两种梧桐叶绿体基因组密码子使用偏性分析

为了分析美丽梧桐、云南梧桐叶绿体基因组密码子的使用偏性,该研究通过筛选美丽梧桐、云南梧桐叶绿体基因组中各52条蛋白编码序列,并利用CodonW、CUSP和SPSS软件对其密码子使用模式及偏性进行了分析。结果表明:(1)美丽梧桐、云南梧桐的GC含量分别为38.12%、38.05%,表明叶绿体基因组内富含A/T碱基。(2)有效密码子数(ENC)范围为36.91～56.46、36.55～58.04,表明多数密码子偏性较弱。(3)相对同义密码子(RSCU)分析显示,RSCU1的密码子各有29个,其中28个以A、U结尾。(4)中性绘图显示,GC_3与GC_(12)的相关性不显著,回归曲线斜率分别为0.195和0.304,说明密码子偏好性主要受到自然选择的影响。(5) ENC-plot分析中大部分基因分布于曲线的周围和下方,ENC比值多分布于-0.04～0.10之间,表明突变会影响密码子偏性的形成。此外,17、18个密码子分别被鉴定为美丽梧桐、云南梧桐的最优密码子。以上结果说明美丽梧桐、云南梧桐叶绿体基因组的密码子使用偏性可能受选择和突变共同作用,且使用模式较为相似,但具有一定的差异,可能与适应环境的进化机制有关。     

紫九牛叶绿体基因组密码子偏好性分析

为确定瑶药紫九牛叶绿体基因组密码子的使用模式及其成因,该研究以紫九牛叶绿体基因组50条蛋白质编码序列为研究对象,利用Codon W 1.4.2和在线软件CUSP和Chips分析其密码子偏好性。结果表明：(1)RSCU>1的密码子有29个,其中有28个以A/U结尾,说明叶绿体基因组的同义密码子中偏好以A/U结尾。(2)紫九牛叶绿体基因组密码子的GC含量GC₁(47.38%)>GC₂(39.81%)>GC₃(29.60%),ENC值大于45的有40个,说明紫九牛叶绿体基因组存在较弱的偏性。(3)中性绘图分析和ENC-plot分析说明了紫九牛叶绿体基因组密码子的偏好性既受到选择的作用,又受到突变因素的影响。(4)通过构建的高低基因表达库最终确定了15个最优密码子,分别为UUG、AUU、GUU、GUA、UCU、 CCU、ACU、ACA、GCU、CAA、AAC、GAA、UGU、CGU和GGU。该研究为紫九牛叶绿体基因组的确定以及遗传多样性分析提供了依据。     

樟树叶绿体基因组密码子偏好性分析

为分析樟树(Cinnamomum camphora)叶绿体基因组密码子偏好性使用模式,该研究利用CodonW、EMBOSS、R语言等软件和程序,对53条樟树叶绿体基因组密码子使用模式及偏好性进行了系统分析。结果表明:樟树叶绿体基因的有效密码子数(ENC)在36.82～59.30之间,表明密码子的偏好性较弱。相对同义密码子使用度(RSCU)分析发现RSCU>1的密码子有32个,其中28个以A、U结尾,表明第3位密码子偏好使用A和U碱基。中性绘图分析发现GC₃与GC₁₂的相关性不显著,回归曲线斜率为0.049,说明密码子偏好性主要受到自然选择的影响。ENC-plot分析发现大部分基因落在曲线的下方,同样表明选择是影响密码子偏好性的主要因素。该研究发现共有9个密码子(UUU、CUU、UCA、ACA、UAU、AAU、GAU、UGA、GGA)被鉴定为樟树叶绿体基因组的最优密码子。     

Codon bias and gene expression of mitochondrial ND2 gene in chordates

Background: Mitochondrial ND gene, which encodes NADH dehydrogenase, is the first enzyme of the mitochondrial electron transport chain. Leigh syndrome, a neurodegenerative disease caused by mutation in the ND2 gene (T4681C), is associated with bilateral symmetric lesions in basal ganglia and subcortical brain regions. Therefore, it is of interest to analyze mitochondrial DNA to glean information for evolutionary relationship. This study highlights on the analysis of compositional dynamics and selection pressure in shaping the codon usage patterns in the coding sequence of MT-ND2 gene across pisces, aves and mammals by using bioinformatics tools like effective number of codons (ENC), codon adaptation index (CAI), relative synonymous codon usage (RSCU) etc. Results: We observed a low codon usage bias as reflected by high ENC values in MT-ND2 gene among pisces, aves and mammals. The most frequently used codons were ending with A/C at the 3^rd position of codon and the gene was AT rich in all the three classes. The codons TCA, CTA, CGA and TGA were over represented in all three classes. The F1 correspondence showed significant positive correlation with G, T3 and CAI while the F2 axis showed significant negative correlation with A and T but significant positive correlation with G, C, G3, C3, ENC, GC, GC1, GC2 and GC3. Conclusions: The codon usage bias in MTND2 gene is not associated with expression level. Mutation pressure and natural selection affect the codon usage pattern in MT-ND 2 gene.     

杜仲基因密码子使用模式分析

为了解杜仲基因密码子使用模式,该文以杜仲基因组密码子为研究对象,运用CodonW软件对杜仲的320个蛋白编码基因进行同义密码子相对使用频率(RSCU)分析、ENC-GC3s关联分析编码基因的密码子ENC值、PR2-plot偏倚分析编码基因的密码子碱基使用频率,并运用CUSP软件与Codon Usage Database...     

Synonymous codon usage in different protein secondary structural classes of human genes: Implication for increased non-randomness of GC<Subscript>3</Subscript> rich genes towards protein stability

The relationship between the synonymous codon usage and different protein secondary structural classes were investigated using 401 Homo sapiens proteins extracted from Protein Data Bank (PDB). A simple Chi-square test was used to assess the significance of deviation of the observed and expected frequencies of 59 codons at the level of individual synonymous families in the four different protein secondary structural classes. It was observed that synonymous codon families show non-randomness in codon usage in four different secondary structural classes. However, when the genes were classified according to their GC₃ levels there was an increase in non-randomness in high GC₃ group of genes. The non-randomness in codon usage was further tested among the same protein secondary structures belonging to four different protein folding classes of high GC₃ group of genes. The results show that in each of the protein secondary structural unit there exist some synonymous family that shows class specific codon-usage pattern. Moreover, there is an increased non-random behaviour of synonymous codons in sheet structure of all secondary structural classes in high GC₃ group of genes. Biological implications of these results have been discussed.     

紫花苜蓿叶绿体基因组密码子偏好性分析

为分析紫花苜蓿叶绿体基因组密码子偏好性的使用模式,该文以紫花苜蓿叶绿体基因组中筛选到的49条蛋白质编码序列为研究对象,利用CodonW、CUSP、CHIPS、SPSS等软件对其密码子的使用模式和偏好性进行研究。结果表明:(1)紫花苜蓿叶绿体基因的第3位密码子的平均GC含量为26.44%,有效密码子数(ENC)在40.6～51.41之间,多数密码子的偏好性较弱。(2)相对同义密码子使用度(RSCU)分析发现,RSCU>1 的密码子数目有30个,以A、U结尾的有29个,说明了紫花苜蓿叶绿体基因组A或U出现的频率较高。(3)中性分析发现,GC3与 GC12的相关性不显著,表明密码子偏性主要受自然选择的影响; ENC-plot 分析发现一部分基因落在曲线的下方及周围,表明突变也影响了部分密码子偏性的形成。此外,有17个密码子被鉴定为紫花苜蓿叶绿体基因组的最优密码子。紫花苜蓿叶绿体基因组的密码子偏好性可能受自然选择和突变的共同作用。该研究将为紫花苜蓿叶绿体基因工程的开展和目标性状的遗传改良奠定基础。     

Comparative genome sequence analysis of Sulfolobus acidocaldarius and 9 other isolates of its genus for factors influencing codon and amino acid usage

In the present study, major constraints for codon and amino acid usage of Sulfolobus acidocaldarius, Sulfolobus solfataricus, Sulfolobus tokodali, Sulfolobus islandis and 6 other isolates from islandicus species of genus Sulfolobus were investigated. Correspondence analysis revealed high significant correlation between the major trend of synonymous codon usage and gene expression level, as assessed by the “Codon Adaptation Index” (CAI). There is a significant negative correlation between Nc (Effective number of codons) and CAI demonstrating role of codon bias as an important determinant of codon usage. The significant correlation between major trend of synonymous codon usage and GC3s (G + C at third synonymous position) indicated dominant role of mutational bias in codon usage pattern. The result was further supported from SCUO (synonymous codon usage order) analysis. The amino acid usage was found to be significantly influenced by aromaticity and hydrophobicity of proteins. However, translational selection which causes a preference for codons that are most rapidly translated by current tRNA with multiple copy numbers was not found to be highly dominating for all studied isolates. Notably, 26 codons that were found to be optimally used by genes of S. acidocaldarius at higher expression level and its comparative analysis with 9 other isolates may provide some useful clues for further in vivo genetic studies on this genus.     

沙枣叶绿体全基因组序列及其使用密码子偏性分析

该研究以2株野生沙枣(Elaeagnus angustifolia Linn.)嫩枝经温室水培后的嫩叶为材料,采用CTAB法分别提取总DNA,并利用第二代测序技术进行总DNA从头测序,组装后得到2株沙枣叶绿体基因组全序列,并详细分析了其蛋白质编码基因密码子使用的偏好性及其原因,为沙枣叶绿体基因工程和分子系统进化等研究奠定基础。结果显示:(1)组装得到沙枣叶绿体基因组序列全长150 546 bp,由长度为81 113 bp的长单拷贝(LSC)区域和25 494 bp的短单拷贝(SSC)区域,以及1对分隔开它们的长18 445 bp的反向重复序列(IRS)组成;注释共得到132个基因,包括86个蛋白编码基因、38个tRNA基因和8个rRNA基因。(2)沙枣叶绿体基因组蛋白编码基因密码子的第三位碱基GC含量(GC_3)为28.47%,明显低于整个叶绿体基因组GC含量(37%),也低于第一位(GC_1)和第二位(GC_2)碱基的GC含量,说明密码子对AT碱基结尾有偏好性;其中, UCU、CCU、UGU、GCU、CUU、GAU、UCA和UAA为最优密码子。(3)同义密码子相对使用频率(RSCU)分析发现,影响密码子使用模式的因素并不单一,密码子的偏好性受到突变、选择及其他因素的共同影响,并且自然选择表达引起的序列差异比突变对密码子偏好性的影响要显著;中性绘图分析、有效密码子数(ENC-plot)分析和奇偶偏好性(PR2-plot)分析表明,沙枣叶绿体基因组使用密码子的偏性受选择的影响更大。(4)通过最大似然法、最大简约法和贝叶斯方法对胡颓子科6个物种和1个枣的叶绿体基因序列构建系统发育树,与它们使用密码子偏性聚类的结果一致,表明叶绿体基因组使用密码子偏性与物种的亲缘关系相关。     

槲蕨属叶绿体基因组密码子偏好性分析

叶绿体基因组密码子偏好性使用模式往往影响基因表达效率,为促进药用植物叶绿体基因工程的发展,提高槲蕨药用品质,该研究以川滇槲蕨、栎叶槲蕨和槲蕨三个近缘药用植物为材料,使用CodonW、CUSP和SPSS等软件分析其叶绿体基因组编码基因密码子使用偏好性,筛选出三个物种的最优密码子.结果表明:川滇槲蕨、栎叶槲蕨和槲蕨叶绿体基...     

普通油茶叶绿体基因组密码子偏好性分析

为了利用叶绿体基因工程技术改良普通油茶的重要经济性状,该研究以普通油茶叶绿体全基因组序列为材料,从中筛选出51条长度大于300 bp且以ATG起始的非重复CDS(Coding DNA Sequence)为对象,利用CodonW软件分析其密码子偏好性。结果表明:密码子第三位GC含量为27.55%,ENC范围在35.23~56.67之间,平均值为46.09;RSCU值大于1.00的密码子数目为30个,其中29个第三位碱基以U或A结尾;中性绘图表明GC12与GC3的相关系数为0.143,相关性不显著,回归系数为0.0573;频数分布显示,55%基因的ENC比值集中分布在0~0.1,25%基因的ENC比值分布在0.1~0.2之间;对应分析结果表明,第一向量轴占10.12%的差异,第二向量轴占9.36%的差异,其余两轴分别占7.97%和7.46%,前4轴累计差异为34.91%。中性绘图、ENC-plot和对应性分析均表明普通油茶叶绿体基因密码子偏好受突变作用,更多受选择的影响。最终取高表达优越密码子和高频密码子共有的CUU、AUU、GUU、GUA、UAA、CAA、AAA、GAC、GAA、CCU、ACU、GCU、GCA、UGU、CGU、AGU、UUG、GGU等18个密码子作为最优密码子。该研究结果为利用叶绿体基因工程技术改良普通油茶重要经济性状奠定了基础。     

Stress induced MAPK genes show distinct pattern of codon usage in Arabidopsis thaliana,Glycine max and Oryza sativa

Mitogen activated protein kinase (MAPK) genes provide resistance to various biotic and abiotic stresses. Codon usage profiling of the genes reveals the characteristic features of the genes like nucleotide composition, gene expressivity, optimal codons etc. The present study is a comparative analysis of codon usage patterns for different MAPK genes in three organisms, viz. Arabidopsis thaliana, Glycine max (soybean) and Oryza sativa (rice). The study has revealed a high AT content in MAPK genes of Arabidopsis and soybean whereas in rice a balanced AT-GC content at the third synonymous position of codon. The genes show a low bias in codon usage profile as reflected in the higher values (50.83 to 56.55) of effective number of codons (N_c). The prediction of gene expression profile in the MAPK genes revealed that these genes might be under the selective pressure of translational optimization as reflected in the low codon adaptation index (CAI) values ranging from 0.147 to 0.208.     

Codon usage patterns and adaptive evolution of marine unicellular cyanobacteria Synechococcus and Prochlorococcus

Marine unicellular cyanobacteria, represented by Synechococcus and Prochlorococcus, dominate the total phytoplankton biomass and production in oligotrophic ocean. In this study, we employed comparative genomics approaches to extensively investigate synonymous codon usage bias and evolutionary rates in a large number of closely related species of marine unicellular cyanobacteria. Although these two groups of marine cyanobacteria have a close phylogenetic relationship, we find that they are highly divergent not only in codon usage patterns but also in the driving forces behind the diversification. It is revealed that in Prochlorococcus, mutation and genome compositional constraints are the main forces contributing to codon usage bias, whereas in Synechococcus, translational selection. In addition, nucleotide substitution rate analysis indicates that they are not evolving at a constant rate after the divergence and that the average d_N/d_S values of core genes in Synechococcus are significantly higher than those in Prochlorococcus. Our evolutionary genomic analysis provides the first insight into codon usage, evolutionary genetic mechanisms and environmental adaptation of Synechococcus and Prochlorococcus after divergence.     

Analysis of synonymous codon usage patterns of HPRT1 gene across twelve mammalian species

Genetic changes in Hypoxanthine guanine phosphoribosyltransferace (HPRT1) gene can alter the expression of the dopamine neurotransmitter leads to abnormal neuron function, a disease called Lesch-Nyhan syndrome (LNS). Although different studies were conducted on LNS, information on codon usage bias (CUB) of HPRT1 gene is limited. The present study examines the genetic determinants of CUB in HPRT1 gene using twelve mammalian species. In the coding sequence of HPRT1 genes, A/T ending codons was most frequently used. A higher ENC value was observed indicating lower HPRT1 gene expression in the selected mammalian species. Correlation analysis indicates that compositional constraints under mutation pressure can involve in CUB of HPRT1 genes among the selected mammalian species. Relative synonymous codon usage (RSCU) value revealed that the codons such as ACT, AGG, ATT and AGC were over-represented in each of the mammalian species. Result from the analysis of the RSCU indicates that compositional constraint is a key driver for the variation in codon usage. Ratio of nonsynonymous (dN) and synonymous (dS) substitution further suggested that purifying selection occurs among the HPRT1 gene of studied mammals to maintain its protein function under the process of evolution. Our findings report an insight into the codon usage patterns of HPRT1 gene and will be useful for LNS management.     

澳洲坚果光壳种叶绿体基因组的密码子使用偏好性及其影响因素分析

为确定澳洲坚果光壳种(Macadamia integrifolia Maiden&Betche)叶绿体基因组密码子偏好性形成的主要影响因素,本研究通过其叶绿体基因组的51条蛋白编码序列,系统分析其密码子的使用模式及其特征.密码子偏好性参数分析结果显示,叶绿体基因密码子3位碱基的GC含量次序为GC1>GC2>GC3;有效...     

Synonymous codon usage in Thermosynechococcus elongatus (cyanobacteria) identifies the factors shaping codon usage variation

Analysis of synonymous codon usage pattern in the genome of a thermophilic cyanobacterium, Thermosynechococcus elongatus BP-1 using multivariate statistical analysis revealed a single major explanatory axis accounting for codon usage variation in the organism. This axis is correlated with the GC content at third base of synonymous codons (GC3s) in correspondence analysis taking T. elongatus genes. A negative correlation was observed between effective number of codons i.e. Nc and GC3s. Results suggested a mutational bias as the major factor in shaping codon usage in this cyanobacterium. In comparison to the lowly expressed genes, highly expressed genes of this organism possess significantly higher proportion of pyrimidine-ending codons suggesting that besides, mutational bias, translational selection also influenced codon usage variation in T. elongatus. Correspondence analysis of relative synonymous codon usage (RSCU) with A, T, G, C at third positions (A3s, T3s, G3s, C3s, respectively) also supported this fact and expression levels of genes and gene length also influenced codon usage. A role of translational accuracy was identified in dictating the codon usage variation of this genome. Results indicated that although mutational bias is the major factor in shaping codon usage in T. elongatus, factors like translational selection, translational accuracy and gene expression level also influenced codon usage variation.     

Synonymous Codon Usage,GC<Subscript>3</Subscript>, and Evolutionary Patterns Across Plastomes of Three Pooid Model Species: Emerging Grass Genome Models for Monocots

We have analyzed factors affecting the codon usage pattern of the chloroplasts genomes of representative species of pooid grass family. Correspondence analysis of relative synonymous codon usages (RSCU) showed that genes on secondary axis were correlated with their GC_3S values (all r > 0.3, p < 0.05), indicating mutational bias as an important selective force that shaped the variation in the codon usage among chloroplast genes. The Nc-plot showed that although a majority of the points with low-Nc values were lying below the expected curve, a few genes lied on the expected curve. Nc plot clearly showed that mutational bias plays a major role in codon biology across the monocot plastomes. The hydrophobicity and aromaticity of encoded proteins of each species were found to be other factors of codon usage variation. In the view of above light, besides natural selection, several other factors also likely to be involved in determining the selective constraints on codon bias in plastomes of pooid grass genomes. In addition, five codons (B. distachyon), seven codons (H. vulgare), and four codons (T. aestivum) were identified as optimal codons of the three grass chloroplasts. To identify genes evolving under positive selection, rates of nonsynonymous substitutions (Ka) and synonymous substitutions (Ks) were computed for all groups of orthologous gene pairs.     

Comparative studies on codon usage pattern of chloroplasts and their host nuclear genes in four plant species

A detailed comparison was made of codon usage of chloroplast genes with their host (nuclear) genes in the four angiosperm speciesOryza sativa, Zea mays, Triticum aestivum andArabidopsis thaliana. The average GC content of the entire genes, and at the three codon positions individually, was higher in nuclear than in chloroplast genes, suggesting different genomic organization and mutation pressures in nuclear and chloroplast genes. The results of Nc-plots and neutrality plots suggested that nucleotide compositional constraint had a large contribution to codon usage bias of nuclear genes inO. sativa, Z. mays, andT. aestivum, whereas natural selection was likely to be playing a large role in codon usage bias in chloroplast genomes. Correspondence analysis and chi-test showed that regardless of the genomic environment (species) of the host, the codon usage pattern of chloroplast genes differed from nuclear genes of their host species by their AU-richness. All the chloroplast genomes have predominantly A- and/or U-ending codons, whereas nuclear genomes have G-, C- or U-ending codons as their optimal codons. These findings suggest that the chloroplast genome might display particular characteristics of codon usage that are different from its host nuclear genome. However, one feature common to both chloroplast and nuclear genomes in this study was that pyrimidines were found more frequently than purines at the synonymous codon position of optimal codons.     

Selection on the codon bias ofChlamydomonas reinhardtii chloroplast genes and the plantpsbA gene

Plant chloroplast genes have a codon use that reflects the genome compositional bias of a high A+T content with the single exception of the highly translatedpsbA gene which codes for the photosystem II D1 protein. The codon usage of plantpsbA corresponds more closely to the limited tRNA population of the chloroplast and is very similar to the codon use observed in the chloroplast genes of the green algaChlamydomonas reinhardtii. This pattern of codon use may be an adaptation for increased translation efficiency. A correspondence between codon use of plantpsbA andChlamydomonas chloroplast genes and the tRNAs coded by the chloroplast genome, however, is not observed in all synonymous codon groups. It is shown here that the degree of correspondence between codon use and tRNA population in different synonymous groups is correlated with the second codon position composition. Synonymous groups with an A or T at the second codon position have a high representation of codons for which a complementary tRNA is coded by the chloroplast genome. Those with a G or C at the second position have an increased representation of codons that bind a chloroplast tRNA by wobble. It is proposed that the difference between synonymous groups in terms of codon adaptation to the tRNA population in plantpsbA andChlamydomonas chloroplast genes may be the result of differences in second position composition.