参考文献/References:
[1] Wang S, Zhang Y, Song Q, et al. Mitochondrial DysfunctionFertility of CMS wheat is restored by two Rf loci located on a
recombined acrocentric chromosome [J]. Journal of Experimental
Botany,2014,65(22): 6667-6677.
[10] Lu C, Fedoroff N. A mutation in the Arabidopsis HYL1 gene
encoding a dsRNA binding protein affects responses to
abscisic acid, auxin, and cytokinin [J]. Plant Cell,2000,12:
2351-2366.
[11] Park W, Li J, Song R, et al. CARPEL FACTORY, a Dicer
homolog, and HEN1, a novel protein, act in microRNA
metabolism in Arabidopsis thaliana [J]. Curr Biol,2002,12:
1484-1495.
[12] Luo Y, Guo Z, Li L. Evolutionary conservation of microRNA
regulatory programs in plant flower development [J]. Dev
Biol,2013,380(2):133-144.
[13] Longqing Sun, Genlou Sun, Chenxia Shi, et al. Transcriptome
analysis reveals new microRNAs-mediated pathway
involved in anther development in male sterile wheat [J].
BMC Genomics,2018,19:333.
[14] Jian-Fang Bai, Yu-Kun Wang, peng Wang, et al. Uncovering
Male Fertility Transition Responsive miRNA in a Wheat
Photo-Thermosensitive Genic Male Sterile Line by Deep
Sequencing and Degradome Analysis [J]. Frontiers in Plant
Science,2017,8:1370.
Causes Oxidative Stress and Tapetal Apoptosis in Chemical
Hybridization Reagent-Induced Male Sterility in Wheat [J].
Frontiers in Plant Science,2018,8:2217.
[2] 刘子涵,石晓艺,闫鹏娇,等. D~2 型细胞质雄性不育小麦
绒毡层细胞程序化死亡与活性氧代谢[J].中国农业科学,
2017,50(21):4071-4086.
[3] Zihan Liu, Xiaoyi Shi, Sha Li, et al. Tapetal-Delayed
Programmed Cell Death (PCD and Oxidative Stress-Induced
Male Sterility of Aegilops uniaristata Cytoplasm in Wheat [J].
Int J Mol Sci,2018,19(6).
[4] Gaoming Zhang, Jiali Ye, jiayu Lin, et al. iTRAQ-Based
Proteomics Analyses of Sterile/Fertile Anthers from a Thermo-
Sensitive Cytoplasmic Male-Sterile Wheat with Aegilopskotschyi
Cytoplasm [J]. International Journal of Molecular
Sciences,2018,19(5).
[5] Xingxia Geng, Jiali Ye, Xuetong Yang, et al. Identification of
Proteins Involved in Carbohydrate Metabolism and Energy
Metabolism Pathways and Their Regulation of Cytoplasmic
Male Sterility in Wheat [J]. International Journal of Molecular
Sciences,2018, 19(2).
[6] Tahir CM, Tsunewaki K. Monosomic analysis of fertility
restoring gene in Triticum spelta var duhamelianum [J]. Wheat
Inform Serv, 28:5-7.
[7] Tobias Würschum, Willmar L.Leiser, Sigrid Weissmann,
etal. Genetic architecture of male fertility restoration of Triticum
timopheevii cytoplasm and fine-mapping of the major
restorer locus Rf3 on chromosome 1B [J]. Theor Appl Genet,
2017, 130:1253-1266.
[8] Manuel Geyer, Theresa Albrecht, Lorenz Hartl, et al. Exploring
the genetics of fertility restoration controlled by Rf1 in
common wheat (Triticum aestivum L.)using high-density
linkage maps [J]. Molecular Genetics and Genomics,2018,
293:451-462.
[9] Almudena Castillo, Sergio G.Atienza, Azahara C.Martín.
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