共查询到20条相似文献,搜索用时 0 毫秒
1.
Buchmann JP Matsumoto T Stein N Keller B Wicker T 《The Plant journal : for cell and molecular biology》2012,71(4):550-563
Intergenic sequences evolve rapidly in plant genomes through a process known as genomic turnover. To investigate the influence of DNA transposons on genomic turnover, we compared 1 Mbp of orthologous genomic sequences from Brachypodium distachyon and Brachypodium sylvaticum. We found that B. distachyon and B. sylvaticum diverged approximately 1.7-2.0 million years ago. Of a total of 219 genes identified on the analyzed sequences, 211 were colinear. However, only 24 transposable elements of a total of 451 were orthologous (i.e. inserted in the common ancestor). We characterized in detail 59 insertions and 60 excisions of DNA transposons in one or other species, which altered 17% of the intergenic space. The DNA transposon excision sites showed complex and highly diagnostic sequence motifs for double-strand break (DSB) repair. DNA transposon excisions can lead to extensive deletions of hundreds of base pairs of flanking sequence if the DSB is repaired by 'single-strand annealing', or insertions of up to several hundred base pairs of 'filler DNA' if the DSB is repaired by 'synthesis-dependent strand annealing'. In some cases, DSBs were repaired by a combination of both methods. We present a model for the evolution of intergenic sequences in which repair of DSBs upon DNA transposon excision is a major factor in the rapid turnover and erosion of intergenic sequences. 相似文献
2.
麦类作物是人类主要的食物来源,其遗传改良对于保障世界粮食生产具有重要作用。获得麦类作物的基因组和功能基因组信息是作物遗传育种学家解析种质资源高产及抗逆机理,并准确选择目标性状、实现分子设计育种目标的有效途径。目前,二穗短柄草(Brachypodium distachyum)是早熟禾亚科中唯一完成全基因组测序的植物。以二穗短柄草为模式植物,利用比较基因组学方法获得早熟禾亚科中基因组庞大而复杂的麦类作物的相关信息,必将加速麦类作物的遗传改良进程。本文重点介绍近十年来短柄草在麦类作物比较基因组学方面的研究进展。 相似文献
3.
4.
Abstract More than 190 plastid genomes have been completely sequenced during the past two decades due to advances in DNA sequencing technologies. Based on this unprecedented abundance of data, extensive genomic changes have been revealed in the plastid genomes. Inversion is the most common mechanism that leads to gene order changes. Several inversion events have been recognized as informative phylogenetic markers, such as a 30‐kb inversion found in all living vascular plants minus lycopsids and two short inversions putatively shared by all ferns. Gene loss is a common event throughout plastid genome evolution. Many genes were independently lost or transferred to the nuclear genome in multiple plant lineages. The trnR‐CCG gene was lost in some clades of lycophytes, ferns, and seed plants, and all the ndh genes were absent in parasitic plants, gnetophytes, Pinaceae, and the Taiwan moth orchid. Certain parasitic plants have, in particular, lost plastid genes related to photosynthesis because of the relaxation of functional constraint. The dramatic growth of plastid genome sequences has also promoted the use of whole plastid sequences and genomic features to solve phylogenetic problems. Chloroplast phylogenomics has provided additional evidence for deep‐level phylogenetic relationships as well as increased phylogenetic resolutions at low taxonomic levels. However, chloroplast phylogenomics is still in its infant stage and rigorous analysis methodology has yet to be developed. 相似文献
5.
More than 190 plastid genomes have been completely sequenced during the past two decades due to advances in DNA sequencing technologies.Based on this unprecedented abundance of data,extensive genomic changes have been revealed in the plastid genomes.Inversion is the most common mechanism that leads to gene order changes.Several inversion events have been recognized as informative phylogenetic markers,such as a 30-kb inversion found in all living vascular plants minus lycopsids and two short inversions putat... 相似文献
6.
The patterns of genetic diversity caused by rapid range expansions following recent colonizations are best observed using highly polymorphic genetic markers. We characterized nine microsatellite markers for Brachypodium sylvaticum, a bunchgrass invasive in the Northwestern United States and native to Eurasia. Loci exhibited from two to 10 alleles, and generally had high F(IS) values. These loci will help identify sources of new populations in the region, and they will be useful for studying patterns of genetic diversity during rapid range expansions. 相似文献
8.
9.
Krattinger SG Lagudah ES Wicker T Risk JM Ashton AR Selter LL Matsumoto T Keller B 《The Plant journal : for cell and molecular biology》2011,65(3):392-403
The Triticum aestivum (bread wheat) disease resistance gene Lr34 confers durable, race non-specific protection against three fungal pathogens, and has been a highly relevant gene for wheat breeding since the green revolution. Lr34, located on chromosome 7D, encodes an ATP-binding cassette (ABC) transporter. Both wheat cultivars with and without Lr34-based resistance encode a putatively functional protein that differ by only two amino acid polymorphisms. In this study, we focused on the identification and characterization of homoeologous and orthologous Lr34 genes in hexaploid wheat and other grasses. In hexaploid wheat we found an expressed and putatively functional Lr34 homoeolog located on chromosome 4A, designated Lr34-B. Another homoeologous Lr34 copy, located on chromosome 7A, was disrupted by the insertion of repetitive elements. Protein sequences of LR34-B and LR34 were 97% identical. Orthologous Lr34 genes were detected in the genomes of Oryza sativa (rice) and Sorghum bicolor (sorghum). Zea mays (maize), Brachypodium distachyon and Hordeum vulgare (barley) lacked Lr34 orthologs, indicating independent deletion of this particular ABC transporter. Lr34 was part of a gene-rich island on the wheat D genome. We found gene colinearity on the homoeologous A and B genomes of hexaploid wheat, but little microcolinearity in other grasses. The homoeologous LR34-B protein and the orthologs from rice and sorghum have the susceptible haplotype for the two critical polymorphisms distinguishing the LR34 proteins from susceptible and resistant wheat cultivars. We conclude that the particular Lr34-haplotype found in resistant wheat cultivars is unique. It probably resulted from functional gene diversification that occurred after the polyploidization event that was at the origin of cultivated bread wheat. 相似文献
10.
昆虫种类繁多,它与生态系统中的生物多样性,以及人类的日常生活和生产密切相关。自2000年黑腹果蝇Drosophila melanogaster全基因组测序完成以来,至今已先后开展了88种昆虫全基因组测序工作,这标志着昆虫学研究进入了基因组时代。本文综述了近年来昆虫基因组测序进展,以及基于基因组的昆虫学研究方法及应用等两方面的研究成果。同时,着重介绍了昆虫全基因组测序进程,昆虫基因组在个体生物学、多物种间及种群,及系统生物学研究中的应用等方面的内容。最后,还探讨了基因组时代昆虫学研究所面临的挑战。 相似文献
11.
水稻所在的稻属(Oryza)共有24个左右的物种。由于野生稻含有大量的优良农艺性状基因, 在水稻遗传学研究中日益受到重视。随着国际稻属基因组计划的开展, 越来越多的稻属基因组序列被测定, 稻属成为进行比较、功能和进化基因组学研究的模式系统。近期开展的一系列研究对稻属不同基因组区段以及全基因组序列的比较分析, 揭示了稻属在基因组大小、基因移动、多倍体进化、常染色质到异染色质的转化以及着丝粒区域的进化等方面的分子机制。转座子的活性以及转座子因非均等重组或非法重组而造成的删除, 对稻属基因组的扩增和收缩具有重要作用。DNA双链断裂修复介导的基因移动, 特别是非同源末端连接, 是稻属基因组非共线性基因形成的主要来源。稻属基因组从常染色质到异染色质的转换过程, 伴随着转座子的大量扩增、基因片段的区段性和串联重复以及从基因组其他位置不断捕获异染色质基因。对稻属不同物种间基因拷贝数、特异基因和重要农艺性状基因的进化等研究, 可揭示稻属不同物种间表型和适应性差异的分子基础, 将加速水稻的育种和改良。 相似文献
12.
马基因组研究进展 总被引:3,自引:0,他引:3
各种生物都具有其独特的遗传信息, 深入了解生物体的形成过程以及各种生命活动都离不开基因组的研究成果。由于在世界范围内马具有良好的健康情况记录和详细的系谱记录, 使得马成为生命科学研究中极具价值的模式动物。尽管起步较晚, 但在过去的几年中, 马基因组图谱经历了前所未有的发展。文章主要对近年来马基因组遗传图谱、物理图谱、基因组比较作图以及功能基因组学等研究进展进行了综述, 这些图谱也正是世界各地研究人员用以探寻与马的各种性状(包括全部的健康状况、抗病性能、生殖生育能力、运动性能以及诸如毛色这样的表型特征等)相关基因的重要工具。相信这些研究成果将为马匹疾病预防、诊断和治疗提供新的思路与方法, 并将为马遗传育种提供更好的选配依据。 相似文献
13.
Detecting the undetectable: uncovering duplicated segments in Arabidopsis by comparison with rice 总被引:2,自引:0,他引:2
Genome analysis shows that large-scale gene duplications have occurred in fungi, animals and plants, creating genomic regions that show similarity in gene content and order. However, the high frequency of gene loss reduces colinearity resulting in duplicated regions that, in the extreme, no longer share homologous genes. Here, we show that by comparison with an appropriate second genome, such paralogous regions can still be identified. 相似文献
14.
Cheng-Kuo Lai Yi-Chien Lee Huei-Mien Ke Min R. Lu Wei-An Liu Hsin-Han Lee Yu-Ching Liu Toyoshi Yoshiga Taisei Kikuchi Peichen J. Chen Isheng Jason Tsai 《Molecular ecology resources》2023,23(4):905-919
Aphelenchoides besseyi is a plant-parasitic nematode (PPN) in the family Aphelenchoididae capable of infecting more than 200 plant species. A. besseyi is also a species complex with strains exhibiting varying pathogenicity to plants. We present the genome and annotations of six Aphelenchoides species, four of which belonged to the A. besseyi species complex. Most Aphelenchoides genomes have a size of 44.7–47.4 Mb and are among the smallest in clade IV, with the exception of A. fujianensis, which has a size of 143.8 Mb and is one of the largest. Phylogenomic analysis successfully delimited the species complex into A. oryzae and A. pseudobesseyi and revealed a reduction of transposon elements in the last common ancestor of Aphelenchoides. Synteny analyses between reference genomes indicated that three chromosomes in A. besseyi were derived from fission and fusion events. A systematic identification of horizontal gene transfer (HGT) genes across 27 representative nematodes allowed us to identify two major episodes of acquisition corresponding to the last common ancestor of clade IV or major PPNs, respectively. These genes were mostly lost and differentially retained between clades or strains. Most HGT events were acquired from bacteria, followed by fungi, and also from plants; plant HGT was especially prevalent in Bursaphelenchus mucronatus. Our results comprehensively improve the understanding of HGT in nematodes. 相似文献
15.
16.
Genome analysis shows that large-scale gene duplications have occurred in fungi, animals and plants, creating genomic regions that show similarity in gene content and order. However, the high frequency of gene loss reduces colinearity resulting in duplicated regions that, in the extreme, no longer share homologous genes. Here, we show that by comparison with an appropriate second genome, such paralogous regions can still be identified. 相似文献
17.
Genome browsing with Ensembl: a practical overview. 总被引:1,自引:0,他引:1
Giulietta Spudich Xosé M Fernández-Suárez Ewan Birney 《Briefings in Functional Genomics and Prot》2007,6(3):202-219
A wealth of gene information is accruing in public databases. Genome browsers such as Ensembl are needed to organize and depict this information in the context of the genome. Ensembl provides an open source gene set based on experimental evidence for over 30 species, the majority of which are vertebrates. Genes and annotation are accessible through the Ensembl browser (http://www.ensembl.org), and through direct queries of its databases using the Perl API (Application Programme Interface), MySQL or BioMart. 相似文献
18.
Leduc MS Lyons M Darvishi K Walsh K Sheehan S Amend S Cox A Orho-Melander M Kathiresan S Paigen B Korstanje R 《Journal of lipid research》2011,52(6):1139-1149
Genome-wide association (GWA) studies represent a powerful strategy for identifying susceptibility genes for complex diseases in human populations but results must be confirmed and replicated. Because of the close homology between mouse and human genomes, the mouse can be used to add evidence to genes suggested by human studies. We used the mouse quantitative trait loci (QTL) map to interpret results from a GWA study for genes associated with plasma HDL cholesterol levels. We first positioned single nucleotide polymorphisms (SNPs) from a human GWA study on the genomic map for mouse HDL QTL. We then used mouse bioinformatics, sequencing, and expression studies to add evidence for one well-known HDL gene (Abca1) and three newly identified genes (Galnt2, Wwox, and Cdh13), thus supporting the results of the human study. For GWA peaks that occur in human haplotype blocks with multiple genes, we examined the homologous regions in the mouse to prioritize the genes using expression, sequencing, and bioinformatics from the mouse model, showing that some genes were unlikely candidates and adding evidence for candidate genes Mvk and Mmab in one haplotype block and Fads1 and Fads2 in the second haplotype block. Our study highlights the value of mouse genetics for evaluating genes found in human GWA studies. 相似文献
19.
20.
Differential genome duplication and fish diversity 总被引:3,自引:0,他引:3
Rongjia Zhou Hanhua Cheng Terrence R. Tiersch 《Reviews in Fish Biology and Fisheries》2001,11(4):331-337
The duplication of genes and entire genomes arebelieved to be important mechanisms underlyingmorphological variation and functionalinnovation in the evolution of life andespecially for the broad diversity observed inthe speciation of fishes. How did these fishspecies and their genetic diversity arise? Theoccurrence of three rounds of genomeduplication during vertebrate evolution mightexplain why many gene families are typicallyabout half the size in land vertebrates as theyare in fishes. However, mechanisms of geneticdiversity in fish lineages need to be furtherexplained. Here we propose that differentialgenome duplication of from two to six roundsoccurred in different fish lines, offering newopportunities during the radiation of fishlineages. This model provides a fundamentalbasis for the understanding of theirspeciation, diversity and evolution. 相似文献