盐藻盐盐响应序列的差异表达Dumort

Krishnamurthi Saraswathi Shrikanth, A. Parida, K. P. Girivasan
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引用次数: 1

摘要

盐度是影响植物生长和生产力的主要非生物胁迫。为了应对盐胁迫,植物表达了大量的盐响应基因和蛋白质,这些基因和蛋白质参与了广泛的细胞功能。在本研究中,盐生植物海苔(Suaeda martima, L.)Dumort。利用基于pcr的抑制减法杂交(suppression Subtractive Hybridization, SSH)技术,研究耐盐性背后的分子机制。通过构建两个cDNA减法文库,对盐叶处理14 d后的差异表达基因进行鉴定。两个文库的224个克隆被组装成109个unique- est,按不同的功能分类。基于GO功能注释,表达的氧进化增强子蛋白1、含AARF结构域激酶蛋白、v型质子atp酶亚单位d2、RMD5同源蛋白和ABC转运蛋白G35等序列参与光合作用、细胞转运、细胞救援与防御、多泛素化和次生代谢等过程,表明海参对盐具有复杂的响应。这是首次报道SSH可以促进盐反应基因的跨物种筛选和家族特异性鉴定,为盐反应的生物学机制提供了新的思路。
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Differentially Expressed Long-Term Salinity Responsive Sequences in Halophyte Suaeda maritima (L.) Dumort
Salinity is a major abiotic stress that affects plant growth and productivity. To cope with salt stress, plants express large number of salt responsive genes and proteins that are involved in a wide range of cellular functions. In the present study, halophytic plant Suaeda maritima (L.) Dumort. were hydroponically exposed to NaCl for understanding the molecular mechanisms behind salinity tolerance using PCR-based Suppressive Subtractive Hybridization (SSH). Two cDNA subtraction libraries were constructed between Suaeda maritima X Sesuvium portulacastrum and Suaeda maritima X Salicornia brachiata to identify differentially expressed genes from leaves exposed to 200mM NaCl treatment for 14 days. A total of 224 clones from both libraries were assembled into 109 unique-ESTs grouped into different functional categories. Based on GO functional annotation, the expressed sequences like Oxygen-evolving enhancer protein1, AARF domain-containing kinase protein, V-type proton ATPase subunitd2, RMD5 homologA, and ABC transporter G35 that are involved in photosynthesis, cellular transport, cell rescue and defense, polyubiquitination and secondary metabolism played a significant role implying a complex response to salt in S. maritima. This is the first report that SSH could facilitate screening across species and family specific identification of salt responsive genes provides insight into biological mechanisms underlying salinity response.
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