Analysis of codon usage patterns in Bupleurum falcatum chloroplast genome / 中草药·英文版

OBJECTIVE@#In order to distinguish the traditional Chinese medicine Bupleurum falcatum and its adulterants effectively and develop a better understanding of the factors affecting synonymous codon usage, codon usage patterns of chloroplast genome, we determine the complete chloroplast (cp) genome of B. falcatum and clarify the main factors that influence codon usage patterns of 78 genes in B. falcatum chloroplast genome.@*METHODS@#The total genomic DNA of fresh leaves from a single individual of B. falcatum was extracted with EASYspin plus Total DNA Isolation Kit and 2 μg genome DNA was sequenced using Illumina Hiseq 2500 Sequencing Platform. The cp genome of B. falcatum was reconstructed with MITObim v1.8 and annotated in the program CPGAVAS2 with default parameters. Python script and Codon W were used to calculate the codon usage bias parameters.@*RESULTS@#The full length of B. falcatum cp genome was 155 851 bp, 132 different genes were annotated in this cp genome containing 80 protein-coding genes, 30 tRNA genes, and four rRNA genes. The codon usage models tended to use A/T-ending codons. The neutrality plot, ENC plot, PR2-Bias plot and correspondence analysis showed that both compositional constraint under selection and mutation could affect the codon usage models in B. falcatum cp genome. Furthermore, three optimal codons were identified and most of these three optimal codons ended with G/U.@*CONCLUSION@#The cp genome of B. falcatum has been characterized and the codon usage bias in B. falcatum cp genome is influenced by natural selection, mutation pressure and nucleotide composition. The results will provide much more barcode information for species discrimination and lay a foundation for future research on codon optimization of exogenous genes, genetic engineering and molecular evolution in B. falcatum.

Analysis of the chloroplast genome of Incarvillea younghusbandii Sprague / 生物工程学报

Incarvillea younghusbandii Sprague is a traditional tonic herb. The roots are used as herbal medicine for nourishing and strengthening, as well as treating postpartum milk deficiency and weakness. In this study, the chloroplast genome of I. younghusbandii was sequenced and assembled by the high-throughput sequencing technology. The sequence characteristics, sequence repeats, codon usage bias, phylogenetic relationships and estimated divergence time of I. younghusbandii were analyzed. The 159 323 bp sequence contained a large single copy (80 197 bp), a small single copy (9 030 bp) and two inverted repeat sequences (35 048 bp). It contained 120 genes, including 77 protein coding genes, 8 ribosomal RNA genes and 35 transfer RNA genes. AAA was the most frequent codon in the chloroplast coding sequence of I. younghusbandii. A total of 42 simple sequence repeats were identified in the chloroplast genome. Phylogenetic analysis revealed I. younghusbandii was mostly like its taxonomically close relative Incarvillea compacta. The divergence between I. younghusbandii and I. compacta was dated to 4.66 million years ago. This study was significant for the scientific conservation and development of resources related to I. compacta. It also provides a basic genetic resource for the subsequent species identification of the genus Incarvillea, and the population genetic diversity study of Bignoniaceae.

Effects of synonymous codon usage bias on mRNA half-life and translational regulation / 生物工程学报

With the widespread application of genomics and transcriptomics in the genetics and cell biology of different species, synonymous codon usage bias has been gradually accepted and used to study the deep connection between biological evolution and biological phenotypes. It is an important part of the life activities that mRNA is expressed into proteins with normal biological activities. The synonymous codon usage patterns, which were named as 'the second genetic codon', can express genetic information carried by themselves at the levels of transcriptional regulations, translational regulations and metabolic activities through molecular mechanisms such as fine-tune translation selection. Some studies have shown that the length of mRNA half-life has significant impacts on mRNA activity and the process of transcription and translation. This review summarized the roles of synonymous codon usage patterns in transcription, translational regulation and post-translational modification, with the aim to better understand how organisms skillfully utilize the genetic effects caused by codon usage patterns to accurately synthesize different types of proteins, so as to ensure the growth or differentiation of the specific gene expression procedures to carry out smoothly and maintain the normal life cycle.

Codon usage by chloroplast gene is bias in Hemiptelea davidii

The base composition of the chloroplast genes is of great interest because they play a highly significant role in the evolutionary development of the plants. Evaluation of the 48 chloroplast protein-coding genes of Hemiptelea davidii showed that the average GC content was about 37.32%, while at the third codon base position alone the average GC content was only 27.80%. The 48 genes were classified into five groups based on the gene function and each group displayed specific codon characteristics. Based on the relative synonymous codon usage analysis, a total of 30 high-frequency codons and 11 optimal codons were identified, most of them ended with A or T. Neutrality plot, ENC-plot and PR2-plot analyses showed that the codon usage bias of the chloroplast genes of H. davidii was greatly influenced by natural selection pressures. Meanwhile, the frequency of codon usage of chloroplast genes among different plant species displayed similarities, with some synonymous codons were preferred to be used in H. davidii. In this study, the codon usage pattern of the chloroplast proteincoding genes of H. davidii provides us with a better understanding of the expression of chloroplast genes, and may advice the future molecular breeding programmes.

Analysis of codon usage patterns in Polyporus umbellatus based on transcriptome data / 药学学报

We obtained 332 coding sequences from the Polyporus umbellatus transcriptome based on the BLASTx and ESTScan analyses. The codon usage patterns of P. umbellatus were calculated and statistically analyzed using CodonW. The results showed that the average GC content of genes was 53.57% and the average GC3 content was 57.98%, suggesting that genes favored codons ending with G or C. The effective number of codons (ENC) value range from 38.46 to 61, which indicates that these genes have low codon usage bias. The neutrality plot and ENC-plot analysis revealed that many factors such as mutation and selective pressure play an important role in shaping codon usage bias in P. umbellatus genes. Twenty-two optimal codons were identified as being biased toward codons ending with G or C using the high expression superior codon analysis method. This study will lay a foundation for future research on genetic engineering and molecular evolution in P. umbellatus.

NS1 codon usage adaptation to humans in pandemic Zika virus

BACKGROUND Zika virus (ZIKV) was recognised as a zoonotic pathogen in Africa and southeastern Asia. Human infections were infrequently reported until 2007, when the first known epidemic occurred in Micronesia. After 2013, the Asian lineage of ZIKV spread along the Pacific Islands and Americas, causing severe outbreaks with millions of human infections. The recent human infections of ZIKV were also associated with severe complications, such as an increase in cases of Guillain-Barre syndrome and the emergence of congenital Zika syndrome. OBJECTIVES To better understand the recent and rapid expansion of ZIKV, as well as the presentation of novel complications, we compared the genetic differences between the African sylvatic lineage and the Asian epidemic lineage that caused the recent massive outbreaks. FINDINGS The epidemic lineages have significant codon adaptation in NS1 gene to translate these proteins in human and Aedes aegypti mosquito cells compared to the African zoonotic lineage. Accordingly, a Brazilian epidemic isolate (ZBR) produced more NS1 protein than the MR766 African lineage (ZAF) did, as indicated by proteomic data from infections of neuron progenitor cells-derived neurospheres. Although ZBR replicated more efficiently in these cells, the differences observed in the stoichiometry of ZIKV proteins were not exclusively explained by the differences in viral replication between the lineages. MAIN CONCLUSIONS Our findings suggest that natural, silent translational selection in the second half of 20th century could have improved the fitness of Asian ZIKV lineage in human and mosquito cells.

Synonymous Codon Usage Controls Various Molecular Aspects

Synonymous sites are generally considered to be functionally neutral. However, there are recent contradictory findings suggesting that synonymous alleles might have functional roles in various molecular aspects. For instance, a recent study demonstrated that synonymous single nucleotide polymorphisms have a similar effect size as nonsynonymous single nucleotide polymorphisms in human disease association studies. Researchers have recognized synonymous codon usage bias (SCUB) in the genomes of almost all species and have investigated whether SCUB is due to random nucleotide compositional bias or to natural selection of any functional exposure generated by synonymous mutations. One of the most prominent observations on the non-neutrality of synonymous codons is the correlation between SCUB and levels of gene expression, such that highly expressed genes tend to have a higher preference toward so-called optimal codons than lowly expressed genes. In relation, it is known that amounts of cognate tRNAs that bind to optimal codons are significantly higher than the amounts of cognate tRNAs that bind to non-optimal codons in genomes. In the present paper, we review various functions that synonymous codons might have other than regulating expression levels.

Codon Usage Patterns of Tyrosinase Genes in Clonorchis sinensis

Codon usage bias (CUB) is a unique property of genomes and has contributed to the better understanding of the molecular features and the evolution processes of particular gene. In this study, genetic indices associated with CUB, including relative synonymous codon usage and effective numbers of codons, as well as the nucleotide composition, were investigated in the Clonorchis sinensis tyrosinase genes and their platyhelminth orthologs, which play an important role in the eggshell formation. The relative synonymous codon usage patterns substantially differed among tyrosinase genes examined. In a neutrality analysis, the correlation between GC₁₂ and GC₃ was statistically significant, and the regression line had a relatively gradual slope (0.218). NC-plot, i.e., GC₃ vs effective number of codons (ENC), showed that most of the tyrosinase genes were below the expected curve. The codon adaptation index (CAI) values of the platyhelminth tyrosinases had a narrow distribution between 0.685/0.714 and 0.797/0.837, and were negatively correlated with their ENC. Taken together, these results suggested that CUB in the tyrosinase genes seemed to be basically governed by selection pressures rather than mutational bias, although the latter factor provided an additional force in shaping CUB of the C. sinensis and Opisthorchis viverrini genes. It was also apparent that the equilibrium point between selection pressure and mutational bias is much more inclined to selection pressure in highly expressed C. sinensis genes, than in poorly expressed genes.

Comparative Analysis of Predicted Gene Expression among Crenarchaeal Genomes

Research into new methods for identifying highly expressed genes in anonymous genome sequences has been going on for more than 15 years. We presented here an alternative approach based on modified score of relative codon usage bias to identify highly expressed genes in crenarchaeal genomes. The proposed algorithm relies exclusively on sequence features for identifying the highly expressed genes. In this study, a comparative analysis of predicted highly expressed genes in five crenarchaeal genomes was performed using the score of Modified Relative Codon Bias Strength (MRCBS) as a numerical estimator of gene expression level. We found a systematic strong correlation between Codon Adaptation Index and MRCBS. Additionally, MRCBS correlated well with other expression measures. Our study indicates that MRCBS can consistently capture the highly expressed genes.

Diseño in silico y evaluación funcional de genes semisintéticos que confieran tolerancia a fosfinotricina / In silico design and functional assessment of semisynthetic genes that confer tolerance to phosphinothricin

La tolerancia a herbicidas es una de las características más usadas en los cultivos GM, con resultados positivos para los agricultores y el ambiente. El punto de partida, es el desarrollo de casetes de expresión que expresen la característica de interés, inicialmente construidos mediante técnicas de biología molecular convencionales. Actualmente, con herramientas de bioinformática y biología sintética, es posible diseñar y probar el constructo in silico, para luego contratar su síntesis. Esta aproximación, permite optimizar la expresión mediante la modificación del uso codónico. En este trabajo se diseñaron y evaluaron en Nicotiana benthamiana versiones semisintéticas de genes que confieren tolerancia al herbicida fosfinotricina. Se realizó un análisis de libertad de operación, con el fin de asegurar que los constructos diseñados no violen derechos de propiedad intelectual en Colombia. Se obtuvieron dos casetes de expresión con libertad de operación, que expresan versiones del gen bar.

Herbicide tolerance is one of the features most used in GM crops, which has shown positive results for farmers and the environment. The starting point is the development of expression cassettes that express the characteristic of interest, they are initially constructed by standard molecular biology techniques. Currently, by bioinformatics and synthetic biology tools, it is possible to design and test the construct in silico, and then hire their synthesis. This approach allows optimizing expression by modifying the codon usage. In this work there were designed and evaluated semi-synthetic versions of genes in Nicotiana benthamiana, these genes confer tolerance to the herbicide phosphinothricin. It was made an analysis of freedom to operate in order to ensure that the designed constructs not violate intellectual property in Colombia. There were obtained two expression cassettes with freedom to operate, which express versions of the bar gene.

DISEÑO DE CASETES DE EXPRESIÓN QUE CONFIERAN TOLERANCIA A SEQUÍA Y A GLUFOSINATO EN MAÍZ (Zea mays) / Design of Expression Cassettes that Confer Drought and Glufosinate Tolerance to Maize (Zea mays)

Como primera aproximación en la obtención de una línea transgénica de maíz tolerante a sequía y al herbicida glufosinato de amonio, se seleccionaron genes y elementos reguladores para el diseño in silico de casetes de expresión, a través del análisis de literatura científica y bases de datos de genes y patentes. Las secuencias génicas fueron modificadas con base en el criterio de uso codónico del maíz para optimizar su expresión. Los casetes de expresión diseñados con el software DNA 2.0., fueron sintetizados por una empresa especializada. La presencia del transgen y la expresión a nivel de mARN fue demostrada mediante PCR y RT-PCR en la planta modelo Nicotiana benthamiana transformada vía Agrobacterium tumefaciens. Un ensayo preliminar in vitro en condiciones simuladas de sequía en medio MS con PEG (PM 6000)10 % no demostró incremento notorio en la tolerancia de las plántulas transformantes, posiblemente debido a que el uso codónico del diseño no favorece la expresión génica en la planta modelo.

As a first approach in obtaining a transgenic drought and glufosinate ammonium tolerant maize line, genes and regulatory elements for the in silico design of the expression cassettes were selected through analysis of scientific literature and databases of genes and patents. Gene sequences were modified based on the criterion of maize codon usage to optimize their expression. The constructs designed with DNA 2.0 Software, were synthesized by a specialized company. The presence of the transgene and the expression of mRNA was demonstrated by PCR and RT-PCR in the model plant Nicotiana benthamiana transformed via Agrobacterium tumefaciens. A preliminary experiment in vitro under simulated drought conditions in MS medium with 10 % PEG (PM 6000) showed no noticeable increase in drought tolerance of the transformants, possibly because the codon usage of the design does not promote gene expression in the model plant.

Transcriptome analyses of insect cells to facilitate baculovirus-insect expression

The High Five cell line (BTI-TN-5B1-4) isolated from the cabbage looper, Trichoplusia ni is an insect cell line widely used for baculovirus-mediated recombinant protein expression. Despite its widespread application in industry and academic laboratories, the genomic background of this cell line remains unclear. Here we sequenced the transcriptome of High Five cells and assembled 25,234 transcripts. Codon usage analysis showed that High Five cells have a robust codon usage capacity and therefore suit for expressing proteins of both eukaryotic- and prokaryotic-origin. Genes involved in glycosylation were profiled in our study, providing guidance for engineering glycosylated proteins in the insect cells. We also predicted signal peptides for transcripts with high expression abundance in both High Five and Sf21 cell lines, and these results have important implications for optimizing the expression level of some secretory and membrane proteins.

Analysis of codon usage bias based on Fritillaria cirrhosa transcriptome / 中国中药杂志

Understanding of codon usage bias of Fritillaria cirrhosa can provide theoretical basis for heterologous biosynthesis of F. cirrhosa alkaloids by genetic engineering technology. A total of 9 843 full length coding sequences (CDS) from the F. cirrhosa transcriptome data were used for the analysis of codon usage bias. The GC and GC3s contents, effective number of codons(ENC) and relative synonymous codon usage (RSCU) were calculated using the CodonW software. The results show that the codon usage bias value is low in the CDS of F. cirrhosa. A total of 15 codons, including UUG, CUU, AUU, GUU, UCA, CCU, CCA, ACU, ACA, GCA, UAU, CAU, AAU, AGA and GGA, were identified as optimal codons in F. cirrhosa. The optimal codons generally end with A/T at the third codon position. By the transcriptome annotation, we found 26 CDSs possibly involved in the biosynthesis of alkaloids in the F. cirrhosa. The proportion of rare codons of Escherichia coli and Saccharomyces cerevisiae are low in these CDSs. We also proposed a method for the codonoptimization in these target genes. Our work lays the foundation for further study on the biosynthesis of alkaloids of the F. cirrhosa in heterologous species.

Codon Usage Bias and Determining Forces in Taenia solium Genome

The tapeworm Taenia solium is an important human zoonotic parasite that causes great economic loss and also endangers public health. At present, an effective vaccine that will prevent infection and chemotherapy without any side effect remains to be developed. In this study, codon usage patterns in the T. solium genome were examined through 8,484 protein-coding genes. Neutrality analysis showed that T. solium had a narrow GC distribution, and a significant correlation was observed between GC12 and GC3. Examination of an NC (ENC vs GC3s)-plot showed a few genes on or close to the expected curve, but the majority of points with low-ENC (the effective number of codons) values were detected below the expected curve, suggesting that mutational bias plays a major role in shaping codon usage. The Parity Rule 2 plot (PR2) analysis showed that GC and AT were not used proportionally. We also identified 26 optimal codons in the T. solium genome, all of which ended with either a G or C residue. These optimal codons in the T. solium genome are likely consistent with tRNAs that are highly expressed in the cell, suggesting that mutational and translational selection forces are probably driving factors of codon usage bias in the T. solium genome.

Cellular immunity survey against urinary tract infection using pVAX/fimH cassette with mammalian and wild type codon usage as a DNA vaccine

PURPOSE: FimH (the adhesion fragment of type 1 fimbriae) is implicated in uropathogenic Escherichia coli (UPEC) attachment to epithelial cells through interaction with mannose. Recently, some studies have found that UPEC can thrive intracellularly causing recurrent urinary tract infection (UTI). Almost all vaccines have been designed to induce antibodies against UPEC. Yet, the humoral immune response is not potent enough to overcome neither the primary UTI nor recurrent infections. However, DNA vaccines offer the possibility of inducing cell mediated immune responses and may be a promising preventive tool. MATERIALS AND METHODS: In this study, we employed two different open reading frames within mammalian (mam) and wild type (wt) codons of fimH gene. Optimized fragments were cloned in pVAX-1. Expression of the protein in COS-7 was confirmed by western blot analysis after assessing pVAX/fimH(mam) and pVAX/fimH(wt). The constructs were injected to BALB/c mice at plantar surface of feet followed by electroporation. RESULTS: The mice immunized with both constructs following booster injection with recombinant FimH showed increased interferon-gamma and interleukin-12 responses significantly higher than non-immunized ones (p<0.05). The immunized mice were challenged with UPEC and then the number of bacteria recovered from the immunized mice was compared with the non-immunized ones. Decreased colony count in immunized mice along with cytokine responses confirmed the promising immune response by the DNA vaccines developed in this study. CONCLUSION: In conclusion, DNA vaccines of UPEC proteins may confer some levels of protection which can be improved by multiple constructs or boosters.

Characterization of the Repeat Sequences of Varicella-Zoster Virus

Varicella-zoster virus (VZV) is a causative agent for shingles and herpes zoster. The genomes of VZV contain five reiteration (R) sequences and an origin of replication (ORI) sequences composed of tandem repeats whose numbers vary among different strains. Variation of the genome lengths among VZV strains could be attributed by the lengths of R sequences. There was a strong correlation between the lengths of VZV genome and R sequences, while variation of ORI did not contribute the variation of VZV genome length. The high G+C contents of The R sequences in ORF11, 14 and 22 influenced the codon usage of VZV in these ORFs. None of the most frequent 5 codons in R sequences was included in the top 5 most frequent codon in ORF11-14-22 or VZV genome, and vice versa.

Codon-optimized antibiotic resistance gene improves efficiency of transient transformation in Frankia.

Frankia is a unique actinobacterium having abilities to fix atmospheric dinitrogen and to establish endosymbiosis with trees, but molecular bases underlying these interesting characteristics are poorly understood because of a lack of stable transformation system. Extremely high GC content of Frankia genome (>70%) can be a hindrance to successful transformation. We generated a synthetic gentamicin resistance gene whose codon usage is optimized to Frankia (fgmR) and evaluated its usefulness as a selection marker using a transient transformation system. Success rate of transient transformation and cell growth in selective culture were significantly increased by use of fgmR instead of a native gentamicin resistance gene, suggesting that codon optimization improved translation efficiency of the marker gene and increased antibiotic resistance. Our result shows that similarity in codon usage pattern is an important factor to be taken into account when exogenous transgenes are expressed in Frankia cells.

Expression analysis of genes responsible for amino acid biosynthesis in halophilic bacterium Salinibacter ruber.

The degeneracy of the genetic code allows for multiple codons to encode the same amino acid. However, alternative codons and amino acids are used unevenly among genes, a phenomenon termed codon-usage bias. Genes regulating amino acid biosynthesis of Salinibacter ruber, an extremely halophilic bacterium were studied in order to determine the synonymous codon usage patterns. Factors responsible for codon usage variation among the genes were investigated using codon usage indices and multi-variate statistical approach. Overall codon usage data analysis indicated that codons ending in G and/or C were predominant among the genes. Multi-variate statistical analysis showed that there was a single major trend in the codon usage variation among the genes, which had a strong positive correlation (r = 0.93, P<0.01) with (G + C) content of the genes. Further, correlation analysis indicated that genes with higher expression level and showing a greater degree of codon usage bias were GC-rich and preferred codons with C or G nucleotides at the third position. A set of thirteen codons were identified through Chi-square test as optimal codons, which were preferred in highly expressed genes. It could be concluded that mutational bias had a profound effect on codon usage pattern. In addition, translational selections also operated with a proper balance, making the genes translationally more efficient. The frequency of these codons appeared to be correlated with the level of gene expression and might be a useful indicator in the case of genes (or open-reading-frames) whose expression levels are unknown.

Analysis on bias of functional gene codon of Eleutherococcus senticosus / 中草药

Objective: To analyze the codon usage of functional genes in Eleutherococcus senticosus and their influencing factors. Methods: The multivariate statistical analysis and correspondence analysis were carried out using CodonW and SPSS software with codon of 17 genes selected from the functional genes of E. senticosus. Results: GC contents at the three positions of functional gene codons in E. senticosus was 51.03%, 41.23%, and 40.04%, all of which had a significant correlation coefficient (P < 0.05). The correlation coefficients with GC12 and GC3 were 0.262, and both were insignificant. The relative synonymous codon usage of 27 codons was greater than 1, among which 22 codons ended with A or T base. In the corresponding analysis, the first axis showed the variation of 22.78%, and there were significant correlation coefficients in codon adaptation, codon bias index, and GC3 (P < 0.01). The correlation coefficients were 0.686, 0.617, and 0.786, respectively, but they were insignificantly related with the effective number of codons (ENC). The second axis showed the variation of 19.28% and it was only significantly related with ENC (r = 0.635). Seventeen optimized codons in functional genes of E. senticosus were defined. Conclusion: All codons of functional genes in E. senticosus prefer to ending with A or T base. The codon usage bias is formed under the effects of mutation and selection.

Codon Usage Bias of Human Cytomegalovirus Genes with Different Evolutionary Conservancy

Human cytomegalovirus (HCMV) is a member of beta-herpesvirus and contains a double-stranded genome with longer than 230 Kbp. HCMV infection of human is mostly asymptomatic, but often causes fatal diseases in immunocompromised people. In this study, codon usages of HCMV genes were analyzed and attempted to correlate with evolutionary conservancy. Core genes are the most conserved genes common among herpesvirus family, beta-herpes genes are common to beta-herpesviruses, and CMV genes are the least conserved found only in CMVs. Core genes had higher codon adaptation index (CAI) and GC content of silent 3rd codon position (GC3s) values and lower effective number of codons (Nc) and Nc/GC3s values than CMV genes. The average length of core genes was statistically longer than CMV genes, and core genes were found to be less varied than CMV genes. beta-herpes genes could be placed between core and CMV genes. Higher CAI and GC3s values along with lower Nc and Nc/GC3s values are suggestive of higher codon usage bias and more adaptation to host cells. Thus it is concluded that core genes of HCMV are more biased in codon usage and adapted to host cells compared to CMV genes.