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81.
Martin C. Fischer Christian Rellstab Andrew Tedder Stefan Zoller Felix Gugerli Kentaro K. Shimizu Rolf Holderegger Alex Widmer 《Molecular ecology》2013,22(22):5594-5607
Natural genetic variation is essential for the adaptation of organisms to their local environment and to changing environmental conditions. Here, we examine genomewide patterns of nucleotide variation in natural populations of the outcrossing herb Arabidopsis halleri and associations with climatic variation among populations in the Alps. Using a pooled population sequencing (Pool‐Seq) approach, we discovered more than two million SNPs in five natural populations and identified highly differentiated genomic regions and SNPs using FST‐based analyses. We tested only the most strongly differentiated SNPs for associations with a nonredundant set of environmental factors using partial Mantel tests to identify topo‐climatic factors that may underlie the observed footprints of selection. Possible functions of genes showing signatures of selection were identified by Gene Ontology analysis. We found 175 genes to be highly associated with one or more of the five tested topo‐climatic factors. Of these, 23.4% had unknown functions. Genetic variation in four candidate genes was strongly associated with site water balance and solar radiation, and functional annotations were congruent with these environmental factors. Our results provide a genomewide perspective on the distribution of adaptive genetic variation in natural plant populations from a highly diverse and heterogeneous alpine environment. 相似文献
82.
Erin Styles Ji-Young Youn Mojca Mattiazzi Usaj Brenda Andrews 《Philosophical transactions of the Royal Society of London. Series B, Biological sciences》2013,368(1629)
The budding yeast Saccharomyces cerevisiae has been used extensively for the study of cell polarity, owing to both its experimental tractability and the high conservation of cell polarity and other basic biological processes among eukaryotes. The budding yeast has also served as a pioneer model organism for virtually all genome-scale approaches, including functional genomics, which aims to define gene function and biological pathways systematically through the analysis of high-throughput experimental data. Here, we outline the contributions of functional genomics and high-throughput methodologies to the study of cell polarity in the budding yeast. We integrate data from published genetic screens that use a variety of functional genomics approaches to query different aspects of polarity. Our integrated dataset is enriched for polarity processes, as well as some processes that are not intrinsically linked to cell polarity, and may provide new areas for future study. 相似文献
83.
A road map for molecular ecology 总被引:1,自引:0,他引:1
Rose L. Andrew Louis Bernatchez Aurélie Bonin C. Alex. Buerkle Bryan C. Carstens Brent C. Emerson Dany Garant Tatiana Giraud Nolan C. Kane Sean M. Rogers Jon Slate Harry Smith Victoria L. Sork Graham N. Stone Timothy H. Vines Lisette Waits Alex Widmer Loren H. Rieseberg 《Molecular ecology》2013,22(10):2605-2626
The discipline of molecular ecology has undergone enormous changes since the journal bearing its name was launched approximately two decades ago. The field has seen great strides in analytical methods development, made groundbreaking discoveries and experienced a revolution in genotyping technology. Here, we provide brief perspectives on the main subdisciplines of molecular ecology, describe key questions and goals, discuss common challenges, predict future research directions and suggest research priorities for the next 20 years. 相似文献
84.
M. Joanne Lemieux 《Protein science : a publication of the Protein Society》2013,22(4):425-433
The overexpression of milligram quantities of protein remains a key bottleneck in membrane protein structural biology. A challenge of particular difficulty has been the overproduction of eukaryotic membrane proteins. In order to cope with the frequently poor expression levels associated with these challenging proteins, it is often necessary to screen a large number of homologues to find a well expressing clone. To facilitate this process using the heterologous, eukaryotic expression host Pichia pastoris, we have developed a simple fluorescent induction plate‐screening assay that allows for the rapid detection of well expressing clones of eukaryotic membrane proteins that have been fused to GFP. Using a eukaryotic membrane protein known to express well in P. pastoris (human aquaporin 4) and homologues of the ER associated membrane protein phosphatidylethanolamine N‐methyltransferase (PEMT), we demonstrate that when a large number of clones are screened, a small number of highly expressing “jackpot” clones can be isolated. A jackpot PEMT clone resulted in 5 mg/L yield after purification. The method allows for the facile simultaneous screening of hundreds of clones providing an alternate to in‐culture screening and will greatly accelerate the search for overexpressing eukaryotic membrane proteins. 相似文献
85.
为探讨丝状子囊菌基因组的同源保守序列作为标记基因,利用Standalone BLASTN方法将构巢曲霉全基因组基因分别与30种丝状子囊菌基因组比较.构巢曲霉与每个丝状子囊菌基因组之间的同源匹配基因数量似乎可反映子囊菌之间的进化关系,构巢曲霉(10,560个基因)与15种散囊菌纲其他真菌间的匹配基因数量为5,179-7,747个,其中与另外7个同属的种匹配的基因数量为7,434-7,747个,而与亲缘关系较远的2种锤舌菌纲真菌灰葡萄孢和核盘菌的匹配基因数量分别仅有4,318个和4,242个.构巢曲霉的10,560个基因与20余种子囊菌基因组同时匹配的基因数为3,509个,占33.2%,构巢曲霉基因与30种子囊菌共同匹配的基因仅924个.此外,E值大小在10-30_0.1范围的同源序列变异性大,而在0-10-100范围的同源序列高度保守.随着基因组序列数据的增加,比较基因组方法将会在真菌系统学研究领域发挥更大的作用. 相似文献
86.
K. Vandepitte O. Honnay J. Mergeay P. Breyne I. Roldán‐Ruiz T. De Meyer 《Molecular ecology resources》2013,13(2):269-275
Single nucleotide polymorphisms SNPs are rapidly replacing anonymous markers in population genomic studies, but their use in non model organisms is hampered by the scarcity of cost‐effective approaches to uncover genome‐wide variation in a comprehensive subset of individuals. The screening of one or only a few individuals induces ascertainment bias. To discover SNPs for a population genomic study of the Pyrenean rocket (Sisymbrium austriacum subsp. chrysanthum), we undertook a pooled RAD‐PE (Restriction site Associated DNA Paired‐End sequencing) approach. RAD tags were generated from the PstI‐digested pooled genomic DNA of 12 individuals sampled across the species distribution range and paired‐end sequenced using Illumina technology to produce ~24.5 Mb of sequences, covering ~7% of the specie's genome. Sequences were assembled into ~76 000 contigs with a mean length of 323 bp (N50 = 357 bp, sequencing depth = 24x). In all, >15 000 SNPs were called, of which 47% were annotated in putative genic regions based on homology with the Arabidopsis thaliana genome. Gene ontology (GO) slim categorization demonstrated that the identified SNPs covered extant genic variation well. The validation of 300 SNPs on a larger set of individuals using a KASPar assay underpinned the utility of pooled RAD‐PE as an inexpensive genome‐wide SNP discovery technique (success rate: 87%). In addition to SNPs, we discovered >600 putative SSR markers. 相似文献
87.
J. M. Pujolar M. W. Jacobsen J. Frydenberg T. D. Als P. F. Larsen G. E. Maes L. Zane J. B. Jian L. Cheng M. M. Hansen 《Molecular ecology resources》2013,13(4):706-714
Reduced representation genome sequencing such as restriction‐site‐associated DNA (RAD) sequencing is finding increased use to identify and genotype large numbers of single‐nucleotide polymorphisms (SNPs) in model and nonmodel species. We generated a unique resource of novel SNP markers for the European eel using the RAD sequencing approach that was simultaneously identified and scored in a genome‐wide scan of 30 individuals. Whereas genomic resources are increasingly becoming available for this species, including the recent release of a draft genome, no genome‐wide set of SNP markers was available until now. The generated SNPs were widely distributed across the eel genome, aligning to 4779 different contigs and 19 703 different scaffolds. Significant variation was identified, with an average nucleotide diversity of 0.00529 across individuals. Results varied widely across the genome, ranging from 0.00048 to 0.00737 per locus. Based on the average nucleotide diversity across all loci, long‐term effective population size was estimated to range between 132 000 and 1 320 000, which is much higher than previous estimates based on microsatellite loci. The generated SNP resource consisting of 82 425 loci and 376 918 associated SNPs provides a valuable tool for future population genetics and genomics studies and allows for targeting specific genes and particularly interesting regions of the eel genome. 相似文献
88.
89.
Tongwu Zhang Ken Dutton‐Regester Kevin M. Brown Nicholas K. Hayward 《Pigment cell & melanoma research》2016,29(3):266-283
Somatic mutation analysis of melanoma has been performed at the single gene level extensively over the past several decades. This has provided considerable insight into the critical pathways controlling melanoma initiation and progression. During the last 5 yr, next‐generation sequencing (NGS) has enabled even more comprehensive mutational screening at the level of multigene panels, exomes and genomes. These studies have uncovered many new and unexpected players in melanoma development. The recent landmark study from The Cancer Genome Atlas (TCGA) consortium describing the genomic architecture of 333 cutaneous melanomas provides the largest and broadest analysis to date on the somatic aberrations underlying melanoma genesis. It thus seems timely to review the mutational landscape of melanoma and highlight the key genes and cellular pathways that appear to drive this cancer. 相似文献
90.
群体基因组学能够从全基因组水平揭示种群结构与进化、物种形成、适应性机制等。随着高通量技术的不断发展,基因组测序成本不断降低,大规模测序已成为可能。近几年被全基因组测序的真菌数量迅速增加,极大地促进了真菌群体基因组学的发展,加深了人们对植物病原真菌起源、遗传多样性、选择作用、致病性、毒力因子、杀菌剂抗药性、寄主专化型等生物学特性的认识。本文简要介绍了植物病原真菌的全基因测序以及比较基因组学的研究进展,重点综述了基于高通量测序的病原真菌群体基因组学的最新研究动态。群体基因组学将成为植物病原真菌一个新的研究方向。 相似文献