Li Na, Yin Na, Niu Zubiao, Hui Wenrong, Song Jing, Huang Chunli, Wang Honggang, Kong Lingrang, Feng Deshun
State Key Laboratory of Crop Biology, Shandong Key Laboratory of Crop Biology, College of Agronomy, Shandong Agricultural University, Tai'an 271018, China.
State Key Laboratory of Crop Biology, Shandong Key Laboratory of Crop Biology, College of Agronomy, Shandong Agricultural University, Tai'an 271018, China.
Gene. 2014 Aug 10;546(2):187-94. doi: 10.1016/j.gene.2014.06.020. Epub 2014 Jun 11.
YUCCA protein participates in a key rate-limiting step in the tryptophan-dependent pathway for auxin biosynthesis and is involved in numerous processes during plant development. In this study, the genomic and cDNA sequences of three TaYUC10 homoeologous genes were isolated. These sequences showed a very high conservation in coding region and the exon/intron structure, whereas their intron lengths were different. The cDNA and polypeptide chains of the three TaYUC10 genes were highly similar. These genes were most homologous to BdYUC10. Location analysis showed that TaYUC10.1 was present in chromosome 5BL. TaYUC10.3 was expressed in all parts of the wheat, but was predominant in the reproductive organs of mature wheat, such as flowering spikelets or fertilized embryos. In the fertilized embryos 28d post-anthesis, expression of TaYUC10.3 was clearly increased with the development of seeds. This indicates that TaYUC genes may play a vital role in seed development. TaYUC10.3 overexpressed in Arabidopsis had a typical phenotype, excessive auxin accumulation also seen in higher plants, and showed increased spacing of silique and downward curling of the blade margin. Sterility was observed in adult transgenic plants, becoming more severe in late development. The floral structures of sterile plants were not integrated. TaYUC10 may be required for numerous wheat growth processes, including flower and seed development.
YUCCA蛋白参与生长素生物合成中色氨酸依赖途径的关键限速步骤,并参与植物发育过程中的许多进程。在本研究中,分离出了三个TaYUC10同源基因的基因组和cDNA序列。这些序列在编码区和外显子/内含子结构上显示出非常高的保守性,但其内含子长度不同。三个TaYUC10基因的cDNA和多肽链高度相似。这些基因与BdYUC10最为同源。定位分析表明,TaYUC10.1位于5BL染色体上。TaYUC10.3在小麦的所有部位均有表达,但在成熟小麦的生殖器官中占主导地位,如开花小穗或受精胚。在花后28天的受精胚中,TaYUC10.3的表达随着种子的发育而明显增加。这表明TaYUC基因可能在种子发育中起重要作用。在拟南芥中过表达的TaYUC10具有典型的表型,在高等植物中也观察到生长素过度积累,并且果荚间距增加,叶片边缘向下卷曲。在成年转基因植物中观察到不育现象,在发育后期变得更加严重。不育植物的花结构不完整。TaYUC10可能是小麦许多生长过程所必需的,包括花和种子发育。
