基因组学与应用生物学
基因組學與應用生物學
기인조학여응용생물학
Genomics and Applied Biology
2011年
2期
229-242
,共14页
孙欣%上官凌飞%房经贵%宋长年%王晨%慕茜
孫訢%上官凌飛%房經貴%宋長年%王晨%慕茜
손흔%상관릉비%방경귀%송장년%왕신%모천
葡萄%拟南芥%NAC转录因子%生物信息学
葡萄%擬南芥%NAC轉錄因子%生物信息學
포도%의남개%NAC전록인자%생물신식학
Grapevine%Arabidopsis thaliana%NAC transcription factors%Bioinformatics
NAC基因家族是植物所特有的一类重要转录因子,广泛参与植物生长、发育以及器官建成、逆境胁迫应答等反应。目前,基因组信息的挖掘和分析已经成为葡萄功能基因组学研究的重要组成部分。本文利用生物信息学方法对葡萄143条NAC蛋白序列的系统发生和NAC基因组定位进行分析,然后对其氨基酸组成成分、理化性质以及二级和三级结构进行预测和分析,同时还分析了葡萄与拟南芥的NAC基因家族之间的联系。结果显示这143条蛋白序列与拟南芥94个NAC基因蛋白序列一起分成了16个亚族,说明拟南芥与葡萄NAC基因间具有较高的保守性。基因组定位结果发现143条NAC基因分布在17条染色体上。研究还发现不同亚家族间氨基酸数目、氨基酸序列间的疏水性存在一定的差异;而它们的二级结构都主要以随机卷曲为组成部分,且143条氨基酸序列三维结构十分相似。本文试验结果将为葡萄NAC基因家族的进一步功能分析提供重要研究基础。
NAC基因傢族是植物所特有的一類重要轉錄因子,廣汎參與植物生長、髮育以及器官建成、逆境脅迫應答等反應。目前,基因組信息的挖掘和分析已經成為葡萄功能基因組學研究的重要組成部分。本文利用生物信息學方法對葡萄143條NAC蛋白序列的繫統髮生和NAC基因組定位進行分析,然後對其氨基痠組成成分、理化性質以及二級和三級結構進行預測和分析,同時還分析瞭葡萄與擬南芥的NAC基因傢族之間的聯繫。結果顯示這143條蛋白序列與擬南芥94箇NAC基因蛋白序列一起分成瞭16箇亞族,說明擬南芥與葡萄NAC基因間具有較高的保守性。基因組定位結果髮現143條NAC基因分佈在17條染色體上。研究還髮現不同亞傢族間氨基痠數目、氨基痠序列間的疏水性存在一定的差異;而它們的二級結構都主要以隨機捲麯為組成部分,且143條氨基痠序列三維結構十分相似。本文試驗結果將為葡萄NAC基因傢族的進一步功能分析提供重要研究基礎。
NAC기인가족시식물소특유적일류중요전록인자,엄범삼여식물생장、발육이급기관건성、역경협박응답등반응。목전,기인조신식적알굴화분석이경성위포도공능기인조학연구적중요조성부분。본문이용생물신식학방법대포도143조NAC단백서렬적계통발생화NAC기인조정위진행분석,연후대기안기산조성성분、이화성질이급이급화삼급결구진행예측화분석,동시환분석료포도여의남개적NAC기인가족지간적련계。결과현시저143조단백서렬여의남개94개NAC기인단백서렬일기분성료16개아족,설명의남개여포도NAC기인간구유교고적보수성。기인조정위결과발현143조NAC기인분포재17조염색체상。연구환발현불동아가족간안기산수목、안기산서렬간적소수성존재일정적차이;이타문적이급결구도주요이수궤권곡위조성부분,차143조안기산서렬삼유결구십분상사。본문시험결과장위포도NAC기인가족적진일보공능분석제공중요연구기출。
NAC gene family is a specific kind of important transcriptional factors to plants,which are involved extensively in plant growth,development and organogenesis and stress responses.Now,grape has been focused on molecular biology research areas,of which the informationmining and analysis of grape genome is very significant for the progress of grape functional genomics.In this article,by utilizing the bioinformatics method,we analyzed the phylogenetic of 143 NAC family protein sequence and NAC genome localization firstly,and then predicted and analyzed their amino acid composition,physical and chemical characteristics,as well as secondary and tertiary structures,meanwhile,we still assayed the relation of NAC gene family between grapevine and Arabidopsis thaliana.The result showed that these 143 amino acid sequences could be clustered into sixty groups together with 94 NAC sequences of Arabidopsis thaliana,which illuminated that NAC genes had highly conservative between grapevine and Arabidopsis thaliana.Further genetic mapping of NAC genome localization found that they could be distributed on 17 chromosomes.The research still found that the number of amino acid and hydrophobic of amino acid sequences in different subfamilies presented some differences,however,the results of secondary structure predicted that the main composition of 143 amino acid sequences was random curl and the tertiary structure of all the sequences were quite similar.The results of this investigation could definitely provide a significant foundation for further research on the function analysis of grapevine NAC gene family.
