[1] |
BUCK M J, ATCHLEY W R. Phylogenetic analysis of plant basic helix-loop-helix proteins[J]. Journal of molecular evolution, 2003, 56(6):742-750.
doi: 10.1007/s00239-002-2449-3
pmid: 12911037
|
[2] |
刘文文, 李文学. 植物bHLH转录因子研究进展[J]. 生物技术进展, 2013, 3(1):7-11.
|
[3] |
ATCHLEY W R, FITCH W M. A natural classification of the basic helix-loop-helix class of transcription factors[J]. Proceedings of the national academy of sciences of the United States of America, 1997, 94(10):5172-5176.
doi: 10.1073/pnas.94.10.5172
pmid: 9144210
|
[4] |
PIRES N, DOLAN L. Origin and diversification of basic-helix-loop-helix proteins in plants[J]. Molecular biology and evolution, 2010, 27(4):862-874.
doi: 10.1093/molbev/msp288
pmid: 19942615
|
[5] |
王勇, 姚勤, 陈克平. 动物bHLH转录因子家族成员及其功能[J]. 遗传, 2010, 32(4):307-330.
|
[6] |
刘晓月, 王文生, 傅彬英. 植物bHLH转录因子家族的功能研究进展[J]. 生物技术进展, 2011, 1(6):391-397.
|
[7] |
TOLEDO-ORTIZ G, HUQ E, QUAIL P H. The Arabidopsis basic/helix-loop-helix transcription factor family[J]. Plant cell, 2003, 15(8):1749-1770.
doi: 10.1105/tpc.013839
URL
|
[8] |
BAILEY P C, MARTIN C, TOLEDO-ORTIZ G, et al. Update on the basic helix-loop-helix transcription factor gene family in Arabidopsis thaliana[J]. The plant cell, 2003, 15(11):2497-2502.
doi: 10.1105/tpc.151140
URL
|
[9] |
LI X, DUAN X, JIANG H, et al. Genome-wide analysis of basic/helix-loop-helix transcription factor family in rice and Arabidopsis[J]. Plant physiology, 2006, 141(4):1167-1184.
doi: 10.1104/pp.106.080580
URL
|
[10] |
HEIM M A, JAKOBY M, WERBER M, et al. The basic helix-loop-helix transcription factor family in plants: a genome-wide study of protein structure and functional diversity[J]. Molecular biology and evolution, 2003, 20(5):735-747.
doi: 10.1093/molbev/msg088
pmid: 12679534
|
[11] |
PIRES N, DOLAN L. Early evolution of bHLH proteins in plants[J]. Plant signaling & behavior, 2010, 5(7):911-912.
|
[12] |
王翠, 兰海燕. 植物bHLH转录因子在非生物胁迫中的功能研究进展[J]. 生命科学研究, 2016, 20(4):358-364.
|
[13] |
HUQ E, QUAIL P H. PIF4, a phytochrome-interacting bHLH factor, functions as a negative regulator of phytochrome B signaling in Arabidopsis[J]. The EMBO journal, 2002, 21(10):2441-2450.
doi: 10.1093/emboj/21.10.2441
URL
|
[14] |
BERNHARDT C, ZHAO M, GONZALEZ A, et al. The bHLH genes GL3 and EGL3 participate in an intercellular regulatory circuit that controls cell patterning in the Arabidopsis root epidermis[J]. Development (Cambridge, England), 2005, 132(2):291-298.
|
[15] |
KONDOU Y, NAKAZAWA M, KAWASHIMA M, et al. RETARDED GROWTH OF EMBRYO1, a new basic helix-loop-helix protein, expresses in endosperm to control embryo growth[J]. Plant physiology, 2008, 147(4):1924-1935.
doi: 10.1104/pp.108.118364
pmid: 18567831
|
[16] |
顾敬楠. 拟南芥绒毡层发育重要转录因子DYT1转录调控研究[D]. 上海: 上海师范大学, 2014.
|
[17] |
HEISLER M G, ATKINSON A, BYLSTRA Y H, et al. SPATULA, a gene that controls development of carpel margin tissues in Arabidopsis, encodes a bHLH protein[J]. Development (Cambridge, England), 2001, 128(7):1089-1098.
|
[18] |
LIU Y, JI X, NIE X, et al. Arabidopsis AtbHLH112 regulates the expression of genes involved in abiotic stress tolerance by binding to their E-box and GCG-box motifs[J]. The new phytologist, 2015, 207(3):692-709.
doi: 10.1111/nph.13387
URL
|
[19] |
WANG W S, ZHU J, LU Y T. Overexpression of AtbHLH112 suppresses lateral root emergence in Arabidopsis[J]. Functional plant biology, 2014, 41(4):342-352.
doi: 10.1071/FP13253
URL
|
[20] |
NI M, TEPPERMAN J M, QUAIL P H. PIF3, a phytochrome-interacting factor necessary for normal photoinduced signal transduction, is a novel basic helix-loop-helix protein[J]. Cell, 1998, 95(5):657-667.
doi: 10.1016/s0092-8674(00)81636-0
pmid: 9845368
|
[21] |
杨攀, 杨诗雯, 李磊, 等. 生菜研究进展综述[J]. 现代园艺, 2020, 43(15):34-36.
|
[22] |
王力伟, 房永雨, 刘红葵, 等. bHLH转录因子的研究进展[J]. 畜牧与饲料科学, 2020, 41(1):23-27.
|
[23] |
何开平, 吴楚. bHLH转录因子对植物形态发生的影响[J]. 安徽农业科学, 2010, 38(35):19957-19959.
|
[24] |
CHU Y, XIAO S, SU H, et al. Genome-wide characterization and analysis of bHLH transcription factors in Panax ginseng[J]. Acta pharmaceutica sinica B, 2018, 8(4):666-677.
doi: 10.1016/j.apsb.2018.04.004
URL
|
[25] |
何洁, 顾秀容, 魏春华, 等. 西瓜bHLH转录因子家族基因的鉴定及其在非生物胁迫下的表达分析[J]. 园艺学报, 2016, 43(02):281-294.
|
[26] |
CUI X, WANG Y-X, LIU Z-W, et al. Transcriptome-wide identification and expression profile analysis of the bHLH family genes in Camellia sinensis[J]. Functional & integrative genomics, 2018, 18(5):489-503.
|
[27] |
WANG P, SU L, GAO H, et al. Genome-wide characterization of bHLH genes in grape and analysis of their potential relevance to abiotic stress tolerance and secondary metabolite biosynthesis[J]. Frontiers in plant science, 2018, 9:64.
doi: 10.3389/fpls.2018.00064
pmid: 29449854
|
[28] |
MAO K, DONG Q, LI C, et al. Genome wide identification and characterization of apple bHLH transcription factors and expression analysis in response to drought and salt stress[J]. Frontiers in plant science, 2017, 8:480.
doi: 10.3389/fpls.2017.00480
pmid: 28443104
|
[29] |
FERRÉ-D'AMARÉ A R, POGNONEC P, ROEDER R G, et al. Structure and function of the b/HLH/Z domain of USF[J]. The EMBO journal, 1994, 13(1):180-189.
doi: 10.1002/j.1460-2075.1994.tb06247.x
URL
|
[30] |
MURRE C, MCCAW P S, BALTIMORE D. A new DNA binding and dimerization motif in immunoglobulin enhancer binding, daughterless, MyoD, and myc proteins[J]. Cell, 1989, 56(5):777-783.
doi: 10.1016/0092-8674(89)90682-x
pmid: 2493990
|
[31] |
HUDSON K A, HUDSON M E. The basic helix-loop-helix transcription factor family in the sacred lotus, Nelumbo Nucifera[J]. Tropical plant biology, 2014, 7(2):65-70.
doi: 10.1007/s12042-014-9138-4
URL
|
[32] |
郑斌, 文定青, 武红霞, 等. 芒果果实bHLH家族转录因子的生物信息学分析[J]. 热带作物学报, 2019, 40(2):289-299.
|