芸薹属植物比较基因组学研究进展

芸薹（Brassica）植物是双子叶植物比较基因组学研究的重点对象。经过十几年的研究,芸薹属植物比较基因组学研究已取得很大进膜。宏观共线性和微观共线性两个层次的研究均发现,芸薹属植物之间以及芸薹属和拟南芥之间都存在广泛的共线性,表明拟南芥信息在芸薹属中具有重要应用价值。芸薹属作物基因组内存在着多个拷贝的共线性区域,支持二倍体芸薹属作物起源于多倍体祖先的假设。     

芸薹属植物比较基因组学研究进展

芸薹属(Brassica)植物是双子叶植物比较基因组学研究的重点对象。经过十几年的研究, 芸薹属植物比较基因组学研究已取得很大进展。宏观共线性和微观共线性两个层次的研究均发现, 芸薹属植物之间以及芸薹属和拟南芥之间都存在广泛的共线性, 表明拟南芥信息在芸薹属中具有重要应用价值。芸薹属作物基因组内存在着多个拷贝的共线性区域, 支持二倍体芸薹属作物起源于多倍体祖先的假设。     

主要禾谷类作物比较基因组学研究策略与进展

随着拟南芥、水稻等模式植物基因组测序计划的完成, 比较基因组学作为一门新兴学科, 近年来发展迅速, 为植物基因组的进化、结构和功能研究开辟了新的途径。文章综述了比较基因组学在作物比较遗传作图、基因结构区域的微共线性、ESTs和蛋白质水平的比较以及基于比较基因组学的基因和QTL的克隆等方面内容与研究进展, 分析了不同水平上比较基因组学研究策略的原理、特点、可行性, 以期为利用模式生物的基因和基因组数据、采用比较基因组学策略克隆作物重要性状功能基因、阐明基因组结构与进化提供帮助。     

玉米比较基因组学研究进展

玉米是世界上重要的粮食作物 ,长期以来一直是遗传学、分子生物学和基因组学研究的重点对象。近十多年来 ,涉及到玉米的基因组学研究取得了很大进展。不仅在利用比较遗传作图方法方面发现玉米和其它植物 (尤其是禾谷类作物 )的基因组存在广泛的共线性 ,在较小的DNA区域上也发现存在微共线性。尽管还存在一些共线性的例外情形 ,进一步的比较基因组学研究将深入阐明玉米基因组的结构和进化 ,并把这些研究成果应用于基因发掘中。     

乳酸菌基因组学研究进展

伴随着高通量测序技术的快速发展和测序成本的降低,越来越多的微生物基因组全序列测定得以实现,从基因组学的层面了解乳酸菌的遗传结构和组成,进而分析和掌握其生物学功能已经逐渐成为可能.迄今为止已经有22株乳酸菌的基因组完成测序并公开发表,还有至少12株测序工作仍在进行中.本文在分析相关文献和生物信息数据基础上,从乳酸菌基因组特点、代谢多样性、进化及共线性四个方面对乳酸菌基因组学研究进展进行了总结,旨在为乳酸菌研究和应用提供参考.     

林木基因组学研究进展

林木基因组学研究进展迅速。结构基因组学方面,已构建了近40个主要造林树种的遗传连锁图谱,在不同树种中定位了30余个重要的数量性状位点,在部分树种中开展了基因组比较和综合图谱构建研究,杨树的全基因组测序已经完成,桉树的全基因组测序正在进行。功能基因组学方面,已分析了主要造林树种多种组织的转录组EST序列,对林木次生生长与木材形成、开花和抗寒性的形成等过程开展了功能基因组学研究。另外,探讨了林木基因组学研究的发展趋势,以期为我国林木基因组学研究提供有益的参考。     

哺乳动物抗凝血酶基因的分子特征、微共线性与适应性进化

抗凝血酶(AT)是哺乳动物体内重要的天然抗凝血因子之一,它隶属于丝氨酸蛋白酶抑制物家族,主要参与并调节复杂的血凝过程。基于比较基因组学手段,共挖掘出17个哺乳动物抗凝血酶基因(AT),并剖析了它们的基因结构、微共线性、保守基序、功能结构域、以及系统进化关系。基因结构与微共线分析表明,哺乳动物AT基因具有5-12个外显子,大多数是7个外显子;不同物种AT基因所处区段之间具有较好的共线性。哺乳动物AT蛋白特征分析显示,SERPIN功能结构域与保守基序1、2、3、4、5、8和9存在相互重叠的部分。AT基因进化树揭示基因进化和通常认为的物种进化几乎一致。同时,利用PAML中Codeml的位点特异模型在AT基因中发掘了1个正选择位点328D。     

落叶松-杨栅锈菌基因复制事件及共线性分析

落叶松-杨栅锈菌是一种分布广且危害严重的林木病原真菌。了解基因组内发生的基因复制事件及基因组间的共线性关系,能为最终理解落叶松-杨栅锈菌适应性进化等生物学问题提供帮助。落叶松-杨栅锈菌全基因组水平上基因复制相关研究未见报道,共线性研究报道也较少。本研究利用落叶松-杨栅锈菌全基因组序列分析其基因复制模式。结果表明,落叶松-杨栅锈菌转座复制基因的数目远高于片段复制基因、串联复制基因及相邻复制基因。落叶松-杨栅锈菌基因组内不存在大规模的片段复制,且基因年龄法显示节点同义替换率分布图上没有峰形出现,推断该锈菌未发生全基因组复制。富集分析显示不同类型复制基因富集于不同的功能条目,如串联复制基因富集于碳水化合物的转运和代谢而转座复制基因富集于次生代谢物合成、代谢与分解。共线性分析显示落叶松-杨栅锈菌与松栎柱锈菌及小麦条锈菌的共线性程度均较低,3种锈菌间存在1个共同的共线性区域,该保守区域包含6个基因,其中1个可能编码小分泌蛋白的基因值得关注。     

芸薹属植物基因组学研究进展

芸薹属是十字花科植物300多个属中最为重要的一个属,是我国栽培面积最大的蔬菜作物。拟南芥和芸薹属在十字花科中两者的亲缘关系最近,通过它们之间的比较作图,两者之间的共线性被大量发现。模式植物拟南芥全基因组测序已经完成,这为芸薹属作物的基因组研究提供了便利条件。芸薹属作物的功能基因组学能够进一步明确不同发育时期基因的功能,为解释芸薹属的进化提供基因证据。就芸薹属植物在比较基因组学、功能基因组学最新进展,特别是芸薹属与模式植物拟南芥在基因组之间的相互关系进行了综述。     

禾本科植物大小基因组间在基因密度上的共线性与保守性

禾本科植物大小基因组间在基因密度上的共线性与保守性@BeatKeller$InstituteofPlantBiology!UniversityofZǖｒｉｃｈＺｏｌｌｉｋｅｒｓｔｒａｓｓｅ107,CH-8008Zǖｒｉｃｈ,Switzerland禾本科植物;;基因组;;基因密度;;共线性     

Performance and scalability of discriminative metrics for comparative gene identification in 12 Drosophila genomes

Comparative genomics of multiple related species is a powerful methodology for the discovery of functional genomic elements, and its power should increase with the number of species compared. Here, we use 12 Drosophila genomes to study the power of comparative genomics metrics to distinguish between protein-coding and non-coding regions. First, we study the relative power of different comparative metrics and their relationship to single-species metrics. We find that even relatively simple multi-species metrics robustly outperform advanced single-species metrics, especially for shorter exons (≤240 nt), which are common in animal genomes. Moreover, the two capture largely independent features of protein-coding genes, with different sensitivity/specificity trade-offs, such that their combinations lead to even greater discriminatory power. In addition, we study how discovery power scales with the number and phylogenetic distance of the genomes compared. We find that species at a broad range of distances are comparably effective informants for pairwise comparative gene identification, but that these are surpassed by multi-species comparisons at similar evolutionary divergence. In particular, while pairwise discovery power plateaued at larger distances and never outperformed the most advanced single-species metrics, multi-species comparisons continued to benefit even from the most distant species with no apparent saturation. Last, we find that genes in functional categories typically considered fast-evolving can nonetheless be recovered at very high rates using comparative methods. Our results have implications for comparative genomics analyses in any species, including the human.     

Partial shotgun sequencing of the Boechera stricta genome reveals extensive microsynteny and promoter conservation with Arabidopsis

Comparative genomics provides insight into the evolutionary dynamics that shape discrete sequences as well as whole genomes. To advance comparative genomics within the Brassicaceae, we have end sequenced 23,136 medium-sized insert clones from Boechera stricta, a wild relative of Arabidopsis (Arabidopsis thaliana). A significant proportion of these sequences, 18,797, are nonredundant and display highly significant similarity (BLASTn e-value < or = 10(-30)) to low copy number Arabidopsis genomic regions, including more than 9,000 annotated coding sequences. We have used this dataset to identify orthologous gene pairs in the two species and to perform a global comparison of DNA regions 5' to annotated coding regions. On average, the 500 nucleotides upstream to coding sequences display 71.4% identity between the two species. In a similar analysis, 61.4% identity was observed between 5' noncoding sequences of Brassica oleracea and Arabidopsis, indicating that regulatory regions are not as diverged among these lineages as previously anticipated. By mapping the B. stricta end sequences onto the Arabidopsis genome, we have identified nearly 2,000 conserved blocks of microsynteny (bracketing 26% of the Arabidopsis genome). A comparison of fully sequenced B. stricta inserts to their homologous Arabidopsis genomic regions indicates that indel polymorphisms >5 kb contribute substantially to the genome size difference observed between the two species. Further, we demonstrate that microsynteny inferred from end-sequence data can be applied to the rapid identification and cloning of genomic regions of interest from nonmodel species. These results suggest that among diploid relatives of Arabidopsis, small- to medium-scale shotgun sequencing approaches can provide rapid and cost-effective benefits to evolutionary and/or functional comparative genomic frameworks.     

Development of eSSR-Markers in Setaria italica and Their Applicability in Studying Genetic Diversity,Cross-Transferability and Comparative Mapping in Millet and Non-Millet Species

Foxtail millet ( Setaria italica L.) is a tractable experimental model crop for studying functional genomics of millets and bioenergy grasses. But the limited availability of genomic resources, particularly expressed sequence-based genic markers is significantly impeding its genetic improvement. Considering this, we attempted to develop EST-derived-SSR (eSSR) markers and utilize them in germplasm characterization, cross-genera transferability and in silico comparative mapping. From 66,027 foxtail millet EST sequences 24,828 non-redundant ESTs were deduced, representing ~16 Mb, which revealed 534 (~2%) eSSRs in 495 SSR containing ESTs at a frequency of 1/30 kb. A total of 447 pp were successfully designed, of which 327 were mapped physically onto nine chromosomes. About 106 selected primer pairs representing the foxtail millet genome showed high-level of cross-genera amplification at an average of ~88% in eight millets and four non-millet species. Broad range of genetic diversity (0.02–0.65) obtained in constructed phylogenetic tree using 40 eSSR markers demonstrated its utility in germplasm characterizations and phylogenetics. Comparative mapping of physically mapped eSSR markers showed considerable proportion of sequence-based orthology and syntenic relationship between foxtail millet chromosomes and sorghum (~68%), maize (~61%) and rice (~42%) chromosomes. Synteny analysis of eSSRs of foxtail millet, rice, maize and sorghum suggested the nested chromosome fusion frequently observed in grass genomes. Thus, for the first time we had generated large-scale eSSR markers in foxtail millet and demonstrated their utility in germplasm characterization, transferability, phylogenetics and comparative mapping studies in millets and bioenergy grass species.     

Comparative genomics in teleost species: Knowledge transfer by linking the genomes of model and non-model fish species

Comparative genomics is a powerful tool to transfer knowledge coming from model fish species to non-model fish species of economic or/and evolutionary interest. Such transfer is of importance as functional studies either are difficult to perform with most non-model species. The first comparative map constructed using the human and the chimpanzee genome allowed the identification of putative orthologues. Although comparative mapping in teleosts is still in its infancy, five model teleost genomes from different orders have been fully sequenced to date and the sequencing of several commercially important species are also underway or near completion. The accessibility of these whole genome sequences and rapid developments in genomics of fish species are paving the way towards new and valuable research in comparative genetics and genomics. With the accumulation of information in model species, the genetic and genomic characterization of non-model, but economically, physiologically or evolutionary important species is now feasible. Furthermore, comparison of low coverage gene maps of non-model fish species against fully sequenced fish species will enhance the efficiency of candidate gene identification projected for quantitative trait loci (QTL) scans for traits of special interest.     

鱼类特异的基因组复制

辐鳍鱼类是脊椎动物中种类最多、分布最广的类群,其基因组大小不等。过去的观点认为,在脊椎动物进化历程中曾发生了两次基因组复制。近期的系统基因组学研究资料进一步提出,在大约350百万年,辐鳍鱼还发生了第三次基因组复制,即鱼类特异的基因组复制(fish-specificgenomeduplication,FSGD),且发生的时间正处在“物种极度丰富”的硬骨鱼谱系(真骨总目)和“物种贫乏”的谱系(辐鳍鱼纲基部的类群)出现分歧的时间点,表明FSGD与硬骨鱼物种和生物多样性的增加有关。进一步开展鱼类比较基因组学和功能基因组学研究将进一步验证FSGD这一假说。     

Genomics and early cellular evolution. The origin of the DNA world.

The sequencing of several genomes from each of the three domains of life (Archaea, Bacteria and Eukarya) has provided a huge amount of data that can be used to gain insight about early cellular evolution. Some features of the universal tree of life based on rRNA polygenies have been confirmed, such as the division of the cellular living world into three domains. The monophyly of each domain is supported by comparative genomics. However, the hyperthermophilic nature of the 'last universal common ancestor' (LUCA) is not confirmed. Comparative genomics has revealed that gene transfers have been (and still are) very frequent in genome evolution. Nevertheless, a core of informational genes appears more resistant to transfer, testifying for a close relationship between archaeal and eukaryal informational processes. This observation can be explained either by a common unique history between Archaea and Eukarya or by an atypical evolution of these systems in Bacteria. At the moment, comparative genomics still does not allow to choose between a simple LUCA, possibly with an RNA genome, or a complex LUCA, with a DNA genome and informational mechanisms similar to those of Archaea and Eukarya. Further comparative studies on informational mechanisms in the three domains should help to resolve this critical question. The role of viruses in the origin and evolution of DNA genomes also appears an area worth of active investigations. I suggest here that DNA and DNA replication mechanisms appeared first in the virus world before being transferred into cellular organisms.     

Mouse biodiversity in the genomic era

Comparative genomics has developed by comparison of distantly related genomes, for which the link between the reported evolutionary changes and species development/physiology/ecology is not obvious. It is argued that the mouse (genus Mus) is an optimal model for microevolutionary genomics in vertebrates. This is because the mouse genome sequence, physical and genetic map have been completed, because mouse genetics, morpho-anatomy, pathology, behavior and ecology are well-studied, and because the Mus genus is a diverse, well- documented taxon, allowing comparative studies at the level of individual, population, subspecies, and species. The potential of the interaction between mouse genome and mouse biodiversity is illustrated by recent studies of speciation in the house mouse Mus musculus, and studies about the evolution of isochores, the peculiar pattern of GC-content variation across mammalian genomes.     

Computational methods for Gene Orthology inference

Accurate inference of orthologous genes is a pre-requisite for most comparative genomics studies, and is also important for functional annotation of new genomes. Identification of orthologous gene sets typically involves phylogenetic tree analysis, heuristic algorithms based on sequence conservation, synteny analysis, or some combination of these approaches. The most direct tree-based methods typically rely on the comparison of an individual gene tree with a species tree. Once the two trees are accurately constructed, orthologs are straightforwardly identified by the definition of orthology as those homologs that are related by speciation, rather than gene duplication, at their most recent point of origin. Although ideal for the purpose of orthology identification in principle, phylogenetic trees are computationally expensive to construct for large numbers of genes and genomes, and they often contain errors, especially at large evolutionary distances. Moreover, in many organisms, in particular prokaryotes and viruses, evolution does not appear to have followed a simple 'tree-like' mode, which makes conventional tree reconciliation inapplicable. Other, heuristic methods identify probable orthologs as the closest homologous pairs or groups of genes in a set of organisms. These approaches are faster and easier to automate than tree-based methods, with efficient implementations provided by graph-theoretical algorithms enabling comparisons of thousands of genomes. Comparisons of these two approaches show that, despite conceptual differences, they produce similar sets of orthologs, especially at short evolutionary distances. Synteny also can aid in identification of orthologs. Often, tree-based, sequence similarity- and synteny-based approaches can be combined into flexible hybrid methods.     

白菜EST-SSR标记的通用性

EST-SSR是从表达序列标签(expressedsequencetag,EST)中开发的新型简单序列重复(simplesequencerepeat,SSR)标记。根据白菜EST设计了15对SSR引物,对白菜、油菜、玉米、高粱、水稻和茶树等进行了PCR,研究了白菜的EST-SSR标记在不同物种间的通用性。所设计的引物对不同白菜品种、近缘种油菜和远缘种玉米、高粱、水稻和茶树的扩增成功率分别为100%、93.3%、80%、93.3%、93.3%和86.7%。在15对引物中,有11对在远缘种中都有扩增产物,而且一些引物可显示多态性,多态性引物分别占了可扩增引物的33.3%、28.6%、28.6%和61.5%。这些结果表明,白菜EST-SSR引物具有较高的通用性,这对于比较基因组学研究有重要意义。