Cloning and sequence analysis of Sox genes in a tetraploid cyprinid fish, Tor douronensis

A PCR survey for Sox genes in a young tetraploid fish Tor douronensis （Teleostei： Cyprinidae） was performed to access the evolutionary fates of important functional genes after genome duplication caused by polyploldizatlon event. Totally 13 Soxgenes were obtained in Tordouronensis, which represent SoxB, SoxC and SoxE groups. PhylogeneUc analysis of Sox genes in Tor douronensis provided evidence for fish-specific genome duplication, and suggested that Sox19 might be a teleost specific Sox gene member. Sequence analysis revealed most of the nucleoUde substitutions between duplicated copies of Soxgenes caused by tetreploldlzatlon event or their orthologues in other species are silent substitutions. It would appear that the sequences are under purifying selective pressure, strongly suggesting that they represent functional genes and supporting selection against all null allele at either of two duplicated loci of Sox4a, Sox9a and Sox9b. Surprising variations of the intron length and similarities of two duplicated copies of Soxga and Sox9b, suggest that Tor douronensis might be an allotetreploidy.     

Yeast genome duplication was followed by asynchronous differentiation of duplicated genes

Gene redundancy has been observed in yeast, plant and human genomes, and is thought to be a consequence of whole-genome duplications. Baker's yeast, Saccharomyces cerevisiae, contains several hundred duplicated genes. Duplication(s) could have occurred before or after a given speciation. To understand the evolution of the yeast genome, we analysed orthologues of some of these genes in several related yeast species. On the basis of the inferred phylogeny of each set of genes, we were able to deduce whether the gene duplicated and/or specialized before or after the divergence of two yeast lineages. Here we show that the gene duplications might have occurred as a single event, and that it probably took place before the Saccharomyces and Kluyveromyces lineages diverged from each other. Further evolution of each duplicated gene pair-such as specialization or differentiation of the two copies, or deletion of a single copy--has taken place independently throughout the evolution of these species.     

Analysis of intron sequence variability of the conservative HMG-box of Sox9 genes in allotetraploids and their original parents

The Sox genes of allotetraploids and their original maternal red crucian carp (Carassius caassius red var.) and original paternal common carp (Cyprinus carpio L.) were detected by PCR with the designed primers based on the conserved HMG-box sequence in different species. Sequencing of Sox genes indicated that two Sox9 genes (Atsox9a and Atsox9b) existed in allotetraploids, while only one Sox9 gene existed in red crucian carp (Rcsox9a) and common carp (Ccsox9b) . All of the four Sox9 genes contained an intron in the HMG-box. with the sizes of 413 bp, 703 bp, 401 bp and 714 bp, respectively. Moreover, the introns obeyed the rule of "GT-AG" . A high similarity was observed between introns of Atsox9a and Rcsox9a (94.4%), Atsox9b and Ccsox9b (97.8%). Interestingly, the deduced amino acid sequences of their corresponding exons all shared 100% identity. Thus, introns of the HMG-domain of Sox9s in allotetraploids and their original parents have not only the length polymorphism but also intron variability. Our results provide significant molecular evidence for the origin and evolution of allotetraploids.     

王锦蛇(Elaphe carinata)Sox基因保守区的克隆及测序

参照人SRY基因HMG-box保守区序列设计一对兼并引物,PCR扩增了王锦蛇的Sox基因,采用SSCP技术筛选阳性克隆,并对其进行了测序.结果在雌雄个体中共筛选出4个Sox基因,其中一个为雌性独有,显示出性别差异性;4个Sox基因DNA序列及编码的氨基酸序列与人相应SOX基因的相似性分别为91%、91%、92%、91%和96%、98%、96%、96%,显示出高度的保守性.实验结果为王锦蛇的性别决定机制研究提供了分子资料.     

Analysis of intron sequence variability of the conservative HMG-box of Sox9 genes in allotetraploids and their original parents

The Sox genes of allotetraploids and their original maternal red crucian carp （Carassius caassius red var.） and original paternal common carp (Cyprinus carpio L.) were detected by PCR with the designed primers based on the conserved HMG-box sequence in different species. Sequencing of Sox genes indicated that two Sox9 genes (Atsox9a and Atsox9b) existed in allotetraploids, while only one Sox9 gene existed in red crucian carp (Rcsox9a) and common carp (Ccsox9b). All of the four Sox9 genes contained an intron in the HMG-box, with the sizes of 413 bp, 703 bp, 401 bp and 714 bp, respectively. Moreover, the introns obeyed the rule of “GT-AG”. A high similarity was observed between introns of Atsox9a and Rcsox9a (94.4%), Atsox9b and Ccsox9b (97.8%). Interestingly, the deduced amino acid sequences of their corresponding exons all shared 100% identity. Thus, introns of the HMG-domain of Sox9s in allotetraploids and their original parents have not only the length polymorphism but also intron variability. Our results provide significant molecular evidence for the origin and evolution of allotetraploids.     

桃钙调磷酸酶B类似蛋白互作蛋白激酶基因家族鉴定与分析

钙调磷酸酶B类似蛋白互作蛋白激酶(CIPKs)在植物生长发育和抗逆过程中发挥着重要作用。为了对桃中CIPK家族基因进行系统分析,利用桃基因组数据库,通过生物信息学手段,鉴定桃CIPK家族基因的基因结构、染色体定位和编码蛋白,通过序列比对进行进化和分类分析。结果表明,桃基因组中含有18个CIPK基因,分布于桃的6条染色体上。MEME和Pfam保守结构域分析显示,桃CIPK蛋白均含有2个保守的PKinase和NAF结构域。进化树分析表明CIPKs可分为2个亚家族。Net Phos 2.0 Server结果显示Pp CIPKs存在着大量的丝氨酸(Ser)、苏氨酸(Thr)及酪氨酸(Tyr)潜在磷酸化位点。以上结果将为今后揭示桃CIPK蛋白的功能提供重要的理论基础。     

SPL家族基因复制及功能分化分析

【目的】基因复制及随后的功能分化是基因组和物种演化的重要驱动力。植物特有的转录因子家族SPL(SQUAMOSA-promoter binding protein like)广泛参与调控植物生长发育及响应逆境胁迫,为研究重复基因的起源方式和进化命运提供了良好的研究系统。本研究对葡萄(Vitis vinifera)、番木瓜(Carica papaya)、毛果杨(Populus trichocarpa)和拟南芥(Arabidopsis thaliana)4种模式植物的SPL基因家族开展基因复制及功能分化分析,为进一步研究SPL基因功能、预测种属特异性的功能基因提供系统进化角度的参考。【方法】利用SBP特征结构域,鉴定葡萄、番木瓜、毛果杨和拟南芥4种模式植物中SPL基因家族成员,并利用最大似然法构建系统进化树。基于物种内、物种间基因组共线性,分析SPL基因家族发生基因复制的方式及差异保留情况,并计算保留的SPL直系和旁系同源基因的同义、非同义替换率,分析功能分化情况。【结果】在4种模式植物中共鉴定出SPL基因73个,其中42个是miR156的靶基因。系统进化分析显示:73个SPL基因聚类为9个主要分支,miR156靶向SPL基因成簇聚集在6个主要分支;Clade I中SPL基因编码的2个锌指结构基序为C4和C₂HC,而其余8个分支中SPL基因的锌指结构基序由C3H和C₂HC组成。大规模基因组复制事件(片段复制或全基因组复制)是SPL基因家族发生基因重复的主要方式。根据基因组复制事件推算,15个古基因位点理论上应复制出的360个位点中,83.6%的重复位点发生丢失或演化成非SPL基因。本研究鉴定出旁系同源基因17对,直系同源基因27对,且所有旁系和直系同源基因的K_a/K_s(非同义替换率和同义替换率之比)值均小于1。【结论】在不同物种中保留下来的SPL直系同源基因受到较强的纯化选择,在功能上具有保守性;同一物种中保留下来的SPL旁系同源基因在进化过程中维持部分功能冗余,但在组织表达偏好性和蛋白功能上已呈现出不同形式的分化。     

Proof and evolutionary analysis of ancient genome duplication in the yeast Saccharomyces cerevisiae

Whole-genome duplication followed by massive gene loss and specialization has long been postulated as a powerful mechanism of evolutionary innovation. Recently, it has become possible to test this notion by searching complete genome sequence for signs of ancient duplication. Here, we show that the yeast Saccharomyces cerevisiae arose from ancient whole-genome duplication, by sequencing and analysing Kluyveromyces waltii, a related yeast species that diverged before the duplication. The two genomes are related by a 1:2 mapping, with each region of K. waltii corresponding to two regions of S. cerevisiae, as expected for whole-genome duplication. This resolves the long-standing controversy on the ancestry of the yeast genome, and makes it possible to study the fate of duplicated genes directly. Strikingly, 95% of cases of accelerated evolution involve only one member of a gene pair, providing strong support for a specific model of evolution, and allowing us to distinguish ancestral and derived functions.     

Phylogenetic origins and adaptive evolution of avian and mammalian haemoglobin genes

Recent years have seen rapid growth in amino acid sequence data on globins and nucleotide sequence data on haemoglobin genes and pseudogenes, and cladistic analysis of these data continues to reveal new facets of globin evolution. Our present findings demonstrate: (1) avian and mammalian embryonic alpha genes (pi and xi, respectively) had a monophyletic origin involving an alpha locus duplication about 400 Myr ago soon after the duplication which separated alpha and beta genes; (2) much later in phylogeny, independent beta-gene duplications produced the embryonic rho locus of birds and embryonic epsilon and fetal gamma loci of mammals. This parallels the earlier finding that myoglobins evolved more than once from generalized globin ancestors. Here we support the view that such globin evolution resulted from natural selection acting on mutations in duplicated genes. Thus, our evidence contradicts the neutralist view in which almost all amino acid substitutions in descent to extant globins evaded positive selection.     

拟南芥基因倍增及基因流失分析

基因倍增指基因组中含有基因的DNA片段复制出一个或更多拷贝的过程，是进化出新物种的主要原因。采用新的数据和方法研究拟南芥基因组的基因倍增过程，通过分析串联基因倍增和大规模基因倍增的存在比例和同义置换率分布，并估计大规模倍增后基因流失的比例，揭示了拟南芥基因组一次非常明显的全基因组倍增，采用科学的方法估计这次倍增发生在约8000万年前。比较该结果与之前的研究，提出了一种解释拟南芥基因倍增过程更合理的模型。     

Natural history and evolutionary principles of gene duplication in fungi

Gene duplication and loss is a powerful source of functional innovation. However, the general principles that govern this process are still largely unknown. With the growing number of sequenced genomes, it is now possible to examine these events in a comprehensive and unbiased manner. Here, we develop a procedure that resolves the evolutionary history of all genes in a large group of species. We apply our procedure to seventeen fungal genomes to create a genome-wide catalogue of gene trees that determine precise orthology and paralogy relations across these species. We show that gene duplication and loss is highly constrained by the functional properties and interacting partners of genes. In particular, stress-related genes exhibit many duplications and losses, whereas growth-related genes show selection against such changes. Whole-genome duplication circumvents this constraint and relaxes the dichotomy, resulting in an expanded functional scope of gene duplication. By characterizing the functional fate of duplicate genes we show that duplicated genes rarely diverge with respect to biochemical function, but typically diverge with respect to regulatory control. Surprisingly, paralogous modules of genes rarely arise, even after whole-genome duplication. Rather, gene duplication may drive the modularization of functional networks through specialization, thereby disentangling cellular systems.     

A genome-wide comparison of recent chimpanzee and human segmental duplications

We present a global comparison of differences in content of segmental duplication between human and chimpanzee, and determine that 33% of human duplications (> 94% sequence identity) are not duplicated in chimpanzee, including some human disease-causing duplications. Combining experimental and computational approaches, we estimate a genomic duplication rate of 4-5 megabases per million years since divergence. These changes have resulted in gene expression differences between the species. In terms of numbers of base pairs affected, we determine that de novo duplication has contributed most significantly to differences between the species, followed by deletion of ancestral duplications. Post-speciation gene conversion accounts for less than 10% of recent segmental duplication. Chimpanzee-specific hyperexpansion (> 100 copies) of particular segments of DNA have resulted in marked quantitative differences and alterations in the genome landscape between chimpanzee and human. Almost all of the most extreme differences relate to changes in chromosome structure, including the emergence of African great ape subterminal heterochromatin. Nevertheless, base per base, large segmental duplication events have had a greater impact (2.7%) in altering the genomic landscape of these two species than single-base-pair substitution (1.2%).     

鲈鱼cxcr4 cDNA克隆和序列分析

趋化因子受体(cxcr4)是一类重要的免疫调节因子受体,对原始生殖细胞的迁移和存活具有十分重要的作用。在对脊椎动物cxcr4进行初步生物信息学分析基础上设计引物,采用RT-PCR和RACE相结合的方法从鲈鱼卵巢克隆了cxcr4a全长和4b部分cDNAs序列,并预测其编码的氨基酸序列。结果表明,由于鱼类基因组经历一次特有的复制,cxcr4在鱼类存在两个复制基因。鲈鱼cxcr4a cDNA全长为1432 bp,编码311个氨基酸;cxcr4b部分cDNA片段长为905 bp,编码285个氨基酸。将鲈鱼cxcr4序列与所有已克隆的硬骨鱼类进行同源性比较,结果显示硬骨鱼类保守性较高,所有已经克隆的cxcr4按照进化地位的不同成簇聚类,表现出了较高的同源性。     

Gene duplication plays a major role in gene co-option: Studies into the evolution of the motilin/ghrelin family and their receptors

Extant genes can be modified, or ‘tinkered with’, to provide new roles or new characteristics of these genes. At the genetic level, this often involves gene duplication and specialization of the resulting genes into particular functions. We investigate how ligand-receptor partnerships evolve after gene duplication. While significant work has been conducted in this area, the examination of additional models should help us better understand the proposed models and potentially reveal novel evolutionary pattern...     

Gene conversion between duplicated genetic elements in yeast

The mitotic recombination behaviour of a duplication of the his4 region on chromosome III in the yeast Saccharomyces cerevisiae was studied. The major recombination event between the duplicated segments is gene conversion unassociated with reciprocal recombination. The rad52-1 mutation preferentially decreases mitotic gene conversion. These results suggest that mitotic gene conversion may occur by a different pathway from that occurring in meiosis. This mitotic gene conversion may be important in yeast mating type interconversion and the maintenance of sequence homogeneity in families of repeated eukaryotic genes.     

DELLA基因家族在被子植物中的系统演化关系

基于被子植物各主要分支代表类群的DELLA氨基酸序列，开展它们在被子植物中演化关系的系统发育分析.DELLA基因家族在双子叶植物早期演化阶段经历了一次复制事件，形成2大分支，每支都包含相应的蔷薇类和菊类；单子叶植物没有经历早期的复制事件，所有的DELLA基因聚在一起形成单一的支系.另外，证实了在被子植物的双子叶植物中存在第3个DELLA基因支系.     

禾谷类植物胚凝集素基因的分子起源与进化

对禾谷类植物胚凝集素的基因结构进行了详细分析，发现该基因有4个hevein(结合域）编码区，研究表明，禾谷类植物胚凝集素基因是由1个较小的带单个hevein的祖先基因（或片段）经过2次顺接重复产生的，第一次重复产生1个双hevein结构，然后以这个双hevein结构为单位再次发生重复，最终产生了具有4个hevein的禾谷类胚凝集素基因的原型。对42个不同来源的hevein DNA序列进化关系的研究进一步证实了上述结论。初步发现，小麦B组染色体编码的麦胚凝集素WGA－B基因可能是该类禾谷类凝集素基因中比较原始的类型。植物hevein的氨基酸通式可以表述为：CXXXXCCSXXGXCGXXXXXC。     

<Emphasis Type="Italic">Cis</Emphasis>-regulatory change and expression divergence between duplicate genes formed by genome duplication of <Emphasis Type="Italic">Arabidopsis thaliana</Emphasis>

As an index of functional divergence, expression divergence between duplicate gene copies has been observed and correlated with protein coding sequence divergence and bias in gene functional classes. However, the changes in the cis-regulatory region of the duplicate genes which is thought to have important role in expression divergence, has not been explored on the genome-wide scale. We analyzed functional genomics data for a large number of duplicated gene pairs formed by ancient polyploidy events in Arabidopsis thaliana. The divergence in cis-regulatory regions between two copies is positively correlated with the magnitude difference of expression. Moreover, we find that highly expressed duplicate gene pairs have a more diverged cis-regulatory region than weakly expressed gene pairs. We also show that the correlation between expression functional constraint and protein functional constraint is different in old and young duplicate pairs. Our results suggest that cis-regulatory sequence divergence contributes to the expression divergence of duplicate genes formed by genome-wide du-plication. Cis-regulatory region diverges faster in highly expressed duplicate pairs. The diversify selection strengths that act on cis-regulatory region and protein coding region are negatively correlated in young duplicate pairs under expression con-straint.