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6 期 梁芳等: 蝴蝶兰 PhNAC1 基因序列分析及对低温胁迫的响应 8 5 3
analysis of NAC family genes in Oryza sativa and Arabidopsis 33(10): 1673-1686.
thaliana [J]. DNA Resꎬ 10(6): 239-247. XIA Nꎬ ZHANG Gꎬ SUN YFꎬ et al.ꎬ 2010. TaNAC8ꎬ a novel
PURANIK Sꎬ SAHU PPꎬ SRIVASTAVA PSꎬ et al.ꎬ 2012. NAC transcription factor gene in wheatꎬ responds to stripe
NAC proteins: Regulation and role in stress tolerance rust pathogen infection and abiotic stresses [J]. Physiol Mol
[J]. Trends Plant Sciꎬ 17(6): 369-381. Plant Patholꎬ 74(5-6): 394-402.
QU YTꎬ DUAN Mꎬ ZHANG ZQꎬ et al.ꎬ 2016. Overexpression XUE Yꎬ WANG YYꎬ PENG HRꎬ et al.ꎬ 2014. Transcription
of the Medicago falcata NAC transcription factor MfNAC3 factor MdCBF1 gene increases freezing stress tolerance in
enhances cold tolerance in Medicago truncatula [J]. Environ transgenic Arabidopsis thaliana [ J ]. Biol Plantarumꎬ
Exp Botꎬ 129: 67-76. 58(3): 499-506.
SCARPECI ETꎬ ZANOR IMꎬ MUELLER ̄ROEBER Bꎬ et al.ꎬ YANG XWꎬ WANG XYꎬ JI Lꎬ et al.ꎬ 2015. Overexpression of
2013. Overexpression of AtWRKY30 enhances abiotic stress a Miscanthus lutarioriparius NAC gene MlNAC5 confers en ̄
tolerance during early growth stages in Arabidopsis thaliana hanced drought and cold tolerance in Arabidopsis [J]. Plant
[J]. Plant Mol Biolꎬ 83(3): 265-277. Cell Repꎬ 34(6): 943-958.
SHAO Hꎬ WANG Hꎬ TANG Xꎬ 2015. NAC transcription factors ZHAO Pꎬ WANG WJꎬ SUN MXꎬ 2011. Characterization and
in plant multiple abiotic stress responses: Progress and pros ̄ expression pattern analysis of DcNAC gene in somatic
pects [ J]. Front Plant Sciꎬ 6: 902. Doi: 10. 3389/ fpls. embryos of Dendrobium candidum Wall Ex Lindl [J]. Plant
2015.00902. Cell Tissue Organ Cultꎬ 107(1): 151-159.
SINGH Sꎬ GROVER Aꎬ NASIM Mꎬ 2016. Biofuel potential of ZHAO Xꎬ YANG XWꎬ PEI SQꎬ et al.ꎬ 2016. The Miscanthus
plants transformed genetically with NAC family genes NAC transcription factor MlNAC9 enhances abiotic stress
[ J ]. Front Plant Sciꎬ 7: 22. Doi: 10. 3389/ fpls. tolerance in transgenic Arabidopsis [ J ]. Geneꎬ 586:
2016.00022. 158-169.
SUN Hꎬ HU MLꎬ LI JYꎬ et al.ꎬ 2018. Comprehensive analysis ZHANG LNꎬ ZHANG LCꎬ XIA Cꎬ et al.ꎬ 2015. The novel
of NAC transcription factors uncovers their roles during fiber wheat transcription factor TaNAC47 enhances multiple
development and stress response in cotton [J]. BMC Plant abiotic stress tolerances in transgenic plants [J]. Front Plant
Biolꎬ 18(1): 150. Doi: 10.1186/ s12870 ̄018 ̄1367 ̄5. Sciꎬ 6: 1174. Doi: 10.3389/ fpls.2015.01174.
VANDESOMPELEJꎬ PRETER DKꎬ PATTYN Fꎬ et al.ꎬ ZHOU Yꎬ HUANG WFꎬ LIU Lꎬ et al.ꎬ 2013. Identification and
2002. Accurate normalization of real ̄time quantitative RT ̄ functional characterization of a rice NAC gene involved in the
PCR data by geometric averaging of multiple internal control regulation of leaf senescence [ J]. BMC Plant Biolꎬ 13:
genes [J]. Genom Biolꎬ 3(7):1-11. 132. Doi: 10.1186/ 1471 ̄2229 ̄13 ̄132.
WANG Zꎬ RASHOTTE AMꎬ DANE Fꎬ 2014. Citrullus colo ̄
cynthis NAC transcription factors CcNAC1 and CcNAC2 are (责任编辑 何永艳)
involved in light and auxin signaling [J]. Plant Cell Repꎬ
