盐碱胁迫诱导的几内亚兔蛋白。

Proceedings of the International Conference on Natural Resources and Technology Pub Date : 1900-01-01 DOI:10.5220/0008526301120115

Dolly Sojuangan Siregar, Mohammad Basyuni, R. Hayati

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摘要

棕榈油植物(Elaeis guineensis)是生长在热带地区的产油植物。棕榈油对低温敏感，但对盐胁迫和干旱的耐受性高。本文对NCBI数据库的生物信息学进行了评价，并对蛋白质盐度的理化性质进行了展望。在NCBI中沉积了三种几内亚棘球蚴诱导的蛋白盐度。基因长度在525 ~ 633 bp之间。X1和X2处相同的分子量为5945.24，而X3处的分子量为18052.17。叶绿体转运肽的变化范围为0.142 ~ 0.445。活性氧(Reactive oxygen species, ROS)在盐度诱导的植物线粒体肽靶点中起着至关重要的促进作用，范围在0.022 ~ 0.110之间。研究结果表明，盐胁迫对油棕植物蛋白质中氨基酸理化特性的影响及其作用。

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Protein Induced as Salinity Stress in Elaeis guineensis Jacq.

: Palm oil plants ( Elaeis guineensis ) are oil-producing plants grown in the tropics. Palm oil is sensitive to low temperatures but high tolerance to salinity stress and drought. The present work evaluates of the bioinformatics on the NCBI database as well as expected the physicochemical of protein salinity. There is three protein salinity induced from E. guineensis deposited in NCBI. Length of genes was between 525 to 633 bp. The same Molecular weight at X1 and X2 was 5945.24, but it is different from X3 which was 18052.17. Chloroplast transit peptide ranged from 0.142 and 0.445. Reactive oxygen species (ROS) plays a crucial role in promoting mitochondrial peptide targets in plants induced by salinity, ranging from 0.022 to 0.110. These results d variations and roles of different physical and chemical characteristics of amino acids in protein due to salinity stress in oil palm plants.

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Proceedings of the International Conference on Natural Resources and Technology

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