Two human valyl-tRNA synthetase-encoding cDNA sequences deposited in GenBank display extensive differences

Five blocks of significant differences exist between two published sequences of the cDNA encoding human valyl-tRNA synthetase (GenBank X59303 and M98326). By comparison with the partial sequence of rat valyl-tRNA synthetase (GenBank M98327) the correct sequence can be deduced for two such blocks. The possible origin of the diversity for the two sequences is discussed.     

Intraspecific trait variation of woody species reduced in a savanna community,southwest China

Plants deploy various ecological strategies in response to environmental heterogeneity. In many forest ecosystems, plants have been reported to have notable inter- and intra-specific trait variation, as well as clear phylogenetic signals, indicating that these species possess a degree of phenotypic plasticity to cope with habitat variation in the community. Savanna communities, however, grow in an open canopy structure and exhibit little species diversification, likely as a result of strong environmental stress. In this study, we hypothesized that the phylogenetic signals of savanna species would be weak, the intraspecific trait variation (ITV) would be low, and the contribution of intraspecific variation to total trait variance would be reduced, owing to low species richness, multiple stresses and relatively homogenous community structure. To test these hypotheses, we sampled dominant woody species in a dry-hot savanna in southwestern China, focusing on leaf traits related to adaptability of plants to harsh conditions (year-round intense radiation, low soil fertility and seasonal droughts). We found weak phylogenetic signals in leaf traits and low ITV (at both individual and canopy-layer levels). Intraspecific variation (including leaf-, layer- and individual-scales) contributed little to the total trait variance, whereas interspecific variation and variation in leaf phenology explained substantial variance. Our study suggests that intraspecific trait variation is reduced in savanna community. Furthermore, our findings indicate that classifying species by leaf phenology may help better understand how species coexist under similar habitats with strong stresses.     

拽线法:一个构建系统发育树的新算法

这篇文章要讨论的拽线法（DL）是贪婪算法的一种。和Fitch—Margoliash（FM）一样,DL也是基于距离矩阵构建系统发育树,但是和FM算法相比,DL具有低复杂度、较高的容错性和准确度高的优点。当存在误差时,DL算法只是加大了不在同一个父节点下的基因序列的距离,但能够准确的判断序列的亲缘关系,进而得到完美的进化树拓扑结构;相比之下,FM算法让各个基因序列间的距离均摊了这种误差,从而有可能将本应该具有相同父节点的基因序列分到不同的分支。     

一种新的RNA二级结构三维图形表示及其应用

本研究提出了一种新的RNA二级结构的图形表示方法,这种方法不同于以往的表示方式。根据所提出的RNA二级结构的图形表示,将对9种病毒的RNA二级结构进行图形表示,构建系统进化树,进行序列间相似性的比较和分析。根据最终结果,可以很清晰地发现,AVII与LRMV两种病毒是最为相似的,另外,较大的距离值出现在了APMV与ALMV;PDV与AVII中,这说明这几种RNA二级结构明显不相似。这一研究结果与前人相似性分析的结果是十分相似的,同时,所采取的方法更加简单易于区分观察且得到的结果又是十分可靠的,因此,这些更加证明了该方法是有效的。     

茉莉酸信号受体COI蛋白家族的分子进化与基因表达分析

茉莉酸(Jasmonic acid,JA)存在于所有高等植物中,是植物对病原微生物和虫害防御反应的关键激素。在茉莉酸信号转导中,COI1(COR-insensitive 1)作为茉莉酸信号受体蛋白在其中发挥关键作用。本研究采用生物信息学方法,从藻类、苔藓类、蕨类、裸子及单、双子叶植物多谱系对COI蛋白家族进行比较基因组学研究,并取得以下结果:(1)同源基因鉴定结果发现,在所选的7种陆生植物中一共鉴定了55个COIs同源基因,然而,在低等的水生植物包括绿藻类(Chlorophytes)、红藻类(Rhodophytes)、硅藻类(Bacillariophytes)、灰胞藻类(Glaucophytes)及褐藻类(Phaeophytes)等基因组中均未发现其同源基因;(2)系统进化树分析表明,植物COI蛋白家族可以分为4个保守的亚家族,且在陆生植物扩增的同时可能已发生功能分化;(3)基因结构分析显示,植物COI家族基因结构表现多样性,主要体现在内含子的数目和长度上;(4)基因表达数据提示,COI基因家族成员参与植物生长发育的多个时期,且在不同组织器官以及不同的胁迫应答反应中发挥不同的作用。以上结果将为植物COI基因家族的深入研究提供参考。     

Origin and evolution of GBV-C/hepatitis G virus and relationships with ancient human migrations

The GB virus C/hepatitis G virus (GBV-C/HGV) is a newly identified human RNA virus, belonging to the Flaviviridae family. Persistent infection by GBV-C/HGV is common in humans, and genetically divergent isolates have been identified in different parts of the world. Due to the absence of a real pathogenic role of GBV-C/HGV in liver disease and its extremely low mutation rate, this virus is a potential marker to trace prehistoric links between human populations. In this study, origin and evolution of GBV-C/HGV were examined using a set of fully sequenced strains of worldwide origin. A first phylogenetic analysis, addressed to the short (255 nucleotides) NS5A overlapping coding region by the neighbor-joining method, suggested an ancient African origin of GBV-C/HGV. This notion was confirmed when the same analysis was applied to the genomic regions showing the lowest rate of synonymous substitutions, covering one-fourth (2184 nucleotides) of the total coding potential of the virus genome. By using a multivariate statistical method and extending the analysis to the complete coding region, fine details of the evolutionary history of GBV-C/HGV were further elucidated. By this approach, isolates from Southeast Asia appeared to be the most closely related to those of African origin, consistent with a major route of ancient human migrations from Africa to southeastern parts of the Asian continent. Received: 26 October 2000 / Accepted: 28 February 2001     

Reidentification of the keratinase-producing facultatively alkaliphilic Bacillus sp. AH-101 as Bacillus halodurans

Alkaliphilic Bacillus sp. AH-101 was characterized in terms of physiological and biochemical characteristics, and 16S rDNA sequence homology and DNA–DNA hybridization analyses were performed. Phylogenetic analysis of strain AH-101 based on comparison of 16S rDNA sequences revealed that this strain is closely related to Bacillus halodurans. DNA–DNA hybridization of AH-101 and related Bacillus reference strains showed that the highest level of DNA–DNA relatedness (88%) was found between strain AH-101 and the B. halodurans type strain (DSM497). Our findings demonstrate that strain AH-101 is a member of the species B. halodurans. Received: June 10, 1999 / Accepted: August 6, 1999     

Compositional Bias May Affect Both DNA-Based and Protein-Based Phylogenetic Reconstructions

It is now well-established that compositional bias in DNA sequences can adversely affect phylogenetic analysis based on those sequences. Phylogenetic analyses based on protein sequences are generally considered to be more reliable than those derived from the corresponding DNA sequences because it is believed that the use of encoded protein sequences circumvents the problems caused by nucleotide compositional biases in the DNA sequences. There exists, however, a correlation between AT/GC bias at the nucleotide level and content of AT- and GC-rich codons and their corresponding amino acids. Consequently, protein sequences can also be affected secondarily by nucleotide compositional bias. Here, we report that DNA bias not only may affect phylogenetic analysis based on DNA sequences, but also drives a protein bias which may affect analyses based on protein sequences. We present a striking example where common phylogenetic tools fail to recover the correct tree from complete animal mitochondrial protein-coding sequences. The data set is very extensive, containing several thousand sites per sequence, and the incorrect phylogenetic trees are statistically very well supported. Additionally, neither the use of the LogDet/paralinear transform nor removal of positions in the protein alignment with AT- or GC-rich codons allowed recovery of the correct tree. Two taxa with a large compositional bias continually group together in these analyses, despite a lack of close biological relatedness. We conclude that even protein-based phylogenetic trees may be misleading, and we advise caution in phylogenetic reconstruction using protein sequences, especially those that are compositionally biased. Received: 19 February 1998 / Accepted: 28 August 1998