烟碱转运候选基因NtABCG6L生物信息学及表达特征分析OA北大核心CSTPCD
Bioinformatics and Expression Characteristics Analysis of Nicotine Transport Candidate Gene NtABCG6L
为预测前期筛选到的可能影响烟草烟碱含量的NtABCG6L基因是否具有转运烟碱功能,本研究采用生物信息学方法对NtABCG6L基因的启动子序列以及编码蛋白的理化性质和结构进行分析,利用软件对烟碱与NtABCG6L蛋白进行分子对接,并分别在烟株打顶 0、7、14、21 d取根、茎、叶测定烟碱含量和NtABCG6L基因的相对表达量,以分析NtABCG6L基因表达量与烟碱转运效率的关系.结果表明,NtABCG6L基因共编码729 个氨基酸;NtABCG6L蛋白分子量为 81.29 kDa,理论pI值为 8.97,含有ABC_transporter-like_ATP-bd、AB-CG_dom、ABC_2_trans结构域,二级结构主要由α-螺旋和无规则卷曲组成,存在跨膜结构,主要定位在细胞膜上,预测NtABCG6L是一个跨膜转运蛋白.NtABCG6L蛋白与烟碱可以通过氢键结合,结合能为-2.95.Nt-ABCG6L基因主要在烟草根部表达,打顶 14d表达量最高,其表达量与烟碱转运系数呈显著正相关关系,初步推测 NtABCG6L基因参与了烟碱的转运过程.本研究结果可为进一步采用基因编辑技术明确其功能提供依据.
To predict the nicotine transport function of NtABCG6L gene obtained in earlier time which might affect nicotine content of tobacco,this study used bioinformatics method to analyze the promoter se-quence,and physicochemical properties and structure of the encoding protein of NtABCG6L.Nicotine was docked to NtABCG6L protein by software,the nicotine content and expression level of NtABCG6L gene in roots,stems and leaves of tobacco plants were determined at 0,7,14 and 21 days of topping to analyze the re-lationship between gene expression and nicotine transport efficiency.The results showed that NtABCG6L gene encoded a total of 729 amino acids.NtABCG6L protein had 81.29 kDa of molecular weight,8.97 of theoretical pI value,and structural domains ABC̠transporter-like̠ATP-bd,ABCG̠dom and ABC̠2̠trans.The secondary structure of NtABCG6L was mainly composed of α-spiral and irregular curl with a transmembrane structure.It was mainly located on cell membrane,and was predicted to be a transmembrane transporter protein.NtAB-CG6L protein could bind to nicotine through hydrogen bonding with the binding energy as-2.95.NtABCG6L gene was mainly expressed in tobacco roots with the highest level at 14 days of topping,and its expression lev-el was significantly positively correlated with the nicotine transport coefficient,which indicated that NtABCG6L gene might be involved in the transport process of nicotine.These results could provide references for further research on the function of NtABCG6L by gene editing technology.
龙本山;莫泽君;张静瑶;彭丽沙;段丽丽;罗家骏;刘仁祥
贵州大学烟草学院,贵州 贵阳 550025||贵州省烟草品质研究重点实验室,贵州 贵阳 550025贵州省烟草品质研究重点实验室,贵州 贵阳 550025
农业科学
烟草NtABCG6L基因生物信息学分析烟碱转运基因表达
TobaccoNtABCG6L geneBioinformatics analysisNicotine transportGene expression
《山东农业科学》 2024 (004)
20-27,45 / 9
国家自然科学基金项目(32060510);贵州省烟草公司基金项目(2022XM02)
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