[具体物种名称]中己糖激酶基因家族的分离、结构分析及表达特征
Isolation, structure analysis and expression characterization of the Hexokinase gene family in .
作者信息
Li Sen, Liu Yansheng, Qin Xin'er, He Xiaofei, Han Shaopeng, Lv Yang, Deng Zhuying, Zeng Gongjian, Gao Xinqiang, Hu Yongfeng, Shen Xiangling
机构信息
Key Laboratory of Three Gorges Regional Plant Genetics & Germplasm Enhancement (CTGU)/Biotechnology Research Center, Three Gorges University, Yichang, 443000 Hubei China.
Anyang Institute of Technology, Anyang, 455000 Henan China.
出版信息
3 Biotech. 2025 Jan;15(1):20. doi: 10.1007/s13205-024-04190-5. Epub 2024 Dec 20.
UNLABELLED
Hexokinases (HXK) not only facilitate carbohydrate metabolism but also play important roles in sugar sensing in higher plants. gene families have been extensively discussed in many plant species; however, comprehensive information regarding in sorghum remains unclear. To address this gap, we identified 7 putative sorghum ( to ), and the features of their conserved domains, gene structure, evolutionary tree, and cis-acting elements were systematically characterized to reveal the evolutionary conservation between different plant species. Based on expression profiling, we found that different expression patterns of were associated with different physiological processes, including abiotic stresses. Further qRT-PCR verification under salt and sucrose treatment confirmed that , , and may play very important roles under high osmotic pressure. Notably, SbHXKs are predominantly localized in the cytoplasm, in contrast to some rice and HXKs, which are localized in chloroplasts or mitochondria, suggesting divergent roles for SbHXKs. In summary, our study provides a theoretical foundation for understanding the HXK gene family and offers fundamental insights of in sorghum.
SUPPLEMENTARY INFORMATION
The online version contains supplementary material available at 10.1007/s13205-024-04190-5.
未标注
己糖激酶(HXK)不仅促进碳水化合物代谢,还在高等植物的糖感知中发挥重要作用。许多植物物种中的基因家族已被广泛讨论;然而,关于高粱中该基因家族的全面信息仍不清楚。为了填补这一空白,我们鉴定了7个推定的高粱己糖激酶基因(SbHXK1至SbHXK7),并系统地表征了它们保守结构域、基因结构、进化树和顺式作用元件的特征,以揭示不同植物物种之间的进化保守性。基于表达谱分析,我们发现SbHXKs的不同表达模式与不同的生理过程相关,包括非生物胁迫。在盐和蔗糖处理下的进一步qRT-PCR验证证实,SbHXK1、SbHXK3和SbHXK7在高渗透压下可能发挥非常重要的作用。值得注意的是,与一些定位在叶绿体或线粒体中的水稻和拟南芥HXKs不同,SbHXKs主要定位在细胞质中,这表明SbHXKs具有不同的作用。总之,我们的研究为理解HXK基因家族提供了理论基础,并为高粱中该基因家族的研究提供了基本见解。
补充信息
在线版本包含可在10.1007/s13205-024-04190-5获取的补充材料。
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