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1.
念珠藻(Nostoc)固氮过程关键在于固氮酶的催化,而固氮酶复合物中的铁蛋白(NifH)是由高度保守的nifH基因编码的,该基因是进化史上现存最古老的功能基因之一。该研究选取念珠藻属及近缘类群的nifH基因序列共40条,采用最大似然法构建系统发育树;运行PAML4.9软件,对nifH基因编码蛋白进行生物信息学分析,并使用分支模型、位点模型和分支-位点模型检测该基因的选择位点,探讨nifH基因的适应性进化特征。结果表明:(1)最大似然树显示内类群中该研究物种共分为6个分支(A、B、C、D、E和F),其中D和E是2个大的分支,每个大分支中又各包含2个特殊的小分支A、F和B、C,其中F分支包含新疆古尔班通古特沙漠采集到的9株念珠藻,A分支包含F分支及该研究测定序列的4株葛仙米,B分支包含本研究测定序列的4株地皮菜和3株未定种的念珠藻,C分支包含NCBI数据库中下载的5株念珠藻、鱼腥藻序列和本研究测定序列的1株念珠藻。(2)在所分析的3种进化模型中,仅通过分支-位点模型检测出14个统计学上显著的正选择位点,即1F、2S、3S、4T、5A、6F、7F、8I、9S、10C、17I、27Y、29D和31R位点,表明念珠藻属植物的nifH基因发生了适应性变化,分支-位点模型是研究藻类基因适应性进化较好的模型。  相似文献   

2.
为探讨淡水红藻的叶绿体基因及其适应性进化特征,选取弯枝藻属(Compsopogon)及相近外类群的rbc L基因共17条,利用PAML 4.9软件,对弯枝藻属rbc L基因编码蛋白进行生物信息学分析,并分别采用分支模型、位点模型以及分支-位点模型对基因的选择位点进行检测。结果表明,弯枝藻属rbc L基因编码蛋白的二级结构主要由α螺旋和β折叠构成,结构稳定。采用最大似然法构建的系统发育树表明,内类群为单一物种,分为3个小分支,具有一定地理分布规律。在3种进化模型中均未检测到统计上显著的正选择位点,表明绝大多数位点处于负选择压力下。因此,弯枝藻属rbc L基因未发生适应性进化。  相似文献   

3.
为明确葛仙米(Nostoc sphaeroides)中血红素氧合酶(Heme oxygenase, HO)基因编码蛋白的分子进化地位和高级结构, 克隆该基因并进行原核细胞表达, 氨基酸序列比对与分子进化分析和Swiss-model高级结构模拟。结果显示: 葛仙米血红素氧合酶基因Ns-HO1密码区全长为678 bp, 预编码一含225个氨基酸的蛋白质; Ns-HO1与同源蛋白氨基酸相似性达90.3%, 存在少部分位点替换突变, 但底物血红素的预结合位点(如Arg10和Tyr125)及金属离子结合位点(His17)等关键位点的氨基酸保持稳定。 构建表达载体, 葛仙米Ns-HO1在大肠杆菌中成功诱导表达, SDS-PAGE检测目的蛋白大小近26.0 kD; 分子进化树分析显示Ns-HO1与普通念珠藻、发状念珠藻中同源蛋白聚类于同一分支, 并与点状念珠藻中同源蛋白具有共同祖先。Ns-HO1蛋白多肽链形成8个主要α-螺旋,其中N和C末端的两个α-螺旋与第四螺旋共同为Ns-HO1高级结构提供底面支撑, 其他螺旋围绕该底面进一步延展并充填其中, 形成Ns-HO1分子的类夹心式结构。在高级结构中, 含血红素预结合位点氨基酸的几个螺旋(第一、 五和七螺旋)位于Ns-HO1分子外围, 这些分支螺旋为形成Ns-HO1夹心空间以利于底物血红素锚定和产物及时释放提供了条件。总之, 研究为深入了解与运用葛仙米血红素氧合酶基因的生物学功能和资源提供了基础。  相似文献   

4.
该研究采用PCR技术,从发状念珠藻细胞中克隆了谷胱甘肽还原酶(glutathione reductase,GR)基因,命名为NfGR,其开放阅读框长1 374bp,编码458个氨基酸,蛋白相对分子量为49.42kD,理论等电点为5.49。氨基酸序列分析表明,NfGR蛋白具有NADPH结合位点超家族(NADB-Rossmann superfamily)和吡啶氧化还原酶二聚体超家族(Pyr_redox_dim superfamily)2个结构域,与点形念珠藻(Nostoc punctiforme)的相似性达93%。系统进化树分析表明,NfGR与点形念珠藻处在同一进化枝上,亲缘关系较近。qRT-PCR表达分析表明,在不同浓度PEG-6000处理下,NfGR基因均保持上调表达,其中,PEG-6000浓度为8%时,NfGR基因的相对表达量达到峰值(32.69)。研究推测,谷胱甘肽还原酶可能参与了发状念珠藻对干旱胁迫过程的响应。  相似文献   

5.
蕨类植物叶绿体rps4基因的适应性进化分析   总被引:2,自引:0,他引:2  
张丽君  陈洁  王艇 《植物研究》2010,30(1):42-50
在原核生物和植物叶绿体中,RPS4(ribosomal protein small subunit4)在核糖体30S小亚基形成起始过程中发挥重要作用;该蛋白在植物中由叶绿体rps4基因编码。为验证蕨类植物在白垩纪适应被子植物兴起而发生分化的观点,本文以23种蕨类植物为研究对象,利用分支模型、位点模型和分支位点模型对其叶绿体rps4基因进化适应性进行分析。分支模型检测到4个可能存在正选择的分支;位点模型和分支位点模型虽然没有检测出正选择位点,但是位点模型检测出了85个负选择位点。通过研究我们仅仅得出a、b两个代表水龙骨类的分支处于正选择压力下,这与水龙骨类在白垩纪发生辐射式演化的理论相一致。同时rps4基因处于强烈的负选择压力这一事实表明该基因的功能与结构已经趋于稳定。  相似文献   

6.
本研究以褐藻酸钠为唯一碳源,从广西茅尾海采集的海藻和海水样品中分离获得了10株高产褐藻胶裂解酶(Alginate lyase)的菌株,经过16S rDNA系统发育分析,初步确定这些菌株分别属于盐单胞菌属、假交替单胞菌属和弧菌属.为进一步了解褐藻胶裂解酶(ALG)功能基因的进化轨迹,本研究从GenBank收集了alg基因的同源序列.通过系统发育分析和极大似然分析,运行位点模型和分支位点模型进行了计算,确定该基因存在正选择现象.正选择进化分析结果表明4Y、16I、40N、61L、91T、99S、149L和154S为alg基因的正选择位点,提示环境选择压力促进了alg基因的进化.本研究为后续褐藻胶裂解酶定向诱变或残基的结构与功能之间的作用机制等相关研究提供重要的科学依据和理论支撑.  相似文献   

7.
蓝藻抗病毒蛋白-N(Cyanovirin-N,CV-N)具有广谱抗病毒活性,其同源物构成CVNH(Cyanovirin-N homology)蛋白家族,并且家族成员的抗人类免疫缺陷病毒结构域在进化上非常保守。文章通过重建基因树对CVNH结构域的"零散分布"特点作了更为细致的了解,发现在黑曲霉、费氏曲菌、产黄青霉、粗糙脉孢霉、蓝杆藻和水蕨等物种中存在多份该结构域拷贝。在此基础上,分别采用机理式模型(Mechanistic model)和MEC模型(Mechanistic-empirical combination model)对CVNH结构域序列位点进行适应性进化分析,结果显示:1)两类模型均未检测到统计上显著的正选择位点;2)净化选择对CVNH起主导作用;3)MEC模型更适合所研究的数据。进一步使用"支-特异"模型和"支-位点"模型对蓝杆菌菌株7822和7424的祖先分支进行检测,发现该分支经历过适应性进化,并且鉴定出6个正选择位点(34L、63L、13H、76C、78K和80I)。  相似文献   

8.
采用“放松分子钟”模型、氨基酸位点正选择模型和分子内共进化网络估算方法,对蕨类植物Ⅱ型内含子成熟酶蛋白K(Maturase K,MATK)编码基因matK的进化趋势进行研究。结果显示:matK基因在蕨类植物系统学研究中具有一定的应用价值,与rbcL基因和psaA基因联合后能显著提升系统发育树的可信度;蕨类植物MATK蛋白中存在少数曾经历正选择的位点;MATK蛋白内部有多对氨基酸位点共同构成共进化网络。在被子植物兴起环境改变后,MATK蛋白部分位点发生适应性进化,通过位点间共进化网络协同作用方式提升蕨类植物对新光合环境的适应能力。  相似文献   

9.
裸子植物psbA基因分子进化式样的研究   总被引:1,自引:0,他引:1  
为阐明裸子植物对陆生生境生态响应的分子机制,以新近的裸子植物分类系统为指导,基于psb A基因编码全序列对4亚纲53种代表植物进行分子进化分析。首先,依据"放松分子钟"模型重建裸子植物在时间尺度下系统发育关系;其次,采用6个模型(MEC/JTT、MEC/cp REV、M5、M7、M8、M8a)估测氨基酸位点ω值,并对各模型结果进行统计检测;随后,利用Bootstrap方法检PSBA蛋白内部氨基酸位点的共进化动态。结果表明,系统树提示的物种分化历程支持前期分类结果;光合系统反应中心核心PSBA蛋白有3个氨基酸位点(13、19和243)曾经受正选择压力;PSBA蛋白内部有多对氨基酸位点间构成了共进化网络。因此,psb A基因编码序列具有作为描绘裸子植物系统发育关系标记的潜力,PSBA蛋白部分位点经历了适应性进化,通过位点间共进化网络协同作用方式辅助裸子植物响应陆生生境。  相似文献   

10.
裸子植物中光敏色素PHY-PAS1 结构域的适应性进化   总被引:1,自引:0,他引:1  
王静  王艇  苏应娟  森林  张冰  杨永霞 《植物学报》2009,44(5):608-618
光敏色素是一类红光/远红光受体, 在植物种子萌发到成熟的整个生长发育过程中均起重要的调节作用。光敏色素PHYPAS1 结构域存在于光敏色素基因家族的所有成员中, 对调节发色团的光谱特性和光信号转导非常关键。光敏色素基因家族通过基因重复产生, 而基因重复可能与物种形成有关。PHYP基因是裸子植物光敏色素基因家族发生第1次重复后产生的, 并且以单拷贝形式存在。为了研究不同裸子植物PHYP基因编码蛋白的PHY-PAS1结构域在进化过程中是否受到相同的选择压力以及是否发生了适应性进化, 该研究利用分支模型、位点模型以及分支-位点模型对裸子植物31条PHYP基因序列编码蛋白的PHY-PAS1结构域所受到的选择压力进行了分析。结果表明, 在由PHY-PAS1结构域序列构建的系统树中, 多数分支处于强烈的负选择压力下 (w<1); 有14个分支处于正选择压力下 (w>1), 其中13个分支发生在属内种间; 与之相比, 在较为古老的谱系中相对缺少这种正选择压力。  相似文献   

11.
12.
Khan MM  Rydén AM  Chowdhury MS  Hasan MA  Kazi JU 《Gene》2011,483(1-2):29-35
The tumor suppressor gene TP53 (p53) maintains genome stability. Mutation or loss of p53 is found in most cancers. Analysis of evolutionary constrains and p53 mutations reveal important sites for concomitant functional studies. In this study, phylogenetic analyses of the coding sequences of p53 from 26 mammals were carried out by applying a maximum likelihood method. The results display two branches under adaptive evolution in mammals. Moreover, each codon of p53 was analyzed by the PAML method for presence of positively selected sites. PAML identified several statistically significant amino acids that undergo positive selection. The data indicates that amino acids responsible for the core functions of p53 are highly conserved, while positively selected sites are predominantly located in the N- and C-terminus of p53. Further analysis of evolutionary pressure and mutations showed the occurrence of more frequent tumorigenic mutations in purifying sites of p53.  相似文献   

13.
14.
We examined the distribution of synonymous and non-synonymous changes in 12 protein-coding genes of natural populations of cyanobacteria to infer changes in gene functionality. By comparing mutation distributions within and across species using the McDonald-Kreitman test, we found data sets to contain evidence for purifying selection (hetR of Trichodesmium, nifH of Cylindrospermopsis raceborskii and rpoC1 of Anabaena lemmermannii) and positive selection (kaiC of Microcoleus chthonoplastes and rbcX of Anabaena and Aphanizomenon sp.). Other genes from the same set of clonal isolates (petB and rbcL in M. chthonoplastes and Anabaena/Aphanizomenon, respectively) did not harbour evidence for either form of selection. The results of branch models of codon evolution agreed fully with the results of the McDonald-Kreitman test in terms of significance and absolute value of the dN/dS estimates. The high frequency of gene-specific mutation patterns and their association with branches that separate closely related cyanobacterial genera suggest that evolutionary tests are suited to uncover gene-specific selective differentiation in cyanobacterial genomes. At the same time, given the lack of information about the history of cyanobacteria, analysis of larger numbers of protein-coding genes of clonal cyanobacterial isolates will produce more detailed pictures of the effects of natural selection.  相似文献   

15.
D2蛋白是植物光系统Ⅱ复合体(PSⅡ)核心蛋白之一,由叶绿体psbD基因编码。为了深入理解核心薄囊蕨类植物在阴生环境下的“辐射”式演化,我们对12种蕨类植物的psbD基因进行了克隆和测序,然后联合已公布的其他8种蕨类植物的psbD序列,基于ω值(非同义替换率ds和同义替换率ds的比值)探讨了该基因经受的选择压力。发现D2蛋白在大多数分支和位点受到强烈的负选择,但是树蕨类分支的psbD进化速率低且ω值较高。借助多种模型进行的共进化分析显示,树蕨类D2蛋白的168R、245H和272M两两组成具有共进化关系的氨基酸位点对。  相似文献   

16.
Suzuki Y 《Gene》2008,427(1-2):111-116
It has been proposed that antigenic evolution of hemagglutinin 1 (HA1) for H3N2 human influenza A virus was punctuated. In the population genetic analysis, however, it was controversial whether positive selection operated on HA1 in a punctuated manner for the branches of the phylogenetic tree where transitions to new antigenic clusters occurred (C branches), or continuously. In the molecular evolutionary analysis, positive selection was detected for the trunk (T) branches but the relationship between antigenic evolution and positive selection was unclear. Here molecular evolutionary analysis was conducted to examine natural selection operating on HA1 of H3N2 human influenza A virus by dividing HA1 into epitopes A-E and other sites, as well as dividing the phylogenetic tree into the C branches overlapping with the T branches (C-T branches), those not overlapping with the T branches (C-NT branches), the T branches not overlapping with the C branches (NC-T branches), and other branches (NC-NT branches). Positive selection was detected for C, T, and NC-T branches, whereas evolution for the NC-NT branches appeared to be mainly neutral. Positive selection appeared to have operated throughout the trunk, which covered the entire time period of the phylogenetic tree, suggesting that positive selection operated continuously on HA1 during evolution of H3N2 human influenza A virus.  相似文献   

17.
The nonsynonymous (amino acid-altering) to synonymous (silent) substitution rate ratio (omega = d(N)/d(S)) provides a measure of natural selection at the protein level, with omega = 1, >1, and <1, indicating neutral evolution, purifying selection, and positive selection, respectively. Previous studies that used this measure to detect positive selection have often taken an approach of pairwise comparison, estimating substitution rates by averaging over all sites in the protein. As most amino acids in a functional protein are under structural and functional constraints and adaptive evolution probably affects only a few sites at a few time points, this approach of averaging rates over sites and over time has little power. Previously, we developed codon-based substitution models that allow the omega ratio to vary either among lineages or among sites. In this paper we extend previous models to allow the omega ratio to vary both among sites and among lineages and implement the new models in the likelihood framework. These models may be useful for identifying positive selection along prespecified lineages that affects only a few sites in the protein. We apply those branch-site models as well as previous branch- and site-specific models to three data sets: the lysozyme genes from primates, the tumor suppressor BRCA1 genes from primates, and the phytochrome (PHY) gene family in angiosperms. Positive selection is detected in the lysozyme and BRCA genes by both the new and the old models. However, only the new models detected positive selection acting on lineages after gene duplication in the PHY gene family. Additional tests on several data sets suggest that the new models may be useful in detecting positive selection after gene duplication in gene family evolution.  相似文献   

18.
The study of genetic evolution within the context of adaptive radiations offers insights to genes and selection pressures that result in rapid morphological change. Cichlid fishes are very species-rich and variable in coloration, behavior, and morphology, and so provide a classical model system for studying the genetics of adaptive radiation. In this study, we researched the evolution of the epithelial cell adhesion molecule (EPCAM), a candidate gene for the adaptive evolution of morphology broadly, and skin development specifically, in fishes. We compared EPCAM gene sequences from a rapidly speciating African cichlid lineage (the haplochromines), a species-poor African lineage (Nile tilapia Oreochromis niloticus), and a very young adaptive radiation in the Neotropics (sympatric crater lake Midas cichlids, Amphilophus sp.). Our results, based on a hierarchy of evolutionary analyses of nucleotide substitution, demonstrate that there are different selection pressures on the EPCAM gene among the cichlid lineages. Several waves of positive natural selection were identified not only on the terminal branches, but also on ancestral branches. Interestingly, significant positive or directional selection was found in the haplochromine cichlids only but not the comparatively species-poor tilapia lineage. We hypothesize that the strong signal of selection in the ancestral African cichlid lineage coincided with the transition from riverine to lacustrine habitat. The two neotropical species for which we collected new sequence data were invariant in the EPCAM locus. Our results suggest that functional changes promoted by positive Darwinian selection are widespread in the EPCAM gene during African cichlid evolution.  相似文献   

19.
To research the adaptive evolution and coevolution of the rbcL gene in the genus Galdieria, 36 sequences were selected. The bioinformatics of proteins encoded by rbcL genes of Galdieria were analyzed, and phylogenetic trees were constructed by the maximum-likelihood method. Then, adaptive evolution and coevolution were analyzed. The phylogenetic tree showed that the inner groups were clustered into four branches, in which the sequences of Galdieria maxima were divided into two small branches, and the posterior probability of each branch is above 94.9%. Eleven reliable positive selection sites were detected in the branched-site model, indicating that the rbcL protein-coding gene of Galdieria underwent adaptive evolution to adapt to extreme environments. Site 269 F is located in the loop 6 domain, while sites 272 D and 273 W are located in the 6-helix structure. Many coevolution pairs were detected, which were closely related to the hydrophobic and molecular weight correlation values of amino acids. The results are helpful to research the evolution process of freshwater red algae, to explore the changes of its essential genes and protein functions to adapt to different environmental pressures, and to understand the close relationship between amino acids in proteins and the molecular mechanism of evolution.  相似文献   

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