| [1] | MCQUINN R P, GIOVANNONI J J, POGSON B J. More than meets the eye: from carotenoid biosynthesis, to new insights into apocarotenoid signaling [J]. Current Opinion in Plant Biology, 2015, 27: 172 − 179. |
| [2] | NISAR N, LI Li, LU Shan, et al. Carotenoid metabolism in plants [J]. Molecular Plant, 2015, 8(1): 68 − 82. |
| [3] | HAN Y, LI L, DONG M, et al. cDNA cloning of the phytoene synthase (PSY) and expression analysis of PSY and carotenoid cleavage dioxygenase genes in Osmanthus fragrans [J]. Biologia, 2013, 68(2): 258 − 263. |
| [4] | MCQUINN R P, WONG B, GIOVANNONI J J. AtPDS overexpression in tomato: exposing unique patterns of carotenoid self-regulation and an alternative strategy for the enhancement of fruit carotenoid content [J]. Plant Biotechnology Journal, 2017, 16(2): 482 − 494. |
| [5] | DU Hao, WANG Nili, CUI Fei, et al. Characterization of a β-carotene hydroxylase gene DSM2 conferring drought and oxidative stress resistance by increasing xanthophylls and ABA synthesis in rice [J]. Plant Physiology, 2010, 154(3): 1304 − 1318. |
| [6] | WANG Yiguang, ZHANG Chao, DONG Bin, et al. Carotenoid accumulation and its contribution to flower coloration of Osmanthus fragrans[J/OL]. Frontiers in Plant Science, 2018: 1499[2022-01-04]. doi: 10.3389/fpls.2018.01499. |
| [7] | HAN Yuanji, WANG Hongyun, WANG Xiaodan, et al. Mechanism of floral scent production in Osmanthus fragrans and the production and regulation of its key floral constituents, β-ionone and linalool [J]. Horticulture Research, 2019, 6(1): 432 − 443. |
| [8] | 侯丹, 付建新, 张超, 等. 桂花品种‘堰虹桂’‘玉玲珑’和‘杭州黄’的香气成分及释放节律[J]. 浙江农林大学学报, 2015, 32(2): 208 − 220. HOU Dan, FU Jianxin, ZHANG Chao, et al. Flower scent composition of Osmanthus fragrans ‘Yanhong Gui’‘Yu Linglong’ and ‘Hangzhou Huang’, and their emission patterns [J]. Journal of Zhejiang A&F University, 2015, 32(2): 208 − 220. |
| [9] | HE Yuan, MA Yafeng, DU Yu, et al. Differential gene expression for carotenoid biosynthesis in a green alga Ulva prolifera based on transcriptome analysis [J]. BMC Genomics, 2018, 19(1): 916 − 930. |
| [10] | ZHANG Lancui, MA Gang, KATO M, et al. Regulation of carotenoid accumulation and the expression of carotenoid metabolic genes in citrus juice sacs in vitro [J]. Journal of Experimental Botany, 2012(2): 871 − 886. |
| [11] | 范敏, 金黎平, 黄三文, 等. 干旱胁迫对马铃薯类黄酮和类胡萝卜素合成关键酶基因表达的影响[J]. 园艺学报, 2008, 35(4): 535 − 542. FAN Min, JIN Liping, HUANG Sanwen, et al. Effects of drought stress on gene expression of key enzymes for flavonoid and carotenoid synthesis in potato [J]. Acta Horticulturae Sinica, 2008, 35(4): 535 − 542. |
| [12] | LIU Yudong, SHI Yuan, SU Deding, et al. SlGRAS4 accelerates fruit ripening by regulating ethylene biosynthesis genes and SlMADS1 in tomato[J/OL]. Horticulture Research, 2021, 8(3)[ 2022-01-02]. doi: 10.1038/S41438-020-00431-9. |
| [13] | LIU Yudong, DONG Bin, ZHANG Chao, et al. Effects of exogenous abscisic acid (ABA) on carotenoids and petal color in Osmanthus fragrans ‘Yanhonggui’ [J]. Plants, 2020, 9(4): 454 − 466. |
| [14] | HAN Y, WANG X, CHEN W, et al. Differential expression of carotenoid-related genes determines diversified carotenoid coloration in flower petal of Osmanthus fragrans [J]. Trees Genetics &Genomes, 2014, 10(2): 329 − 338. |
| [15] | BALDERMANN S, KATO M, FLEISCHMANN P, WATANABE N. Biosynthesis of α-and β-ionone, prominent scent compounds, in flowers of Osmanthus fragrans [J]. Acta Biochimica Polonica, 2012, 59(1): 79 − 81. |
| [16] | YANG Xiulian, YUE Yuanzheng, LI Haiyan, et al. The chromosome-level quality genome provides insights into the evolution of the biosynthesis genes for aroma compounds of Osmanthus fragrans [J/OL]. Horticulture Research, 2018, 5: 72[2021-12-23]. doi: 10.1038/s41438-018-0108-0. |
| [17] | FU Xiumin, CHENG Sihua, FENG Chao, et al. Lycopene cyclases determine high α-/β-carotene ratio and increased carotenoids in bananas ripening at high temperatures [J]. Food Chemistry, 2019, 283: 131 − 140. |
| [18] | KARPPINEN K, ZORATTI L, SARALA M, et al. Carotenoid metabolism during bilberry (Vaccinium myrtillus L. ) fruit development under different light conditions is regulated by biosynthesis and degradation [J]. BMC Plant Biology, 2016, 16(1): 95 − 111. |
| [19] | WANG Ruikai, WANG Chun’e. Genome-wide identification and transcription analysis of soybean carotenoid oxygenase genes during abiotic stress treatments [J]. Molecular Biology Reports, 2013, 40(8): 4737 − 4745. |
| [20] | LU Suwen, ZHANG Yin, ZHU Kaijie, et al. The citrus transcription factor CsMADS6 modulates carotenoid metabolism by directly regulating carotenogenic genes [J]. Plant Physiology, 2018, 176(4): 2657 − 2676. |
| [21] | FU Changchun, HAN Yanchao, KUANG Jianfei, et al. Papaya CpEIN3a and CpNAC2 co-operatively regulate carotenoid biosynthesis-related genes CpPDS2/4, CpLCY-e and CpCHY-b during fruit ripening [J]. Plant and Cell Physiology, 2017, 58(12): 2155 − 2165. |
| [22] | HAN Yanchao, GAO Haiyan, CHEN Hangjun, et al. The involvement of papaya CpSBP1 in modulating fruit softening and carotenoid accumulation by repressing CpPME1/2 and CpPDS4[J/OL]. Scientia Horticulturae, 2019, 256: 108582[2022-01-02]. doi:10.1016/j.scienta.2019.108582. |
| [23] | KEVIN S, PAULINA F, FELIPE Q I L, et al. Unraveling the induction of phytoene synthase 2 expression by salt stress and abscisic acid in Daucus carota [J]. Journal of Experimental Botany, 2018, 69(16): 4113 − 4126. |
| [24] | YOSHIDA T, FUJITA Y, SAYAMA H, et al. AREB1, AREB2, and ABF3 are master transcription factors that cooperatively regulate ABRE-dependent ABA signaling involved in drought stress tolerance and require ABA for full activation [J]. The Plant Journal, 2010, 61(4): 672 − 685. |
| [25] | CHOI H I, HONG J H, HA J O, et al. ABFs, a family of ABA-responsive element binding factors [J]. Journal of Biological Chemistry, 2000, 275(3): 1723 − 1730. |
| [26] | BALDERMANN S, KATO M, KUROSAWA M, et al. Functional characterization of a carotenoid cleavage dioxygenase 1 and its relation to the carotenoid accumulation and volatile emission during the floral development of Osmanthus fragrans Lour. [J]. Journal of Experimental Botany, 2010, 61(11): 2967 − 2977. |
| [27] | ZHANG Chao, WANG Yiguang, FU Jianxin, et al. Transcriptomic analysis and carotenogenic gene expression related to petal coloration in Osmanthus fragrans ‘Yanhong Gui’ [J]. Trees, 2016, 30(4): 1207 − 1223. |
| [28] | 刘玉成, 王艺光, 张超, 等. 桂花OfCCD1基因启动子克隆与表达特性[J]. 浙江农林大学学报, 2018, 35(4): 596 − 603. LIU Yucheng, WANG Yiguang, ZHANG Chao, et al. Cloning and transient expression assay of OfCCD1 gene promoters from Osmanthus fragrans [J]. Journal of Zhejiang A&F University, 2018, 35(4): 596 − 603. |