Heterologous Stop Codon Readthrough of Metazoan Readthrough Candidates in Yeast

Recent analysis of genomic signatures in mammals, flies, and worms indicates that functional translational stop codon readthrough is considerably more abundant in metazoa than previously recognized, but this analysis provides only limited clues about the function or mechanism of readthrough. If an mRNA known to be read through in one species is also read through in another, perhaps these questions can be studied in a simpler setting. With this end in mind, we have investigated whether some of the readthrough genes in human, fly, and worm also exhibit readthrough when expressed in S. cerevisiae. We found that readthrough was highest in a gene with a post-stop hexamer known to trigger readthrough, while other metazoan readthrough genes exhibit borderline readthrough in S. cerevisiae.     

Ribosomal Readthrough at a Short UGA Stop Codon Context Triggers Dual Localization of Metabolic Enzymes in Fungi and Animals

Translation of mRNA into a polypeptide chain is a highly accurate process. Many prokaryotic and eukaryotic viruses, however, use leaky termination of translation to optimize their coding capacity. Although growing evidence indicates the occurrence of ribosomal readthrough also in higher organisms, a biological function for the resulting extended proteins has been elucidated only in very few cases. Here, we report that in human cells programmed stop codon readthrough is used to generate peroxisomal isoforms of cytosolic enzymes. We could show for NAD-dependent lactate dehydrogenase B (LDHB) and NAD-dependent malate dehydrogenase 1 (MDH1) that translational readthrough results in C-terminally extended protein variants containing a peroxisomal targeting signal 1 (PTS1). Efficient readthrough occurs at a short sequence motif consisting of a UGA termination codon followed by the dinucleotide CU. Leaky termination at this stop codon context was observed in fungi and mammals. Comparative genome analysis allowed us to identify further readthrough-derived peroxisomal isoforms of metabolic enzymes in diverse model organisms. Overall, our study highlights that a defined stop codon context can trigger efficient ribosomal readthrough to generate dually targeted protein isoforms. We speculate that beyond peroxisomal targeting stop codon readthrough may have also other important biological functions, which remain to be elucidated.     

利用移码突变和终止密码子提高下游目的基因的表达水平

目的:在基因结构复杂的慢病毒载体插入报告基因并提高目的基因表达量。方法:慢病毒载体上有复杂的基因排列,为了不影响慢病毒载体的活性,必须尽量保留原有的基因,替换不必要的基因。首先将报告基因萤光素酶插入慢病毒载体替换基因Env后,结果检测不到报告基因的表达。为了提高报告基因的表达水平,将报告基因的读码框向后移动一个碱基,同时在其上游增加一个终止密码子,然后检测报告基因的表达水平。结果:通过移动报告基因的读码框同时在上游增加终止密码子,使报告基因的表达水平大大提高。结论:在构建基因表达载体时,通过改变目的基因与上游起始密码子ATG之间的相对位置以及增加终止密码子,可以大幅提高目的基因的表达水平。     

GUS在植物基因功能研究中的应用和优化

β-葡糖醛酸酶(GUS)报告系统是现代分子生物学研究领域中被广泛使用的一种重要工具,在解析基因时空表达调控的研究中发挥着重要作用.本文概述了报告基因GUS的生化特性及检测手段,从启动子元件鉴定、基因诱捕、无标记转基因技术等方面论述GUS的应用现状和优势,并针对内源GUS、GUS抑制因子等问题和改进优化手段进行了分析,为该技术在植物功能基因研究中进一步拓展提供新线索和思路.     

Characterization and Development of Two Reporter Gene Systems for Clostridium acetobutylicum

The use of lacZ from Thermoanaerobacterium thermosulfurigenes (encoding β-galactosidase) and lucB from Photinus pyralis (encoding luciferase) as reporter genes in Clostridium acetobutylicum was analyzed with promoters of genes required for solventogenesis and acidogenesis. Both systems proved to be well suited and allowed the detection of differences in promoter strength at least up to 100-fold. The luciferase assay could be performed much faster and comes close to online measurement. Resequencing of lacZ revealed a sequence error in the original database entry, which resulted in β-galactosidase with an additional 31 amino acids. Cutting off part of the gene encoding this C terminus resulted in decreased enzyme activity. The lacZ reporter data showed that bdhA (encoding butanol dehydrogenase A) is expressed during the early growth phase, followed by sol (encoding butyraldehyde/butanol dehydrogenase E and coenzyme A transferase) and bdhB (encoding butanol dehydrogenase B) expression. adc (encoding acetoacetate decarboxylase) was also induced early. There is about a 100-fold difference in expression between adc and bdhB (higher) and bdhA and the sol operon (lower). The lucB reporter activity could be increased 10-fold by the addition of ATP to the assay. Washing of the cells proved to be important in order to prevent a red shift of bioluminescence in an acidic environment (for reliable data). lucB reporter measurements confirmed the expression pattern of the sol and ptb-buk (encoding phosphotransbutyrylase and butyrate kinase) operons as determined by the lacZ reporter and showed that the expression level from the ptb promoter is 59-fold higher than that from the sol operon promoter.     

A Versatile Agrobacterium-Mediated Transient Gene Expression System for Herbaceous Plants and Trees

Plant transient expression is a powerful method used widely for the functional characterization of genes and protein production. In comparison with stable transformation, it has the advantages of being simple, quick, economical, and effective. In the present study, we developed a novel transient gene expression system based on Agrobacterium-mediated transformation. This system is simple and convenient and allows for high transient expression levels. Hyperosmotic pretreatment of plants significantly improved the transient expression in this system. Furthermore, other factors, including acetosyringone concentration, cocultivation time, and Agrobacterium cell density, significantly influenced transient expression efficiency. The results showed that this method is suitable for use with herbaceous plants (such as tobacco and Arabidopsis) and trees (such as birch, poplar, tamarisk, cork, willow, and aralia), suggesting that it may be applied widely in plant transient expression studies.     

Versatile Vectors for Expressing Genes in Plants

Three new plant expression vectors were constructed by cloning three synthetic linkers carrying several multi-cloning sites with three different reading frames into pBl121 plant vector. The vectors contained CaMV 35S promoter and NOSter terminator.     

四膜虫eRF1识别终止密码子的功能结构域

原生动物的一些纤毛虫中终止密码子发生重分配现象,将1个或2个终止密码子翻译为氨基酸.目前对这一现象的发生机制仍无合理解释．近年来,对蛋白质合成终止过程中肽链释放因子(eukaryotic polypeptide release factor, eRF)结构和功能的深入研究,为揭示终止密码子的重分配机制提供了重要的线索．本实验以具有终止密码子识别特异性的四膜虫Tt-eRF1为研究对象,将其中与密码子识别有关的GTx、NIKS和Y-C-F关键模体(motif) 引入识别通用终止密码子的酵母Sc=eRF1中,构建成各种嵌合体eRF1．利用双荧光素酶报告系统和细胞活性实验,分析关键模体及其周边的氨基酸对eRF1识别终止密码子性质的影响．结果表明,GTx和NIKS模体一定程度上决定eRF1识别终止密码子第1位碱基U和第2位碱基A;Y-C-F模体决定eRF1识别终止密码子UGA的第2位碱基G．模体内及其相邻氨基酸定点突变分析进一步支持以上结果．本研究推测,eRF1在进化过程中一些关键模体结构的改变决定其识别终止密码子的特异性,只能识别3个终止密码子中的1个或2个．随后,由于tRNA基因的突变产生阻抑性tRNA,促成终止密码子在原生动物纤毛虫中的重新分配．     

Evaluation and Comparison of the GUS, LUC and GFP Reporter System for Gene Expression Studies in Plants

Abstract: The detailed analysis of the expression pattern of a plant gene can give important clues about its function in plant development, cell differentiation and defence reactions. Gene expression studies have been greatly facilitated by the employment of proteins like β-glucuronidase (GUS), green fluorescent protein (GFP), and firefly luciferase (LUC) as reporters of gene activity. The application of reporter genes in plants, specifically in the field of gene expression studies, has expanded over the years from a mere tool to quantify (trans) gene expression in tissue samples, to real-time imaging of in planta promoter dynamics. To correctly interpret the activity that is given by each reporter, it is important to have a good understanding of the intrinsic properties of the different reporter proteins. Here we discuss those properties of GUS, LUC and GFP that are of interest in gene expression studies.     

Relationships Among Stop Codon Usage Bias, Its Context, Isochores, and Gene Expression Level in Various Eukaryotes

It is well known that stop codons play a critical role in the process of protein synthesis. However, little effort has been made to investigate whether stop codon usage exhibits biases, such as widely seen for synonymous codon usage. Here we systematically investigate stop codon usage bias in various eukaryotes as well as its relationships with its context, GC3 content, gene expression level, and secondary structure. The results show that there is a strong bias for stop codon usage in different eukaryotes, i.e., UAA is overrepresented in the lower eukaryotes, UGA is overrepresented in the higher eukaryotes, and UAG is least used in all eukaryotes. Different conserved patterns for each stop codon in different eukaryotic classes are found based on information content and logo analysis. GC3 contents increase with increasing complexity of organisms. Secondary structure prediction revealed that UAA is generally associated with loop structures, whereas UGA is more uniformly present in loop and stem structures, i.e., UGA is less biased toward having a particular structure. The stop codon usage bias, however, shows no significant relationship with GC3 content and gene expression level in individual eukaryotes. The results indicate that genomic complexity and GC3 content might contribute to stop codon usage bias in different eukaryotes. Our results indicate that stop codons, like synonymous codons, exhibit biases in usage. Additional work will be needed to understand the causes of these biases and their relationship to the mechanism of protein termination. [Reviewing Editor: Dr. Manyuan Long]     

Engineered Yeasts as Reporter Systems for Odorant Detection

Abstract

The functional expression of olfactory receptors (ORs) is a primary requirement to utilize olfactory detection systems. We have taken advantage of the functional similarities between signal transduction cascades in the budding yeast Saccharomyces cerevisiae and mammalian cells. The yeast pheromone response pathway has been adapted to allow ligand‐dependent signaling of heterologous expressed G‐protein coupled receptors (GPCRs) via mammalian or chimeric yeast/mammalian Gα proteins. Two different strategies are reported here which offer a positive screen for functional pairs. The OR and Gα protein are introduced into the modified yeast cells such that they hijack the pheromone response pathway usually resulting in cell cycle arrest. The first strategy utilizes ligand‐induced expression of a FUS1‐HIS3 reporter gene to permit growth on a selective medium lacking histidine; the second to induce ligand‐dependent expression of a FUS1‐Hph reporter gene, conferring resistance to hygromycin. Validation of the systems was performed using the rat I7 receptor response to a range of aldehyde odorants previously characterized as functional ligands. Of these only heptanal produced a positive growth response in the concentration range 5 × 10^?8 to 5 × 10^?6 M. Induction conditions appear to be critical for functional expression, and the solvents of odorants have a toxic effect for the highest odorant concentrations. The preference of rat I7 receptor for the ligand heptanal in yeast has to be compared to concurrent results obtained with mammalian expression systems.     

Characterization of In Vivo Reporter Systems for Gene Expression and Biosensor Applications Based on luxAB Luciferase Genes

Advances in genetic engineering methods have allowed the development of an increasing number of practical and scientific applications for bioluminescence with lux genes cloned from a variety of organisms. Bioluminescence derived from the shortened lux operon (luxAB genes) is a complex process, and applications seem to be proliferating in advance of an understanding of the underlying biochemical processes. In this report, we describe a two-phase kinetic behavior of the light emission which must be properly taken into account in any quantitative measurements of the bioluminescence signal. By using strains of Escherichia coli and Caulobacter crescentus, this behavior was characterized and interpreted in terms of the biochemistry underlying the bacterial luciferase mechanism. We show that the intensity profile of each of the two phases of the luminescence signal is responsive (and exhibits different sensitivities) to the concentration of added decanal and other components of the assay mix, as well as to the order of mixing and incubation times. This study illustrates the importance of appropriate protocol design, and specific recommendations for using the luxAB system as a molecular reporter are presented, along with versatile assay protocols that yield meaningful and reproducible signals.     

Relative Codon Adaptation: A Generic Codon Bias Index for Prediction of Gene Expression

The development of codon bias indices (CBIs) remains an active field of research due to their myriad applications in computational biology. Recently, the relative codon usage bias (RCBS) was introduced as a novel CBI able to estimate codon bias without using a reference set. The results of this new index when applied to Escherichia coli and Saccharomyces cerevisiae led the authors of the original publications to conclude that natural selection favours higher expression and enhanced codon usage optimization in short genes. Here, we show that this conclusion was flawed and based on the systematic oversight of an intrinsic bias for short sequences in the RCBS index and of biases in the small data sets used for validation in E. coli. Furthermore, we reveal that how the RCBS can be corrected to produce useful results and how its underlying principle, which we here term relative codon adaptation (RCA), can be made into a powerful reference-set-based index that directly takes into account the genomic base composition. Finally, we show that RCA outperforms the codon adaptation index (CAI) as a predictor of gene expression when operating on the CAI reference set and that this improvement is significantly larger when analysing genomes with high mutational bias.     

研究植物根系分泌物的方法

文章对植物根系分泌物的定义、组成、分类、影响因素和分泌部位,根系分泌物的收集、分离及鉴定方法进行了概述,并对此问题的今后研究方向作了展望。     

Noninvasive Visualization of MicroRNA-16 in the Chemoresistance of Gastric Cancer Using a Dual Reporter Gene Imaging System

MicroRNAs (miRNAs) have been implicated to play a central role in the development of drug resistance in a variety of malignancies. However, many studies were conducted at the in vitro level and could not provide the in vivo information on the functions of miRNAs in the anticancer drug resistance. Here, we introduced a dual reporter gene imaging system for noninvasively monitoring the kinetic expression of miRNA-16 during chemoresistance in gastric cancer both in vitro and in vivo. Human sodium iodide symporter (hNIS) and firefly luciferase (Fluc) genes were linked to form hNIS/Fluc double fusion reporter gene and then generate human gastric cancer cell line NF-3xmir16 and its multidrug resistance cell line NF-3xmir16/VCR. Radioiodide uptake and Fluc luminescence signals in vitro correlated well with viable cell numbers. The luciferase activities and radioiodide uptake in NF-3xmir16 cells were remarkably repressed by exogenous or endogenous miRNA-16. The NF-3xmir16/VCR cells showed a significant increase of ¹³¹I uptake and luminescence intensity compared to NF-3xmir16 cells. The radioactivity from in vivo ^99mTc-pertechnetate imaging and the intensity from bioluminescence imaging were also increased in NF-3xmir16/VCR compared with that in NF-3xmir16 tumor xenografts. Furthermore, using this reporter gene system, we found that etoposide (VP-16) and 5-fluorouracil (5-FU) activated miRNA-16 expression in vitro and in vivo, and the upregulation of miRNA-16 is p38MAPK dependent but NF-κB independent. This dual imaging reporter gene may be served as a novel tool for in vivo imaging of microRNAs in the chemoresistance of cancers, as well as for early detection and diagnosis in clinic.     

Conserving Plants in Gene Banks and Nature: Investigating Complementarity with Trifolium thompsonii Morton

A standard conservation strategy for plant genetic resources integrates in situ (on-farm or wild) and ex situ (gene or field bank) approaches. Gene bank managers collect ex situ accessions that represent a comprehensive snap shot of the genetic diversity of in situ populations at a given time and place. Although simple in theory, achieving complementary in situ and ex situ holdings is challenging. Using Trifolium thompsonii as a model insect-pollinated herbaceous perennial species, we used AFLP markers to compare genetic diversity and structure of ex situ accessions collected at two time periods (1995, 2004) from four locations, with their corresponding in situ populations sampled in 2009. Our goal was to assess the complementarity of the two approaches. We examined how gene flow, selection and genetic drift contributed to population change. Across locations, we found no difference in diversity between ex situ and in situ samples. One population showed a decline in genetic diversity over the 15 years studied. Population genetic differentiation among the four locations was significant, but weak. Association tests suggested infrequent, long distance gene flow. Selection and drift occurred, but differences due to spatial effects were three times as strong as differences attributed to temporal effects, and suggested recollection efforts could occur at intervals greater than fifteen years. An effective collecting strategy for insect pollinated herbaceous perennial species was to sample >150 plants, equalize maternal contribution, and sample along random transects with sufficient space between plants to minimize intrafamilial sampling. Quantifying genetic change between ex situ and in situ accessions allows genetic resource managers to validate ex situ collecting and maintenance protocols, develop appropriate recollection intervals, and provide an early detection mechanism for identifying problematic conditions that can be addressed to prevent further decline in vulnerable in situ populations.     

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.