[1]GROUP T.An update of the Angiosperm Phylogeny Group classification for the orders and families of flowering plants:APG Ⅳ[J].Botanical Journal of the Linnean Society,2016,181(1):1‑20.
[2]XIONG Z T,CHEN S C.Numerical taxonomic studies of Hemerocallis (Liliaceae) from China [J].Acta Phytotaxonomica Sinica,1998,36(3):15‑24.
[3]PRASADVURUKONDA S S K,VARDHARAJULA S,SHRIVASTAVA M. Enhancement of drought stress tolerance in crops by plant growth promoting rhizobacteria[J].Microbiological Research,2016,184:13‑24.
[4]CINCOTTA R P,HALE M G,ORCUTT D M,et al.The physiology of plants under stress[J].Journal of Range Management,1990,43(1):86.
[5]DAI A G.Increasing drought under global warming in observations and models[J].Nature Climate Change,2013,3(2):171.
[6]刁卫平,王述彬,刘金兵,等.辣椒全基因组WRKY转录因子的分析[J].园艺学报,2015,42(11):2183‑2196.
DIAO W P,WANG S B,LIU J B,et al.Genome‑wide analysis of the WRKY transcription factor family in pepper[J].Acta Horticulturae Sinica, 2015, 42 (11) :2183‑2196.
[7]KURNOOL K,GUNUPURU L R,MERUM P,et al.A novel WRKY transcription factor,MuWRKY3(Macrotyloma uniflorum Lam.Verdc.) enhances drought stress tolerance in Transgenic Groundnut(Arachis hypogaea L.) plants[J].Frontiers in Plant
Science,2018,9:346‑389.
[8]WEI W,LIANG D,BIAN X,et al.GmWRKY54 improves drought tolerance through activating genes in abscisic acid and Ca2+signaling pathways in transgenic soybean[J].The Plant Journal,2019,100(2):384‑398.
[9]ZHAO J,ZHANG X,GUO R,et al.Over‑expression of a grape WRKY transcription factor gene,VlWRKY48,in Arabidopsis thaliana increases disease resistance and drought stress tolerance[J].Plant Cell,Tissue and Organ Culture,2018,132(2):359‑370.
[10]TAMURA K,PETERSON D,PETERSON N,et al.MEGA5:Molecular evolutionary genetics analysis using maximum likelihood,evolutionary distance and maximum parsimony methods[J].Molecular Biology&Evolution,2011,28(10)2731‑2739.
[11]梁锦,刘海婷,钟荣,等.萱草不同器官实时荧光定量PCR内参基因的筛选[J].植物生理学报,2020,56 (9):1891‑1898.
LIANG J,LIU H T,ZHONG R,et al.Screening of reference genes for quantitative real‑time PCR in different organs of Hemerocallis fulva[J].Plant Physiology Journal,2020,56(9):1891‑1898.
[12]LIVAK K J,SCHMITTGEN T D.Analysis of relative gene expression data using real‑time quantitative PCR and the 2(‑delta delta C(T))method[J].Methods:A Companion to Methods in Enzymology,2001,25(4):402‑408.
[13]JAFFAR M A,SONG A,FAHEEM M,et al.Involvement of CmWRKY10 in drought tolerance of chrysanthemum through the ABA‑Signaling pathway[J].International Journal of Molecular Sciences,2016,17(5):693.
[14]LEE H,CHA J,CHOI C,et al.Rice WRKY11 plays a role in pathogen defense and drought tolerance[J].Rice,2018,11(1):5‑16.
[15]EL‑ESAWI M A,AL‑GHAMDI A A,ALI H M,et al.Overexpression of AtWRKY30 transcription factor enhances heat and drought stress tolerance in wheat(Triticum aestivum L.)[J].Genes,2019,10(2):163.
[16]ZHANG Y,WANG L.The WRKY transcription factor superfamily:Its origin in eukaryotes and expansion in plants[J].BMC Evol Biol,2005,5(1):1.
[17]EULGEM T,RUSHTON P J,ROBATZEK S,et al.The WRKY superfamily of plant transcription factors[J].Trends Plant Sci,2000,5(5):199‑206.
[18]YU D Q,CHEN C H,CHEN Z X. Evidence for an important role of WRKY DNA binding protein in the regulation of NPR1 gene expression[J].The Plant Cell,2001,13(7):1527‑1539.
[19]JIANG Y J,LIANG G,YU D Q.Activated expression of WRKY57 confers drought tolerance in Arabidopsis[J].Molecular Plant,2012,5(6):1375‑1388.
[20]BABITHA K C,RAMU S V,PRUTHVI V,et al.Co‑expression of AtbHLH17 and AtWRKY28 confers resistance to abiotic stress in Arabidopsis[J].Transgenic Research,2013,22(2):327‑341.
[21]李丁丁.转录因子WRKY29在植物抗旱过程中的功能研究[D].兰州:兰州大学,2020.
LI D D.Functional analysis of transcription factor WRKY29 in plant drought resistance[D].Lanzhou:Lanzhou University,2020.
[22]WANG X,DU B,MENG L,et al.Arabidopsis transcription factor WRKY33 is involved in drought by directly regulating the expression of CesA8[J].American Journal of Plant Sciences,2013,4(6):21‑27.
[23]CHE Y M,SUN Y J,LU S C,et al.AtWRKY40 functions in drought stress response in Arabidopsis thaliana[J].Plant Physiology Journal,2018,54(3):456‑464.
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