022. Population genetic structure analysis reveals significant genetic differentiation of the endemic species Camellia chekiangoleosa Hu. with a narrow geographic range. Forests. 13(2):234.
  • Iven T, König S, Singh S, Braus-Stromeyer SA, Bischoff M, Tietze LF, Braus GH, Lipka V, Feussner I, Dröge-Laser W. 2012. Transcriptional activation and production of tryptophan-derived secondary metabolites in Arabidopsis roots contributes to the defense against the fungal vascular pathogen Verticillium longisporum. Mol Plant. 5(6):1389–1402.
  • Javanmardi J, Akbari N. 2016. Salicylic acid at different plant growth stages affects secondary metabolites and phisico-chemical parameters of greenhouse tomato. Advances. Horticultural. Sci. 30(3):151–158.
  • Kumar D, Mishra DS, Chakraborty B, Kumar P, et al. 2013. Pericarp browning and quality management of litchi fruit by antioxidants and salicylic acid during ambient storage. J Food Sci Technol. 50(4):797–802.
  • Li L, Su SC, Kou YR. 2020. Fruit-set and early fruit development in chestnut are associated with endogenous hormones contents. J. Northeast. For. Univ. 48(5):55–61. (in chinese).
  • Liu Q, Gao HZ, Yao XH. 2015. Variation of tree growth traits of Camellia chekiangoleosa Hu. clones in low altitude area. Hubei Agric. Sci. 54(5):1105–1108. (in chinese).
  • Liu Q, Yao XH, Wang KL. 2015. Flowering phenology of Camellia chekiangoleosa clone in low altitude area. For Res 28(2):249–254. (in chinese).
  • Liu ZL, Yang SP, Yao XH. 2007. Variation and correlativity analysis of fruit shape of Camellia chekiangoleosa. For. Res. 20(2):263–266. (in chinese).
  • Liu ZL, Yao XH, Yang SP, et al. 2007. Study of economic character variation in Camellia chekiangoleosa Hu. J. Southwest. Univ.(Natural Science Edition). 29(4):83–88. (in chinese).
  • Olsen EJ, Junttila O, Moritz T. 1997. Long-day induced bud break in salix pentandra is associated with transiently elevated levels of ga1 and gradual increase in indole-3-acetic acid. Plant Cell Physiol. 38(5):536–540.
  • Šimura J, Antoniadi I, Široká J, Tarkowská D, Strnad M, Ljung K, Novák O, et al. 2018. Plant hormonomics: multiple phytohormone profiling by targeted metabolomics. Plant Physiol. 177(2):476–489.
  • Su YN, Wang RJ, Cai JB. 2020. Effects of jasmonic acid pretreatment on perennial ryegrass seed germination under heat stress. Pratacultural. Sci. 37(4):658–668. (in chinese).
  • Tang J, Feng JL, Yang ZJ. 2005. Changes of endogenous hormones in fruit and their effects on the fruit development of camellia oleifera. J. For. Envir. 35(004):331–336.
  • Torres CA, Sepúlveda G, Kahlaoui B. 2017. Phytohormone interaction modulating fruit responses to photooxidative and heat stress on apple (Malus domestica Borkh.). Front Plant Sci. 8:2129.
  • Wang KL, Cao FL, Yao XH. 2011. Chemical composition of fatty acid from Camellia chekiangoleosa Hu. J. Nanjing. For. Univ. (Natural Science Edition). 35(2):131–134. (in chinese).
  • Wang Q, Hu J, Yang T, Chang S. 2021. Anatomy and lignin deposition of stone cell in Camellia oleifera shell during the young stage. Protoplasma. 258:361–370.
  • Wang Y, Hou Y, Qiu J, Tang L, Tong X, Zhang J. 2020. Abscisic acid promotes jasmonic acid biosynthesis via a ‘SAPK10-bZIP72- AOC’ pathway to synergistically inhibit seed germination in rice (Oryza sativa). New Phytol. 228(4):1336–1353.
  • Wang Z, Huang B, Ye J, Tang S, Wen Q, et al. 2022. Comparative transcriptomic analysis reveals genes related to the rapid accumulation of oleic acid in camellia chekiangoleosa, an oil tea plant with early maturity and large fruit. Plant Physiol Biochem. 171:95–104. in chinese.
  • Wei T, Dong L, Zhong S, Jing H, Deng Z, Wen Q, Li J. 2022. Chemical composition of Camellia chekiangoleosa Hu. seeds during ripening and evaluations of seed oils quality. Ind Crops Prod. 177:114499.
  • Wei ZJ, Niu BJ, Wang YX. 2020. Effect of methyl jasmonate on seed germination and seedling growth of Medicago sativa ‘Pianguan’ under salt stress. Acta. Agrestia. Sinica. 28(4):998–1005. (in chinese).
  • Xie Y, Wang X. 2018. Comparative transcriptomic analysis identifies genes responsible for fruit count and oil yield in the oil tea plant Camellia chekiangoleosa. Sci Rep 8(1):1–10.
  • Yan C, Yao XH, Yin HF. 2020. Fruit development dynamics and lignin accumulation law of oil tea. Acta. Agric. Univ. Jiangxiensis (Natural Sciences Edition). 42(4):788–801. (in chinese).
  • Yin X, Li T, Huang B, Xu L, Wen Q, et al. 2021. Complete chloroplast genome of camellia chekiangoleosa (Theaceae), a shrub with gorgeous flowers and rich seed oil. Mitochondrial DNA Part B. 6(3):840–841.
  • Zhou WC, Xiao XY, Shen JL, et al. 2019. Review on germplasm resources and breeding strategy for camellia chekiangoleosa. Nanfang. For. Sci. 47(6):20–24. (in chinese).

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