Selected codon usage bias in members of the class Mollicutes

Mollicutes are parasitic microorganisms mainly characterized by small cell sizes, reduced genomes and great A and T mutational bias. We analyzed the codon usage patterns of the completely sequenced genomes of bacteria that belong to this class. We found that for many organisms not only mutational bias but also selection has a major effect on codon usage. Through a comparative perspective and based on three widely used criteria we were able to classify Mollicutes according to the effect of selection on codon usage. We found conserved optimal codons in many species and study the tRNA gene pool in each genome. Previous results are reinforced by the fact that, when selection is operative, the putative optimal codons found match the respective cognate tRNA. Finally, we trace selection effect backwards to the common ancestor of the class and estimate the phylogenetic inertia associated with this character. We discuss the possible scenarios that explain the observed evolutionary patterns.     

Frequent appearance of novel protein-coding sequences by frameshift translation

Genomic duplication, followed by divergence, contributes to organismal evolution. Several mechanisms, such as exon shuffling and alternative splicing, are responsible for novel gene functions, but they generate homologous domains and do not usually lead to drastic innovation. Major novelties can potentially be introduced by frameshift mutations and this idea can explain the creation of novel proteins. Here, we employ a strategy using simulated protein sequences and identify 470 human and 108 mouse frameshift events that originate new gene segments. No obvious interspecies overlap was observed, suggesting high rates of acquisition of evolutionary events. This inference is supported by a deficiency of TpA dinucleotides in the protein-coding sequences, which decreases the occurrence of translational termination, even on the complementary strand. Increased usage of the TGA codon as the termination signal in newer genes also supports our inference. This suggests that tolerated frameshift changes are a prevalent mechanism for the rapid emergence of new genes and that protein-coding sequences can be derived from existing or ancestral exons rather than from events that result in noncoding sequences becoming exons.     

VersusSNP:一种单碱基突变的筛选及分类工具

单碱基突变的筛选和分类是SNP分析的基础。为解决手工进行突变位点挖掘工作的困难,编写了VersusSNP软件。它可以解析并过滤序列比对结果,并根据突变类型将位点加以分类,以图形界面呈现给用户。使用VersusSNP,用户可以直观地了解基因组中单碱基突变的情况。其程序及源代码可以从http://sourceforge.net/projects/versussnp下载。     

A Stable Upstream Stem-loop Structure Enhances Selection of the First 5'-ORF-AUG as a Main Start Codon for Translation Initiation of Human ACAT1 mRNA

Acyl-coenzyme A:cholesterol acyltransferase (ACAT)is an integral membrane protein, which is mainly locatedin rough endoplasmic reticulum (ER), and is responsiblefor catalyzing the intracellular formation of cholesterylester from cholesterol and long-chain fatty acyl-coenzymeA [1,2]. Human ACAT1 cDNA K1 was firstly cloned andfunctionally expressed in 1993 [3]. Further studies withspecific anti-ACAT1 antibody (DM10) illustrated that onemajor 50 kD ACAT1 protein was expressed in various…     

Comparison and Evolutionary Analysis of the Glycosomal Glyceraldehyde-3-Phosphate Dehydrogenase from Different Kinetoplastida

In this work, we present the sequences and a comparison of the glycosomal GAPDHs from a number of Kinetoplastida. The complete gene sequences have been determined for some species (Crithidia fasciculata, Herpetomonas samuelpessoai, Leptomonas seymouri, and Phytomonas sp), whereas for other species (Trypanosoma brucei gambiense, Trypanosoma congolense, Trypanosoma vivax, and Leishmania major), only partial sequences have been obtained by PCR amplification. The structure of all available glycosomal GAPDH genes was analyzed in detail. Considerable variations were observed in both their nucleotide composition and their codon usage. The GC content varies between 64.4% in L. seymouri and 49.5% in the previously sequenced GAPDH gene from Trypanoplasma borreli. A highly biased codon usage was found in C. fasciculata, with only 34 triplets used, whereas in T. borreli 57 codons were employed. No obvious correlation could be observed between the codon usage and either the nucleotide composition or the level of gene expression. The glycosomal GAPDH is a very well-conserved enzyme. The maximal overall difference observed in the amino acid sequences is only 25%. Specific insertions and extensions are retained in all sequences. The residues involved in catalysis, substrate, and inorganic phosphate binding are fully conserved, whereas some variability is observed in the cofactor-binding pocket. The implications of these data for the design of new trypanocidal drugs targeted against GAPDH are discussed. All available gene and amino acid sequences of glycosomal GAPDHs were used for a phylogenetic analysis. The division of the Kinetoplastida into two suborders, Bodonina and Trypanosomatina, was well supported. Within the letter group, the Trypanosoma species appeared to be monophyletic, whereas the other trypanosomatids form a second clade. Received: 23 February 1998/Accepted: 26 March 1998     

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。     

Simplified method to obtain enhanced expression of tau protein from E. coli and one-step purification by direct boiling

Tau is an intrinsically disordered protein responsible for maintaining the structure and stability of axonal microtubules. However, in certain disease conditions including Alzheimer’s disease, tau protein may undergo biochemical and structural changes to form intracellular aggregates. Since tau is a proline- and arginine-rich eukaryotic protein, heterologous expression in Escherichia coli often results in poor yield and has been a major technical challenge. In the current work, we have improved the expressed yield of tau by overcoming codon bias problem and established a simplified protocol for efficient extraction. The reported method has two distinct features: (i) enhanced tau expression (upto eightfold) by supplementing deficient tRNAs that aid in rapid translation and (ii) direct boiling of expressed E. coli cells to extract tau with no separate cell lysis step. We further demonstrate that tau extracted by the direct boiling method is similar to tau purified by size-exclusion chromatography exhibiting similar structural and biophysical characteristics including aggregation propensity. Since morphologies and in vitro toxicity of fibrillar tau aggregates were also similar, tau extracted by the one-step direct boiling method can be used for tau aggregation assays without any additional purification.     

Expression and secretion of human bone morphogenetic protein-7 in pichia pastoris

The synonymous codons are used in a highly nonrandom manner in hosts of widely divergent species, which is termed ‘codon usage bias’. Several reports suggest that codon usage bias sometimes obstructs attempts to express high levels of exogenous genes. In this study, an attempt was made to express mature peptide of human bone morphogenetic protein-7 with optimized codons in P. pastoris expression system. Three low-usage ARG codons (CGG or CGA) in hBmp7 mature domain have been successfully transformed into P. pastoris-preferred ARG codons (AGA) with overlap extension PCR-based multiple-site-directed mutagenesis for a high level expression of hBMP7 mature peptide. The results of this study showed that the production level (25.45 mg/L) of a codon-optimized strain increased 4.6-fold in comparison with that (5.5 mg/L) of noncodon-optimized strain. A strain harboring multicopy of codon-optimized hbmp7 expression cassette showed an even higher expression level, which was about 2-fold compared with that of the single-copy one. These recombinant hBMP7 mature peptides were produced as 18-kD monomer proteins and were easily purified from culture supernatants using ion-exchange chromatography. Functional assay demonstrated that rhBMP7 could induce ectopic cartilage formation, although its inductive ability was much less active than that of CHO cell-derived hBMP7.     

Molecular evolution of the ent-kaurenoic acid oxidase gene in Oryzeae

We surveyed the substitution patterns in the ent-kaurenoic acid oxidase (KAO) gene in 11 species of Oryzeae with an outgroup in the Ehrhartoidaea. The synonymous and non-synonymous substitution rates showed a high positive correlation with each other, but were negatively correlated with codon usage bias and GC content at third codon positions. The substitution rate was heterogenous among lineages. Likelihood-ratio tests showed that the non-synonymous/synonymous rate ratio changed significantly among lineages. Site-specific models provided no evidence for positive selection of particular amino acid sites in any codon of the KAO gene. This finding suggested that the significant rate heterogeneity among some lineages may have been caused by variability in the relaxation of the selective constraint among lineages or by neutral processes.