[1] LIU Yi, ZHANG Zhishuo, FANG Ke, et al. Genome-wide analysis of the MYB-related transcription factor family in pepper and functional studies of CaMYB37 involvement in capsaicin biosynthesis [J/OL]. International Journal of Molecular Sciences, 2022, 23(19): 11667[2023-05-01]. doi: 10.3390/ijms231911667.
[2] LI Jinlu, HAN Guoliang, SUN Cuifeng, et al. Research advances of MYB transcription factors in plant stress resistance and breeding [J/OL]. Plant Signaling & Behavior, 2019, 14(8): e1613131[2023-05-01]. doi: 10.1080/15592324.2019.1613131.
[3] STRACKE R, HOLTGRÄWE D, SCHNEIDER J, et al. Genome-wide identification and characterization of R2R3-MYB genes in sugar beet (Beta vulgaris) [J/OL]. BMC Plant Biology, 2014, 14: 249[2023-05-01]. doi:10.1186/s12870-014-0249-8.
[4] WANG Jin, LIU Yue, CHEN Xueliang, et al. Characterization and divergence analysis of duplicated R2R3-MYB genes in watermelon [J]. Journal of the American Society for Horticultural Science, 2020, 145(5): 281 − 288.
[5] LI Sijia, HUANG Hu, MA Xianjin, et al. Characterizations of MYB transcription factors in Camellia oleifera reveal the key regulators involved in oil biosynthesis [J]. Horticulturae, 2022, 8(8): 742 − 761.
[6] ZHAO Kai, CHENG Zihan, GUO Qing, et al. Characterization of the poplar R2R3-MYB gene family and over-expression of PsnMYB108 confers salt tolerance in transgenic tobacco [J/OL]. Frontiers in Plant Science, 2020, 11: 571881[2023-05-01]. doi: 10.3389/fpls.2020.571881.
[7] SABIR I A, MANZOOR M A, SHAH I H, et al. MYB transcription factor family in sweet cherry (Prunus avium L.): genome-wide investigation, evolution, structure, characterization and expression patterns [J/OL]. BMC Plant Biology, 2022, 22: 2[2023-05-01]. doi: 10.1186/s12870-021-03374-y.
[8] 邱文怡, 王诗雨, 李晓芳, 等. MYB转录因子参与植物非生物胁迫响应与植物激素应答的研究进展[J]. 浙江农业学报, 2020, 32(7): 1317 − 1328.

QIU Wenyi, WANG Shiyu, LI Xiaofang, et al. Progress of MYB transcription factors involved in plant abiotic stress response and plant hormone response [J]. Zhejiang Journal of Agriculture, 2020, 32(7): 1317 − 1328.
[9]

STRACKE R, WERBER M, WEISSHAAR B. The R2R3-MYB gene family in Arabidopsis thaliana [J]. Current Opinion in Plant Biology, 2001, 4(5): 447 − 456.
[10]

CHEN Yanhui, YANG Xiaoyuan, HE Kun, et al. The MYB transcription factor superfamily of Arabidopsis: expression analysis and phylogenetic comparison with the rice MYB family [J]. Plant Molecular Biology, 2006, 60(1): 107 − 124.
[11]

MATUS J T, AQUEA F, ARCE-JOHNSON P. Analysis of the grape MYB-R2R3 subfamily reveals expanded wine quality-related clades and conserved gene structure organization across vitis and Arabidopsis genomes [J/OL]. BMC Plant Biology, 2008, 8: 83[2023-05-01]. doi: 10.1186/1471-2229-8-83.
[12]

LIU Chaoyang, WANG Xia, XU Yuantao, et al. Genome-wide analysis of the R2R3-MYB transcription factor gene family in sweet orange (Citrus sinensis) [J]. Molecular Biology Reports, 2014, 41(10): 6769 − 6785.
[13]

CAO Zhonghui, ZHANG Shizhong, WANG Rongkai, et al. Genome wide analysis of the apple MYB transcription factor family allows the identification of MdoMYB121 gene confering abiotic stress tolerance in plants [J/OL]. PLoS One, 2013, 8(7): e69955[2023-05-01]. doi:10.1371/journal.pone.0069955.
[14]

WILKINS O, NAHAL H, FOONG J, et al. Expansion and diversification of the Populus R2R3-MYB family of transcription factors [J]. Plant Physiology, 2009, 149(2): 981 − 993.
[15]

DIAS A P, BRAUN E L, MCMULLEN M D, et al. Recently duplicated maize R2R3-MYB genes provide evidence for distinct mechanisms of evolutionary divergence after duplication [J]. Plant Physiology, 2003, 131(2): 610 − 620.
[16]

LI Qiang, ZHANG Cunjia, LI Jing, et al. Genome-wide identification and characterization of R2R3-MYB family in Cucumis sativus [J]. PLoS One, 2012, 7(10): 1 − 18.
[17]

CHENG Chunyan, LI Qingrong, WANG Xing, et al. Identification and expression analysis of the CsMYB gene family in root knot nematode-resistant and susceptible cucumbers [J/OL]. Frontiers in Genetics, 2020, 11: 550677[2023-05-01]. doi: 10.3389/FGENE.2020.550677.
[18]

LOZANO R, HAMBLIN M T, PROCHNIK S, et al. Identification and distribution of the NBS-LRR gene family in the Cassava genome [J]. BMC Genomics, 2015, 16(1): 360 − 374.
[19]

MARCHLER-BAUER A, BO Y, HAN L Y, et al. CDD/SPARCLE: functional classification of proteins via subfamily domain architectures [J]. Nucleic Acids Research, 2017, 45(D1): D200 − D203.
[20]

MARCHLER-BAUER A, DERBYSHIRE M K, GONZALES N R, et al. CDD: NCBI’ s conserved domain database [J]. Nucleic Acids Research, 2015, 43(D1): D222 − D226.
[21]

CAO Yunlin, JIA Huimin, XING Mengyun, et al. Genome-wide analysis of MYB gene family in Chinese bayberry (Morella rubra) and identification of members regulating flavonoid biosynthesis [J/OL]. Frontiers in Plant Science, 2021, 12: 691384[2023-05-01]. doi: 10.3389/fpls.2021.691384.
[22]

KUMAR S, STECHER G, TAMURA K. MEGA 7: molecular evolutionary genetics analysis version 7.0 for bigger datasets [J]. Molecular Biology and Evolution, 2016, 33(7): 1870 − 1874.
[23]

DUBOS C, STRACKE R, GROTEWOLD E, et al. MYB transcription factors in Arabidopsis [J]. Trends in Plant Science, 2010, 15(10): 573 − 581.
[24]

LI Hongbo, WANG Shenhao, CHAI Sen, et al. Graph-based pan-genome reveals structural and sequence variations related to agronomic traits and domestication in cucumber [J]. Nature Communications, 2022, 13(1): 682 − 696.
[25]

KAUL S, KOO H L, JENKINS J, et al. Analysis of the genome sequence of the flowering plant Arabidopsis thaliana [J]. Nature, 2000, 408(6814): 796 − 815.
[26]

BURR B. Mapping and sequencing the rice genome [J]. The Plant Cell, 2002, 14(3): 521 − 523.
[27]

SCHNABLE P S, WARE D, FULTON R S, et al. The B73 maize genome: complexity, diversity, and dynamics [J]. Science, 2009, 326(5956): 1112 − 1115.
[28]

GUO Shaogui, ZHAO Shengjie, SUN Honghe, et al. Resequencing of 414 cultivated and wild watermelon accessions identifies selection for fruit quality traits [J]. Nature Genetics, 2019, 51(11): 1616 − 1623.
[29]

BALDONI E, GENGA A, COMINELLI E. Plant MYB transcription factors: their role in drought response mechanisms [J]. International Journal of Molecular Sciences, 2015, 16(7): 15811 − 15851.
[30]

ZHONG Ruiqin, LEE Chanhui, ZHOU Jianli, et al. A battery of transcription factors involved in the regulation of secondary cell wall biosynthesis in Arabidopsis [J]. The Plant Cell, 2008, 20(10): 2763 − 2782.
[31]

FENG Shouqian, XU Yongchao, YANG Long, et al. Genome-wide identification and characterization of R2R3-MYB transcription factors in pear [J]. Scientia Horticulturae, 2015, 197: 176 − 182.
[32]

GIBBS D J, VOß U, HARDING S A, et al. AtMYB93 is a novel negative regulator of lateral root development in Arabidopsis [J]. New Phytologist, 2014, 203(4): 1194 − 1207.
[33] 宫思宇, 陈海燕, 郭冬雪, 等. 黄瓜抗旱相关基因CsMYB94的克隆与表达分析[J]. 华北农学报, 2020, 35(增刊1): 18 − 23.

GONG Siyu, CHEN Haiyan, GUO Dongxue, et al. Cloning and expression analysis of drought-related gene CsMYB94 in cucumber [J]. Journal of North China Agriculture, 2020, 35(suppl 1): 18 − 23.
[34]

HUANG Wenjun, SUN Wei, LÜ Haiyan, et al. Isolation and molecular characterization of thirteen R2R3-MYB transcription factors from Epimedium sagittatum [J]. International Journal of Molecular Sciences, 2013, 14(1): 594 − 610.
[35]

LI Junren, CHEN Xiuzhen, ZHOU Xuanxuan, et al. Identification of trihelix transcription factors in Pogostemon cablin reveals PatGT-1 negatively regulates patchoulol biosynthesis [J/OL]. Industrial Crops and Products, 2020, 161: 113182[2023-05-01]. doi:10.1016/j.indcrop.2020.113182.
[36]

YANG Jiahan, ZHANG Binghui, GU Gang, et al. Genome-wide identification and expression analysis of the R2R3-MYB gene family in tobacco (Nicotiana tabacum L.) [J]. BMC Genomics, 2022, 23(1): 432 − 453.