Evidence of positive selection acting at the human dopamine receptor D4 gene locus

Associations have been reported of the seven-repeat (7R) allele of the human dopamine receptor D4 (DRD4) gene with both attention-deficit/hyperactivity disorder and the personality trait of novelty seeking. This polymorphism occurs in a 48-bp tandem repea

Positive selection drives population differentiation in the skeletal genes in modern humans

During the course of evolution, the human skeletal system has evolved rapidly leading to an incredible array of phenotypic diversity, including variations in height and bone mineral density. However, the genetic basis of this phenotypic diversity and the relatively rapid tempo of evolution have remained largely undocumented. Here, we discover that skeletal genes exhibit a significantly greater level of population differentiation among humans compared with other genes in the genome. The pattern is exceptionally evident at amino acid-altering sites within these genes. Divergence is greater between Africans and both Europeans and East Asians. In contrast, relatively weak differentiation is observed between Europeans and East Asians. SNPs with higher levels of differentiation have correspondingly higher derived allele frequencies in Europeans and East Asians. Thus, it appears that positive selection has operated on skeletal genes in the non-African populations and this may have been initiated with the human colonization of Eurasia. In conclusion, we provide genetic evidence supporting the rapid evolution of the human skeletal system and the associated diversity of phenotypes.

Evidence for Positive Selection on the Osteogenin (BMP3) Gene in Human Populations

Background: Human skeletal system has evolved rapidly since the dispersal of modern humans from Africa, potentially driven by selection and adaptation. Osteogenin (BMP3) plays an important role in skeletal development and bone osteogenesis as an antagonist of the osteogenic bone morphogenetic proteins, and negatively regulates bone mineral density. Methodology/Principal Findings: Here, we resequenced the BMP3 gene from individuals in four geographically separated modern human populations. Features supportive of positive selection in the BMP3 gene were found including the presence of an excess of nonsynonymous mutations in modern humans, and a significantly lower genetic diversity that deviates from neutrality. The prevalent haplotypes of the first exon region in Europeans demonstrated features of long-range haplotype homogeneity. In contrast with findings in European, the derived allele SNP Arg192Gln shows higher extended haplotype homozygosity in East Asian. The worldwide allele frequency distribution of SNP shows not only a high-derived allele frequency in Asians, but also in Americans, which is suggestive of functional adaptation. Conclusions/Significance: In conclusion, we provide evidence for recent positive selection operating upon a crucial gene in skeletal development, which may provide new insight into the evolution of the skeletal system and bone development.

Positive selection on multiple antique allelic lineages of transferrin in the polyploid Carassius auratus

Transferrin polymorphism has been studied in the polyploid Carassius auratus by cloning and sequence analysis of cDNAs from its three subspecies C. auratus gibelio, C. auratus auratus, and C. auratus cuvieri. DNA polymorphism of extremely high extent was shown for the transferrin gene by the 248 segregation sites among coding region sequences of its alleles. The deduced amino acid sequences of the transferrin alleles showed variable theoretical physicochemical parameters, which might constitute molecular basis for their electrophoretic heterogeneity. Positive selection was inferred by the replacement/synonymous ratios larger than 1 in partial allelic lineages which was subsequently confirmed by likelihood simulation under neutral or selection models. Furthermore, the correspondent sites to these selected codons were collectively located at two planes in the crystallographic structure of rabbit transferrin, which suggested that the rapid evolution of C. auratus transferrin might correlate to its adaptation to variable environmental elements such as oxygen pressure. The minimal 26 recombination events were detected among coding sequences of C. auratus transferrin, with partial mosaic sequences and breakpoints identified by identity scanning and information site analyses. Phylogenetic analyses revealed multiple antique allelic lineages of transferrin, which was estimated to diverge fifteen to twenty MYA. All these features strongly suggested the role of balancing selection in long persistence of high transferrin polymorphism in C. auratus. Furthermore, owing to its particular evolutionary backgrounds, the silver crucian carp might possess a distinctive balancing selection mechanism.

Evidence for positive selection in phycoerythrin genes of red algae and cyanobacteria Prochlorococcus and Synechococcus

Because of the shortage of phycoerythrin (PE) gene sequences from rhodophytes, peBA encoding beta- and alpha-subunits of PE from three species of red algae (Ceramium boydenn, Halymenia sinensis, and Plocamium telfariae) were cloned and sequenced. Different selection forces have affected the evolution of PE lineages. 8.9 % of the codons were subject to positive selection within the PE lineages (excluding high-irradiance adapted Prochlorococcus). More than 40 % of the sites may be under positive selection, and nearly 20 % sites are weakly constraint sites in high-irradiance adapted Prochlorococcus. Sites most likely undergoing positive selection were found in the chromophore binding domains, suggesting that these sites have played important roles in environmental adaptation during PE diversification. Moreover, the heterogeneous distribution of positively selected sites along the PE gene was revealed from the comparison of low-irradiance adapted Prochlorococcus and marine Synechococcus, which firmly suggests that evolutionary patterns of PEs in these two lineages are significantly different.

Development of a positive-negative selection procedure for gene targeting in fish cells

The gene targeting technique is a powerful tool for analyzing functions of cloned genes and for generating transgenic animals with site-directed integration of foreign genes. In order to develop this technique in fish, positive-negative selection (PNS) and homologous recombination vectors were constructed, and their expression was examined in fish cells. A vector (pNK) for PNS consists of the neomycin resistance gene (neo) as a positive selectable marker gene and the herpes simplex virus (HSV) thymidine kinase (tk) gene as a negative selectable marker gene. Positive selection with geneticin (G418) of epithelioma papulosum of carp (EPC) cells transfected with linearized pNK vector yielded 350 colonies, while double selection of transfected EPC cells with G418 and gancyclovir (Gc) resulted in nearly complete cell death, demonstrating that the PNS procedure is effective in fish cells. Homologous recombination vectors consist of the Xiphophorus melanoma receptor kinase (X mrk(Y)) gene as homologous sequence in addition to the neo and tk genes. Conditions for homologous recombination vector transfection and drug selection were established. After verification of the feasibility of expression of homologous recombination vectors in EPC cells, the first gene targeting experiments were attempted in the Xiphophorus melanoma cell line, PSM. Positive-negative selection of the targeting vector-transfectants led to a low enrichment in this particular cell line. The reasons for the low enrichment in PSM cells were discussed. (C) 2002 Elsevier Science B.V. All rights reserved.

Retention of the developmental pluripotency in medaka embryonic stem cells after gene transfer and long-term drug selection for gene targeting in fish

Embryonic stem (ES) cells provide a unique tool for introducing random or targeted genetic alterations, because it is possible that the desired, but extremely rare recombinant genotypes can be screened by drug selection. ES cell-mediated transgenesis has so far been limited to the mouse. In the fish medaka (Oryzias latipes) several ES cell lines have been made available. Here we report the optimized conditions for gene transfer and drug selection in the medaka ES cell line MES1 as a prelude for gene targeting in fish. MES1 cells gave rise to a moderate to high transfection efficiency by the calcium phosphate co-precipitation (5%), commercial reagents Fugene (11%), GeneJuice (21%) and electroporation (>30%). Transient gene transfer and CAT reporter assay revealed that several enhancers/promoters and their combinations including CMV, RSV and ST (the SV40 virus early gene enhancer linked to the thymidine kinase promoter) were suitable regulatory sequences to drive transgene expression in the MES1 cells. We show that neo, hyg or pac conferred resistance to G418, hygromycin or puromycin for positive selection, while the HSV-tk generated sensitivity to ganciclovir for negative selection. The positive-negative selection procedure that is widely used for gene targeting in mouse ES cells was found to be effective also in MES1 cells. Importantly, we demonstrate that MES1 cells after gene transfer and long-term drug selection retained the developmental pluripotency, as they were able to undergo induced differentiation in vitro and to contribute to various tissues and organs during chimeric embryogenesis.

分子系统学分析平台的建立和应用

分子系统学建立在实验和计算的基础之上。DNA快速测序技术的普及为分子系统学家提供了大量数据，而序列分析技术则是探索数据发现知识的重要工具。在基因组时代，随着大量模式生物完整基因组序列的获得，分子系统学正面临着前所未有的机遇和挑战。一方面，生命之树计划有助于确定新的模式生物和开展相应的基因组计划;另一方面，模式生物的基因组计划有助于阐明它们之间的进化关系和基因组的进化模式。更为重要的是，分子系统学序列分析技术已经发展成为探索与整合基因组数据的强有力工具，从而在生命科学中发挥重要作用。事实上，分子系统学和基因组学的相互渗透正在形成一门崭新的交叉学科——系统发育基因组学。 为了奠定分子系统学研究中信息管理和数据分析工作的坚实基础，我们建立了分子系统发育分析平台。该平台为研究人员提供专业数据库服务和数据分析技术支持，以及相关的网络资源。 分子系统发育分析平台包括了3个专业数据库。第一个是DNA凭证标本数据库。该数据库中的记录包括了7项字段：英文科名、中文科名、物种拉丁名、采集人、采集号、采集地和采集时间。用户可以通过设定单个或多个字段的取值进行检索。截止2004年6月1日，该数据库共包括3491条标本记录。第二个是引物数据库。PCR引物是分子系统学实验的重要条件之一。该数据库中的记录包括3项字段：引物名称、序列内容和退火温度。用户可以通过设定单个或多个字段的取值进行检索。截止2004年6月1日，该数据库共包括170条用于扩增植物细胞核、叶绿体和线粒体基因组DNA序列的引物记录。第三个是生物计算数据库。该数据库为研究人员提供传输和保存序列分析数据和结果文件的服务。 为了确保数据库的安全性和使用性，我们开发了数据库的接口和检索工具，以及系统管理员和用户资格认证程序。通过前者，使用者可以进行数据的上传、下载、管理和检索等操作。而后者则是对不同使用者身份和权限进行设定。管理员的权限高于用户，主要负责本系统的日常维护和管理工作，以及对新增管理员和用户进行资格认证。 分析技术支持旨在帮助用户快速掌握常用的系统发育分析方法，进行有效的数据分析，从复杂的统计学算法和计算机程序中解放出来，将精力集中于计算结果的生物学解释。在该部分中，我们首先简要介绍了常用的分析方法，并且针对分子系统学中的不同问题提供了相应的解决方案。这些问题包括：系统发育重建、替代速率和分歧时间的估计、祖先分布区的重建、性状进化假说的检验、以及密码子水平适应性进化的检测。我们特别强调了似然比检验和贝叶斯推测作为方法论上的重要进展在分子系统学中所发挥的关键作用。本部分还包括大量常用的分子系统学程序或软件包及其快速使用说明和命令模块。下载安装之后，用户即可按照说明使用命令模块进行数据分析。 此外，该平台还提供了一些常用的网络资源地址，如生物信息中心、分子进化和系统发育实验室、专业期刊和相关数据库等。 最后还给出了4个应用实例，即针对特定分子系统学问题的解决方案和初步的分析结果。 第一个例子说明系统发育重建方法的应用。为了确定杨梅科的系统学位置，对6种DNA序列和叶绿体trnL-F区内的间隔性状进行了分析。单个分析表明这6种序列之间在系统学信息上存在显著差异。叶绿体基因组序列的合并分析强烈支持杨梅科和（木麻黄科，（桦木科，核果桦科））的姐妹群关系，而间隔性状的存在能够充分提高其分辨率和支持率。 第二个例子说明如何推测历史生物地理学过程。我们对壳斗目8科25属植物叶绿体基因组的trnL-F、matK、rbcL和atpB的合并序列进行了最大简约分析，得到唯一的最大简约树。基于该系统树和25属植物的地理分布数据，采用扩散－替代分析方法重建了系统树每个节点上的祖先分布区，推测了壳斗目的分布历史。结果表明，壳斗目的历史生物地理学过程由3次替代事件和20次扩散事件组成。其中最重要的替代事件是由于冈瓦纳大陆和劳亚大陆分离所导致的南青冈科及其姐妹群之间的分化。另外，在壳斗科和核心高等金缕梅类中多次发生从欧亚大陆到北美洲、甚至南美洲的平行扩散事件。 第三个例子说明如何估计分歧时间。我们仍然使用扩散－替代分析中所用的最大简约树作为分析的依据，并根据等级制似然比检验确定的最优替代模型对该系统树的支长进行了最大似然优化。似然比检验表明，该系统树不服从分子钟假说。我们以冈瓦纳大陆和劳亚大陆分离的地质事件和5个属的最早化石记录作为标定点，采用罚分似然法在没有分子钟的条件下估计了壳斗目的科间分歧时间。结果表明，绝大多数科间分歧事件都发生在白垩纪。 第四个例子说明如何检测密码子水平的适应性进化。分支间可变选择压力模型的似然比检验表明SARS冠状病毒的S基因在跨种传播过程中发生了正选择。

Molecular evolution of CXCR1, a G protein-coupled receptor involved in signal transduction of neutrophils

Human neutrophils are a type of white blood cell, which forms an early line of defense against bacterial infections. Neutrophils are highly responsive to the chemokine, interleukin-8 (IL-8) due to the abundant distribution of CXCR1, one of the IL-8 receptors on the neutrophil cell surface. As a member of the GPCR family, CXCR1 plays a crucial role in the IL-8 signal transduction pathway in neutrophils. We sequenced the complete coding region of the CXCR1 gene in worldwide human populations and five representative nonhuman primate species. Our results indicate accelerated protein evolution in the human lineage, which was likely caused by Darwinian positive selection. The sliding window analysis and the codon-based neutrality test identified signatures of positive selection at the N-terminal ligand/receptor recognition domain of human CXCR1.

Accelerated evolution of the pituitary adenylate cyclase-activating polypeptide precursor gene during human origin

Pituitary adenylate cyclase-activating polypeptide (PACAP) is a neuropeptide abundantly expressed in the central nervous system and involved in regulating neurogenesis and neuronal signal transduction. The amino acid sequence of PACAP is extremely conserved across vertebrate species, indicating a strong functional constraint during the course of evolution. However, through comparative sequence analysis, we demonstrated that the PACAP precursor gene underwent an accelerated evolution in the human lineage since the divergence from chimpanzees, and the amino acid substitution rate in humans is at least seven times faster than that in other mammal species resulting from strong Darwinian positive selection. Eleven human-specific amino acid changes were identified in the PACAP precursors, which are conserved from murine to African apes. Protein structural analysis suggested that a putative novel Deuropeptide might have originated during human evolution and functioned in the human brain. Our data suggested that the PACAP precursor gene underwent adaptive changes during human origin and may have contributed to the formation of human cognition.

Adaptive evolution of MRGX2, a human sensory neuron specific gene involved in nociception

MRGX2, a G-protein-coupled receptor, is specifically expressed in the sensory neurons of the human peripheral nervous system and involved in nociception. Here, we studied DNA polymorphism patterns and evolution of the MRGX2 gene in world-wide human populations and the representative nonhuman primate species. Our results demonstrated that MRGX2 had undergone adaptive changes in the path of human evolution, which were likely caused by Darwinian positive selection. The patterns of DNA sequence polymorphisms in human populations showed an excess of derived substitutions, which against the expectation of neutral evolution, implying that the adaptive evolution of MRGX2 in humans was a relatively recent event. The reconstructed secondary structure of the human MRGX2 revealed that three of the four human-specific amino acid substitutions were located in the extra-cellular domains. Such critical substitutions may alter the interactions between MRGX2 protein and its ligand, thus, potentially led to adaptive changes of the pain-perception-related nervous system during human evolution. (c) 2005 Elsevier B.V. All rights reserved.

Detecting lineage-specific adaptive evolution of brain-expressed genes in human using rhesus macaque as outgroup

Comparative genetic analysis between human and chimpanzee may detect genetic divergences responsible for human-specific characteristics. Previous studies have identified a series of genes that potentially underwent Darwinian positive selection during huma