| [1] | SHAN Z, LUO X, WU M, et al. Genome-wide identification and expression of GRAS gene family members in cassava[J]. BMC Plant Biology, 2020, 20(1): 46. |
| [2] | 安飞飞, 罗秀芹, 薛晶晶, 等. 白心与黄心糖木薯代谢物及相关基因表达分析[J]. 江西农业大学学报, 2022, 44(5): 1092 − 1100. |
| [3] | 王春华. 木薯在饲料中的应用现状及发展趋势[J]. 中国饲料添加剂, 2018(1): 24 − 25. |
| [4] | EL-SHARKAWY M A. Cassava biology and physiology[J]. Plant Molecular Biology, 2004, 56(4): 481 − 501. |
| [5] | 蔡赋涵. 木薯渣两相耦合产乙酸工艺研究 [D]. 南宁: 广西大学, 2012. |
| [6] | SHAN Z, LUO X, WEI M, et al. Physiological and proteomic analysis on long-term drought resistance of cassava (Manihot esculenta Crantz)[J]. Scientific Reports, 2018, 8(1): 17982. |
| [7] | 时涛, 王国芬, 李超萍, 等. 木薯花叶病在中国发生的首次报道[J]. 热带农业科学, 2018, 38(10): 99 − 100. |
| [8] | 王国芬, 李超萍, 时涛, 等. 我国木薯花叶病毒病的发生危害及其病原鉴定[J]. 热带作物学报, 2021, 42(6): 1668 − 1677. doi: 10.3969/j.issn.1000-2561.2021.06.023 |
| [9] | YU N T, YANG Y, LI J H, et al. Complete genome sequence of a distinct isolate of cassava common mosaic virus (CsCMV) infecting cassava in Hainan, China[J]. European Journal of Plant Pathology, 2020, 158(2): 583 − 587. |
| [10] | HOUNGUE J A, ZANDJANAKOU-TACHIN M, NGALLE H B, et al. Evaluation of resistance to cassava mosaic disease in selected African cassava cultivars using combined molecular and greenhouse grafting tools[J]. Physiological and Molecular Plant Pathology, 2019, 105: 47 − 53. |
| [11] | WASZCZAK C, CARMODY M, KANGASJäRVI J. Reactive oxygen species in plant signaling[J]. Annual Review of Plant Biology, 2018, 69: 209 − 236. |
| [12] | CHEN H, SHI Y, AN L, et al. Overexpression of SlWRKY6 enhances drought tolerance by strengthening antioxidant defense and stomatal closure via ABA signaling in Solanum lycopersicum L[J]. Plant Physiology and Biochemistry, 2024, 213: 108855. |
| [13] | LIU X, JI P, YANG H, et al. Priming effect of exogenous ABA on heat stress tolerance in rice seedlings is associated with the upregulation of antioxidative defense capability and heat shock-related genes[J]. Plant Growth Regulation, 2022, 98(1): 23 − 38. |
| [14] | ZHANG Z, HOU X, GAO R, et al. CsSHMT3 gene enhances the growth and development in cucumber seedlings under salt stress[J]. Plant Molecular Biology, 2024, 114(3): 52. doi: 10.1007/s11103-024-01451-y |
| [15] | 刘备, 宋玉梅, 孙铭, 等. 燕麦劣变种子吸胀过程中线粒体AsA-GSH循环的生理响应[J]. 草地学报, 2021, 29(2): 211 − 219. |
| [16] | MA CL, WANG PP, CAO ZY, et al. cDNA cloning and gene expression of APX in Suaeda salsain response to salt stress[J]. Journal of Plant Physiology and Molecular Biology, 2002, 28(4): 261 − 266. |
| [17] | WANG C, YANG CP, WANG YC. Cloning and expression analysis of an APX gene from Betula platyphylla[J]. Northeastern Naturalist, 2009, 37(3): 79 − 81. |
| [18] | MENG Q, YAN M, ZHANG J, et al. Humic acids enhance salt stress tolerance associated with pyrroline 5-carboxylate synthetase gene expression and hormonal alteration in perennial ryegrass (Lolium perenne L.)[J]. Frontiers in Plant Science, 2023, 14: 1272987. |
| [19] | WANG Y, WISNIEWSKI M, MEILAN R, et al. Overexpression of cytosolic ascorbate peroxidase in tomato confers tolerance to chilling and salt stress [J]. Journal of the American Society for Horticultural Science, 130(2): 167−173. |
| [20] | SHANG S, TANG Y, DAI J, et al. Genomic analysis of the principal members of antioxidant enzymes in simulated stresses response and postharvest physiological deterioration in cassava[J]. Tropical Plant Biology, 2021, 14(4): 419 − 428. |
| [21] | FU H, ZHAO Y, HUANG J, et al. Reduced glutathione and raffinose lengthens postharvest storage of cassava root tubers by improving antioxidant capacity and antibiosis[J]. BMC Plant Biology, 2023, 23(1): 475. |
| [22] | 董亚彬, 白玉晶. 木薯过氧化氢酶基因的克隆与原核表达[J]. 分子植物育种, 2024, 22(15): 4912 − 4918. |
| [23] | JIANG Z, ZHANG K, LI Z, et al. The Barley stripe mosaic virus γb protein promotes viral cell-to-cell movement by enhancing ATPase-mediated assembly of ribonucleoprotein movement complexes[J]. PLoS Pathogens, 2020, 16(7): e1008709. doi: 10.1371/journal.ppat.1008709 |
| [24] | 石波明. 巴西橡胶树橡胶转移酶HRT2互作蛋白的筛选与表达分析 [D]. 海口: 海南大学, 2021. |
| [25] | 张也, 韦运谢. 木薯MeLTP基因克隆及原核表达分析[J/OL]. 分子植物育种, 2024, 1-10. |
| [26] | 陈耀. 营养应激对TRIB2蛋白稳定性的调控作用及其分子机制研究 [D]. 镇江: 江苏大学, 2020. |
| [27] | WU J, KAMANGA B M, ZHANG W, et al. Research progress of aldehyde oxidases in plants[J]. PeerJ, 2022, 10: e13119. doi: 10.7717/peerj.13119 |
| [28] | 曾秀存, 孙万仓, 方彦, 等. 白菜型冬油菜抗坏血酸过氧化物酶(APX)基因的克隆、表达及其活性分析[J]. 作物学报, 2013, 39(8): 1400 − 1408. |
| [29] | MISHRA P, BHOOMIKA K, DUBEY R S. Differential responses of antioxidative defense system to prolonged salinity stress in salt-tolerant and salt-sensitive Indica rice (Oryza sativa L.) seedlings[J]. Protoplasma, 2013, 250(1): 3 − 19. doi: 10.1007/s00709-011-0365-3 |
| [30] | 杜佳庚, 周瑾, 李晓燕, 等. 芹菜APX基因家族鉴定及其表达分析[J]. 干旱地区农业研究, 2023, 41(6): 54 − 63. |
| [31] | CHEN D, ZHANG H Y, HU S M, et al. The P1 protein of wheat yellow mosaic virus exerts RNA silencing suppression activity to facilitate virus infection in wheat plants[J]. The Plant Journal, 2023, 116(6): 1717 − 1736. doi: 10.1111/tpj.16461 |
| [32] | TUO D, ZHOU P, YAN P, et al. A cassava common mosaic virus vector for virus-induced gene silencing in cassava[J]. Plant Methods, 2021, 17(1): 74. doi: 10.1186/s13007-021-00775-w |
| [33] | 吴金山, 王思琦, 黄家权, 等. 5株生防菌定殖能力、促生作用及其对木薯细菌性枯萎病生防潜力的研究[J]. 热带作物学报, 2022, 43(9): 1880 − 1887. |
| [34] | CHEN X, HAN H, CONG Y, et al. The protective effect of exogenous ascorbic acid on photosystem inhibition of tomato seedlings induced by salt stress[J]. Plants, 2023, 12(6): 1379. doi: 10.3390/plants12061379 |
| [35] | 李泽琴, 李锦涛, 邴杰, 等. 拟南芥APX家族基因在植物生长发育与非生物逆境胁迫响应中的作用分析[J]. 遗传, 2019, 41(6): 534 − 549. |
| [36] | LI M, MA F, GUO C, et al. Ascorbic acid formation and profiling of genes expressed in its synthesis and recycling in apple leaves of different ages[J]. Plant Physiology and Biochemistry, 2010, 48(4): 216 − 224. doi: 10.1016/j.plaphy.2010.01.015 |
| [37] | 鲁振强. 水稻APX与CAT同工酶的功能特性及其与盐胁迫关系的研究 [D]. 哈尔滨: 东北林业大学, 2005. |