痘苗病毒基因组密码子使用频率分析

密码子使用的差别是普遍存在的现象,每一个密码子被某些生物偏爱,而在另一些生物中则很少使用.以往这方面的研究多集中在自养生物中,而对纯寄生的病毒本身及其与宿主细胞基因密码子使用频率关系的研究则很少.分析痘苗病毒哥本哈根株189个基因的密码子使用频率发现:总体上痘苗病毒偏爱使用以A/U为结尾的密码子;基因的异质性不强,没有影响密码子使用的主要趋势;在不同转录方向上和表达时相上,基因密码子使用略有不同;不同功能的基因其密码子使用上差别较大;晚期基因比早期基因与宿主密码子使用频率的差别大.上述结果表明:密码子是影响病毒和细胞相互作用、保证其自身生存的重要机制.     

霍乱弧菌噬菌体VP2基因组序列的测定与分析

测定并分析了霍乱弧菌噬菌体VP2基因组序列,为VP2生物学特性和功能研究提供分子遗传学基础。为此构建了VP2DNA随机文库,鸟枪法(shot-gun)测定其全基因组序列。测序结果用软件Phrad-Prap拼接成最小重叠群(contig),引物步移法测定contigs问的缝隙(gap)序列,拼接后获得VP2全基因组序列。利用生物信息学技术分析’VP2基因组,最后对VP2和相关噬菌体做DNA聚合酶(DNA pol)基因的进化树分析。结果：VP2属短尾噬菌体科,基因组全长39853bp,为环状双链DNA,G C含量为50．56％,较高于霍乱弧菌测序菌株N16961基因组G C含量;VP2的基因组有碱基使用偏性;预测和注释了45个开放读码框(ORF),分析了DNA复制基因、衣壳蛋白和DNA包装基因、侵染相关基因。DNA pol进化树比较结果,VP2与链球菌噬菌体Cp-1和芽孢杆菌噬菌体GA-1分为一群。根据对VP2基因组序列的测定和分析预测了VP2的ORF,并分析了其中的功能基因,推测VP2在进化关系上属于噬菌体phi29样噬菌体。     

鲨烯合酶基因的密码子偏性分析

为了分析鲨烯合酶(squalene synthase, SS)基因密码子的使用方式及其影响因素,利用codon W和SPSS 16.0软件对47条来自不同物种的SS基因进行多元统计分析、对应性分析.SS基因密码子1~3位碱基的GC含量(GC1, GC2和GC3)依次为51.33%、34.65%和54.37%,3个位点的GC含量均呈极显著相关关系(p<0.01),对应性分析的结果表明,第1轴显示30.71%的差异,有效密码子数和GC3、GC1和GC2的均值与GC3之间的相关性均达极显著水平(p<0.01).筛选出的26个最优密码子的第3位碱基均为G或C.以MEGA 5.0构建的基于SS蛋白质序列的进化树比基于RSCU的聚类更符合传统的系统发育观点.SS基因密码子偏好以G/C结尾,使用模式受选择和突变影响,突变对密码子偏好影响较大.     

思茅松叶绿体基因组密码子偏好性分析

密码子偏好性(codon usage bias)是指同义密码子的使用频率不同的现象,该现象广泛存在于植物中.本研究利用Codon W 1.4.2和CUSP软件分析思茅松(Pinus kesiya var.langbianensis)叶绿体基因组的45条CDS,结果显示思茅松叶绿体基因组密码子第三位碱基的GC含量为29.63％,偏好以AT碱基结尾;ENC值在37.66～60.30之间,且ENC值＞45的CDS有37个,占总参试基因的82.22％;GC1、GC2、GC3与GCall均为极显著相关,GC3与ENC呈显著相关.中性绘图分析显示GC12和GC3的相关系数为-0.1114,回归系数为-0.1111;ENC-plot软件分析显示大部分基因与标准曲线的距离较远;PR2-plot软件分析显示思茅松叶绿体基因组在密码子的碱基使用频率方面,T＞A,G＞C.这些说明思茅松叶绿体基因密码子偏好性的主要影响因素为选择,突变的作用较小.本研究为思茅松种源选择、系统发育等研究提供科学依据.     

Codon Usage in Giardia lamblia

ABSTRACT A codon usage table for the intestinal parasite Giardia lamblia was generated by analysis of the nucleotide sequences of eight genes comprising 3,135 codons. Codon usage revealed a biased use of synonomous codons with a preference for NNC codons (42.1%). The codon usage of G. lamblia more closely resembles that of the prokaryote Halobacterium halobium (correlation coefficient r = 0.73) rather than that of other eukaryotic protozoans, i.e. Trypanosoma brucei ( r = 0.434) and Plasmodium falciparum ( r =–0.31). These observations are consistent with the view that G. lamblia represents the first line of descent from the ancestral cells that first took on eukaryotic features.     

The Effect of Multiple Evolutionary Selections on Synonymous Codon Usage of Genes in the Mycoplasma bovis Genome

Mycoplasma bovis is a major pathogen causing arthritis, respiratory disease and mastitis in cattle. A better understanding of its genetic features and evolution might represent evidences of surviving host environments. In this study, multiple factors influencing synonymous codon usage patterns in M. bovis (three strains’ genomes) were analyzed. The overall nucleotide content of genes in the M. bovis genome is AT-rich. Although the G and C contents at the third codon position of genes in the leading strand differ from those in the lagging strand (p<0.05), the 59 synonymous codon usage patterns of genes in the leading strand are highly similar to those in the lagging strand. The over-represented codons and the under-represented codons were identified. A comparison of the synonymous codon usage pattern of M. bovis and cattle (susceptible host) indicated the independent formation of synonymous codon usage of M. bovis. Principal component analysis revealed that (i) strand-specific mutational bias fails to affect the synonymous codon usage pattern in the leading and lagging strands, (ii) mutation pressure from nucleotide content plays a role in shaping the overall codon usage, and (iii) the major trend of synonymous codon usage has a significant correlation with the gene expression level that is estimated by the codon adaptation index. The plot of the effective number of codons against the G+C content at the third codon position also reveals that mutation pressure undoubtedly contributes to the synonymous codon usage pattern of M. bovis. Additionally, the formation of the overall codon usage is determined by certain evolutionary selections for gene function classification (30S protein, 50S protein, transposase, membrane protein, and lipoprotein) and translation elongation region of genes in M. bovis. The information could be helpful in further investigations of evolutionary mechanisms of the Mycoplasma family and heterologous expression of its functionally important proteins.     

Mutational Bias and Translational Selection Shaping the Codon Usage Pattern of Tissue-Specific Genes in Rice

The regulatory mechanisms of determining which genes specifically expressed in which tissues are still not fully elucidated, especially in plants. Using internal correspondence analysis, I first establish that tissue-specific genes exhibit significantly different synonymous codon usage in rice, although this effect is weak. The variability of synonymous codon usage between tissues accounts for 5.62% of the total codon usage variability, which has mainly arisen from the neutral evolutionary forces, such as GC content variation among tissues. Moreover, tissue-specific genes are under differential selective constraints, inferring that natural selection also contributes to the codon usage divergence between tissues. These findings may add further evidence in understanding the differentiation and regulation of tissue-specific gene products in plants.     

Comparative Analysis of Codon Usage Bias Patterns in Microsporidian Genomes

The sub-3 Mbp genomes from microsporidian species of the Encephalitozoon genus are the smallest known among eukaryotes and paragons of genomic reduction and compaction in parasites. However, their diminutive stature is not characteristic of all Microsporidia, whose genome sizes vary by an order of magnitude. This large variability suggests that different evolutionary forces are applied on the group as a whole. In this study, we have compared the codon usage bias (CUB) between eight taxonomically distinct microsporidian genomes: Encephalitozoon intestinalis, Encephalitozoon cuniculi, Spraguea lophii, Trachipleistophora hominis, Enterocytozoon bieneusi, Nematocida parisii, Nosema bombycis and Nosema ceranae. While the CUB was found to be weak in all eight Microsporidia, nearly all (98%) of the optimal codons in S. lophii, T. hominis, E. bieneusi, N. parisii, N. bombycis and N. ceranae are fond of A/U in third position whereas most (64.6%) optimal codons in the Encephalitozoon species E. intestinalis and E. cuniculi are biased towards G/C. Although nucleotide composition biases are likely the main factor driving the CUB in Microsporidia according to correlation analyses, directed mutational pressure also likely affects the CUB as suggested by ENc-plots, correspondence and neutrality analyses. Overall, the Encephalitozoon genomes were found to be markedly different from the other microsporidians and, despite being the first sequenced representatives of this lineage, are uncharacteristic of the group as a whole. The disparities observed cannot be attributed solely to differences in host specificity and we hypothesize that other forces are at play in the lineage leading to Encephalitozoon species.     

影响链球菌属肺炎球菌基因组密码子使用的因素分析

链球菌属肺炎球菌（Steptococcus pneumoniae)的完整基因组序列已经测定完毕并于近期发表,对肺炎球菌基因组序列进行了详细分析,研究了基因组密码子的使用模式和影响密码子使用的因素,高水平高达基因的密码子第三位碱基使用胞嘧啶（C）的频率比表达水平低的基因使用C有显著的提高,表达水平较低的基因在密码子的第三位碱基更趋向使用嘌呤）,基因的表达水平与对应分析的第一条向量轴呈显著相关（R＝0．86）,比较表达水平高,低的两组基因的密码子使用模式发现,基因的表达水平对于密码子使用有显著的影响,基因碱基G＋C的组成与基因的表达水平（R＝0．44）,对应分析的第一条向量轴（R＝0．5）有显著的相关,对基因的表达水平,密码子的使用有显著的影响,通过GC－skew,蛋白质的疏水性,基因的长度分析,发现不同长度的基因表达水平,GC含量,GC3s有差异,结果表明,在表达水平上的自然选择以及基因的碱基组成是影响肺炎球菌基因密码子使用的主要因素,基因的长度对密码子的使用有一定影响。     

霍乱传染源的微生态学研究

霍乱弧菌表面具有粘附性,并能降解甲壳质,在河口水中能牢固地粘附于浮游动物桡足类墨氏胸刺水蚤表面上分解甲壳质而延长生命活动,借此在河口底层越冬,由此提示墨氏胸刺水蚤可能成为人以外的传染源。该宿主与霍乱孤菌的微生态系,尚需进一步研究。     

Codon Usage in Pathogenic Entamoeba histolytica

Summary An analysis of 4680 codons expressed by pathogenic Entamoeba histolytica showed the A+U content of coding sequences to be 67%. The preference for A+U resulted in an unusual codon usage with an A+U content of 84% in the third codon position. The data show a remarkable similarity to those obtained for Plasmodium falciparum.     

Comparison of Correspondence Analysis Methods for Synonymous Codon Usage in Bacteria

Synonymous codon usage varies both between organisms and among genes within a genome, and arises due to differences in G + C content, replication strand skew, or gene expression levels. Correspondence analysis (CA) is widely used to identify major sources of variation in synonymous codon usage among genes and provides a way to identify horizontally transferred or highly expressed genes. Four methods of CA have been developed based on three kinds of input data: absolute codon frequency, relative codon frequency, and relative synonymous codon usage (RSCU) as well as within-group CA (WCA). Although different CA methods have been used in the past, no comprehensive comparative study has been performed to evaluate their effectiveness. Here, the four CA methods were evaluated by applying them to 241 bacterial genome sequences. The results indicate that WCA is more effective than the other three methods in generating axes that reflect variations in synonymous codon usage. Furthermore, WCA reveals sources that were previously unnoticed in some genomes; e.g. synonymous codon usage related to replication strand skew was detected in Rickettsia prowazekii. Though CA based on RSCU is widely used, our evaluation indicates that this method does not perform as well as WCA.Key words: correspondence analysis, synonymous codon usage, horizontal gene transfer, strand-specific mutational bias, translational selection     

The Codon Usage in the Minimal Natural Cell

A statistical analysis of the variation in contents with the size of the current known smallest genomes, N. deltocephalinicola, C. ruddii, N. equitans, and M. genitalium, enabled the indication of a minimal set of codons capable of naturally building a modern-type free-living unicellular organism in an early stage of evolution. Using a linear regression model, the potential codon distribution in the minimal natural cell was predicted and compared to the composition of the smallest synthetic, JCVI-Syn3.0. The distribution of the molecular weight of potentially coded amino acids was also calculated. The main differences in the features of the minimal natural cell and H. Sapiens genome were analyzed. In this regard, the content percentage of respective amino acids and their polarization charge properties were reported and compared. The fractions of occurring nucleotides were calculated, too. Then, the estimated numbers of codons in a minimal natural cell were related to the expected numbers for random distribution. Shown increase, or decrease in the contents, relative to the calculated random filling was related to the evolutionary preferences, varying with the subsequent eras of the evolution of genetic code.

     

O139霍乱弧菌生物学特性研究

１９９２年以来,许多国家和地区先后暴发了Ｏ１３９霍乱大流行。本文从微生物学和分子遗传学的角度对来自不同地区的四株Ｏ１３９霍乱弧菌的生物学特性进行了研究。结果表明四株Ｏ１３９霍乱弧菌均呈典型弧形、单端单鞭毛,培养要求不高、耐碱,固体平板上菌落呈不透明。电镜下显示有菌毛、荚膜结构。有较广的抗生素敏感谱及霍乱Ｈｅｉｂｅｒｇ氏Ⅰ群的糖发酵能力。ＤＮＡＧ＋ＣＭＯＬ％测定值均在霍乱弧菌范围之内且数值接近。质粒图谱检测发现四株中有三株含有一个４．１０ＭＤａ大小的质粒,而另一株不含质粒。Ｏ１３９霍乱弧菌的生物学特性大多数与Ｏ１群菌相似,两者重大的区别在于Ｏ１３９菌具荚膜结构。     

Predicting Gene Expression Level from Relative Codon Usage Bias: An Application to Escherichia coli Genome

We present an expression measure of a gene, devised to predictthe level of gene expression from relative codon bias (RCB).There are a number of measures currently in use that quantifycodon usage in genes. Based on the hypothesis that gene expressivityand codon composition is strongly correlated, RCB has been definedto provide an intuitively meaningful measure of an extent ofthe codon preference in a gene. We outline a simple approachto assess the strength of RCB (RCBS) in genes as a guide totheir likely expression levels and illustrate this with an analysisof Escherichia coli (E. coli) genome. Our efforts to quantitativelypredict gene expression levels in E. coli met with a high levelof success. Surprisingly, we observe a strong correlation betweenRCBS and protein length indicating natural selection in favourof the shorter genes to be expressed at higher level. The agreementof our result with high protein abundances, microarray dataand radioactive data demonstrates that the genomic expressionprofile available in our method can be applied in a meaningfulway to the study of cell physiology and also for more detailedstudies of particular genes of interest.     

Heterogeneity in Codon Usage in the Flatworm Schistosoma mansoni

Synonymous codon choices vary considerably among Schistosoma mansoni genes. Principal components analysis detects a single major trend among genes, which highly correlates with GC content in third codon positions and exons, but does not discriminate among putatively highly and lowly expressed genes. The effective number of codons used in each gene, and its distribution when plotted against GC₃, suggests that codon usage is shaped mainly by mutational biases. The GC content of exons, GC₃, 5′, 3′, and flanking (5′+ 3′+ introns) regions are all correlated among them, suggesting that variations in GC content may exist among different regions of the S. mansoni genome. We propose that this genome structure might be among the most important factors shaping codon usage in this species, although the action of selection on certain sequences cannot be excluded. Received: 10 March 1997 / Accepted: 27 June 1997     

影响耶尔森氏鼠疫杆菌基因组密码子使用的因素分析

基因组密码子使用的影响因素分析有助于发现影响密码子使用的进化动力学 ,对发现和预测进化的方向和模式有重要的作用。同时 ,分析完整的基因组可以发现特定基因组中密码子的使用模式 ,从而重新设计高效的PCR引物和外源导入基因 ,促进外源基因在特定生物体中的高效率表达。导致瘟疫等外源性感染疾病的耶尔森氏鼠疫杆菌完整基因组序列已经测序公布。为了对鼠疫杆菌的同义密码子使用的进化模式有更加深入的了解 ,详细的研究分析鼠疫杆菌的基因组密码子的使用模式和影响密码子使用的因素。结果发现 ,尽管鼠疫杆菌基因组序列中“G” “C”含量相对较低 (4 7.6 4 % ) ,高水平表达基因的密码子第三位碱基使用胞嘧啶 (C)的频率比表达水平低的基因使用胞嘧啶 (C)有显著的提高 ,表达水平较低的基因在密码子的第三位碱基更趋向使用鸟嘌呤 (G)。在表达水平高低的两组基因中 ,对密码子的第三位碱基使用腺嘌呤 (A)和胸腺嘧啶 (T)总体上趋于随机使用。基因的表达水平与对应分析的第一条向量轴呈高度相关 (R =0 .6 3,P <0 .0 0 0 1)。通过分析比较表达水平高低两组基因的密码子使用模式发现 ,基因的表达水平对于密码子使用有显著的影响。GC skew分析结果显示 ,复制转录阶段的选择对密码子使用有一定的影响。在不同长度