03282nas a2200445 4500008004100000022001400041245015900055210006900214260001600283300000900299490000800308520183200316653001002148653000902158653001102167653004102178653002302219653003002242653004602272653001802318653003402336653001702370653001102387653001602398653002002414653001302434653004402447653001202491653003402503653002402537100002302561700002502584700001602609700002302625700001302648700001402661700001602675700001302691856013202704 2015 eng d a1879-003800aDeregulation of key signaling pathways involved in oocyte maturation in FMR1 premutation carriers with Fragile X-associated primary ovarian insufficiency.0 aDeregulation of key signaling pathways involved in oocyte matura c2015 Oct 15 a52-70 v5713 a
FMR1 premutation female carriers are at risk for Fragile X-associated primary ovarian insufficiency (FXPOI). Insights from knock-in mouse model have recently demonstrated that FXPOI is due to an increased rate of follicle depletion or an impaired development of the growing follicles. Molecular mechanisms responsible for this reduced viability are still unknown. In an attempt to provide new data on the mechanisms that lead to FXPOI, we report the first investigation involving transcription profiling of total blood from FMR1 premutation female carriers with and without FXPOI. A total of 16 unrelated female individuals (6 FMR1 premutated females with FXPOI; 6 FMR1 premutated females without FXPOI; and 4 no-FXPOI females) were studied by whole human genome oligonucleotide microarray (Agilent Technologies). Fold change analysis did not show any genes with significant differential gene expression. However, functional profiling by gene set analysis showed large number of statistically significant deregulated GO annotations as well as numerous KEGG pathways in FXPOI females. These results suggest that the impairment of fertility in these females might be due to a generalized deregulation of key signaling pathways involved in oocyte maturation. In particular, the vasoendotelial growth factor signaling, the inositol phosphate metabolism, the cell cycle, and the MAPK signaling pathways were found to be down-regulated in FXPOI females. Furthermore, a high statistical enrichment of biological processes involved in cell death and survival were found deregulated among FXPOI females. Our results provide new strategic approaches to further investigate the molecular mechanisms and potential therapeutic targets for FXPOI not focused in a single gene but rather in the set of genes involved in these pathways.
10aAdult10aAged10aFemale10aFragile X Mental Retardation Protein10aFragile X Syndrome10aGene Expression Profiling10aGene Expression Regulation, Developmental10aGene ontology10aGenome-Wide Association Study10aHeterozygote10aHumans10aMiddle Aged10aModels, Genetic10amutation10aOligonucleotide Array Sequence Analysis10aOocytes10aPrimary Ovarian Insufficiency10aSignal Transduction1 aAlvarez-Mora, M, I1 aRodriguez-Revenga, L1 aMadrigal, I1 aGarcía-García, F1 aDuran, M1 aDopazo, J1 aEstivill, X1 aMilà, M uhttps://www.clinbioinfosspa.es/content/deregulation-key-signaling-pathways-involved-oocyte-maturation-fmr1-premutation-carriers02390nas a2200397 4500008004100000022001400041245007600055210006900131260001300200300001300213490000700226520116000233653001201393653001801405653002201423653002201445653002301467653002401490653002801514653003801542653001101580653002001591653002801611653001301639653002201652653001401674653003601688653003201724653002401756100002401780700002401804700001801828700002001846700001701866856010901883 2015 eng d a1553-735800aA Pan-Cancer Catalogue of Cancer Driver Protein Interaction Interfaces.0 aPanCancer Catalogue of Cancer Driver Protein Interaction Interfa c2015 Oct ae10045180 v113 aDespite their importance in maintaining the integrity of all cellular pathways, the role of mutations on protein-protein interaction (PPI) interfaces as cancer drivers has not been systematically studied. Here we analyzed the mutation patterns of the PPI interfaces from 10,028 proteins in a pan-cancer cohort of 5,989 tumors from 23 projects of The Cancer Genome Atlas (TCGA) to find interfaces enriched in somatic missense mutations. To that end we use e-Driver, an algorithm to analyze the mutation distribution of specific protein functional regions. We identified 103 PPI interfaces enriched in somatic cancer mutations. 32 of these interfaces are found in proteins coded by known cancer driver genes. The remaining 71 interfaces are found in proteins that have not been previously identified as cancer drivers even that, in most cases, there is an extensive literature suggesting they play an important role in cancer. Finally, we integrate these findings with clinical information to show how tumors apparently driven by the same gene have different behaviors, including patient outcomes, depending on which specific interfaces are mutated.
10aAnimals10aBase Sequence10aBiomarkers, Tumor10aCatalogs as Topic10aChromosome Mapping10aComputer Simulation10aDNA Mutational Analysis10aGenetic Predisposition to Disease10aHumans10aModels, Genetic10aMolecular Sequence Data10amutation10aNeoplasm Proteins10aNeoplasms10aPolymorphism, Single Nucleotide10aProtein Interaction Mapping10aSignal Transduction1 aPorta-Pardo, Eduard1 aGarcía-Alonso, Luz1 aHrabe, Thomas1 aDopazo, Joaquin1 aGodzik, Adam uhttps://www.clinbioinfosspa.es/content/pan-cancer-catalogue-cancer-driver-protein-interaction-interfaces02937nas a2200397 4500008004100000022001400041245010000055210006900155260001600224300000800240490000700248520172500255653001201980653001001992653001702002653002202019653002502041653001802066653001302084653001102097653002002108653001302128653001402141653002502155653002902180653002702209653001102236100002402247700002902271700003102300700002202331700002702353700002502380700002002405856011402425 2014 eng d a1744-429200aThe role of the interactome in the maintenance of deleterious variability in human populations.0 arole of the interactome in the maintenance of deleterious variab c2014 Sep 26 a7520 v103 aRecent genomic projects have revealed the existence of an unexpectedly large amount of deleterious variability in the human genome. Several hypotheses have been proposed to explain such an apparently high mutational load. However, the mechanisms by which deleterious mutations in some genes cause a pathological effect but are apparently innocuous in other genes remain largely unknown. This study searched for deleterious variants in the 1,000 genomes populations, as well as in a newly sequenced population of 252 healthy Spanish individuals. In addition, variants causative of monogenic diseases and somatic variants from 41 chronic lymphocytic leukaemia patients were analysed. The deleterious variants found were analysed in the context of the interactome to understand the role of network topology in the maintenance of the observed mutational load. Our results suggest that one of the mechanisms whereby the effect of these deleterious variants on the phenotype is suppressed could be related to the configuration of the protein interaction network. Most of the deleterious variants observed in healthy individuals are concentrated in peripheral regions of the interactome, in combinations that preserve their connectivity, and have a marginal effect on interactome integrity. On the contrary, likely pathogenic cancer somatic deleterious variants tend to occur in internal regions of the interactome, often with associated structural consequences. Finally, variants causative of monogenic diseases seem to occupy an intermediate position. Our observations suggest that the real pathological potential of a variant might be more a systems property rather than an intrinsic property of individual proteins.
10aAlleles10aExome10aGene Library10aGenetic Variation10aGenetics, Population10aGenome, Human10aGenomics10aHumans10aModels, Genetic10amutation10aPhenotype10aProtein Conformation10aProtein Interaction Maps10aSequence Analysis, DNA10aWhites1 aGarcía-Alonso, Luz1 aJiménez-Almazán, Jorge1 aCarbonell-Caballero, José1 aVela-Boza, Alicia1 aSantoyo-López, Javier1 aAntiňolo, Guillermo1 aDopazo, Joaquin uhttps://www.clinbioinfosspa.es/content/role-interactome-maintenance-deleterious-variability-human-populations02211nas a2200349 4500008004100000022001400041245011400055210006900169260001700238300001200255490000600267520098700273653001501260653001201275653002601287653002201313653002101335653002801356653001801384653004001402653002001442653002301462653002701485100002701512700003001539700003201569700003301601700003101634700003301665700003201698856013101730 2012 eng d a1557-996400aUsing GPUs for the exact alignment of short-read genetic sequences by means of the Burrows-Wheeler transform.0 aUsing GPUs for the exact alignment of shortread genetic sequence c2012 Jul-Aug a1245-560 v93 aGeneral Purpose Graphic Processing Units (GPGPUs) constitute an inexpensive resource for computing-intensive applications that could exploit an intrinsic fine-grain parallelism. This paper presents the design and implementation in GPGPUs of an exact alignment tool for nucleotide sequences based on the Burrows-Wheeler Transform. We compare this algorithm with state-of-the-art implementations of the same algorithm over standard CPUs, and considering the same conditions in terms of I/O. Excluding disk transfers, the implementation of the algorithm in GPUs shows a speedup larger than 12, when compared to CPU execution. This implementation exploits the parallelism by concurrently searching different sequences on the same reference search tree, maximizing memory locality and ensuring a symmetric access to the data. The paper describes the behavior of the algorithm in GPU, showing a good scalability in the performance, only limited by the size of the GPU inner memory.
10aAlgorithms10aAnimals10aComputational Biology10aComputer Graphics10aData Compression10aDrosophila melanogaster10aGenes, Insect10aImage Processing, Computer-Assisted10aModels, Genetic10aSequence Alignment10aSequence Analysis, DNA1 aTorres, Jose, Salavert1 aEspert, Ignacio, Blanquer1 aDomínguez, Andrés, Tomás1 aGarcía, Vicente, Hernández1 aCastelló, Ignacio, Medina1 aGiménez, Joaquín, Tárraga1 aBlázquez, Joaquín, Dopazo uhttps://www.clinbioinfosspa.es/content/using-gpus-exact-alignment-short-read-genetic-sequences-means-burrows-wheeler-transform02504nas a2200277 4500008004100000022001400041245005900055210005600114260001300170300001200183490000700195520165100202653001501853653002801868653003001896653003101926653001101957653002001968653004401988100002002032700003002052700002002082700002002102700001602122856008802138 2011 eng d a1549-546900aDifferential expression in RNA-seq: a matter of depth.0 aDifferential expression in RNAseq a matter of depth c2011 Dec a2213-230 v213 aNext-generation sequencing (NGS) technologies are revolutionizing genome research, and in particular, their application to transcriptomics (RNA-seq) is increasingly being used for gene expression profiling as a replacement for microarrays. However, the properties of RNA-seq data have not been yet fully established, and additional research is needed for understanding how these data respond to differential expression analysis. In this work, we set out to gain insights into the characteristics of RNA-seq data analysis by studying an important parameter of this technology: the sequencing depth. We have analyzed how sequencing depth affects the detection of transcripts and their identification as differentially expressed, looking at aspects such as transcript biotype, length, expression level, and fold-change. We have evaluated different algorithms available for the analysis of RNA-seq and proposed a novel approach--NOISeq--that differs from existing methods in that it is data-adaptive and nonparametric. Our results reveal that most existing methodologies suffer from a strong dependency on sequencing depth for their differential expression calls and that this results in a considerable number of false positives that increases as the number of reads grows. In contrast, our proposed method models the noise distribution from the actual data, can therefore better adapt to the size of the data set, and is more effective in controlling the rate of false discoveries. This work discusses the true potential of RNA-seq for studying regulation at low expression ranges, the noise within RNA-seq data, and the issue of replication.
10aAlgorithms10aExpressed Sequence Tags10aGene Expression Profiling10aGene Expression Regulation10aHumans10aModels, Genetic10aOligonucleotide Array Sequence Analysis1 aTarazona, Sonia1 aGarcía-Alcalde, Fernando1 aDopazo, Joaquin1 aFerrer, Alberto1 aConesa, Ana uhttps://www.clinbioinfosspa.es/content/differential-expression-rna-seq-matter-depth02990nas a2200421 4500008004100000022001400041245007000055210006800125260001600193300000800209490000600217520169900223653003601922653003001958653004301988653001102031653000902042653002302051653002002074653002402094653002202118653001402140653002402154653003202178653001902210653002402229653002002253100002202273700002402295700002002319700002502339700001602364700001702380700002202397700002002419700002602439856010302465 2007 eng d a1471-216400aEvidence for systems-level molecular mechanisms of tumorigenesis.0 aEvidence for systemslevel molecular mechanisms of tumorigenesis c2007 Jun 20 a1850 v83 aBACKGROUND: Cancer arises from the consecutive acquisition of genetic alterations. Increasing evidence suggests that as a consequence of these alterations, molecular interactions are reprogrammed in the context of highly connected and regulated cellular networks. Coordinated reprogramming would allow the cell to acquire the capabilities for malignant growth.
RESULTS: Here, we determine the coordinated function of cancer gene products (i.e., proteins encoded by differentially expressed genes in tumors relative to healthy tissue counterparts, hereafter referred to as "CGPs") defined as their topological properties and organization in the interactome network. We show that CGPs are central to information exchange and propagation and that they are specifically organized to promote tumorigenesis. Centrality is identified by both local (degree) and global (betweenness and closeness) measures, and systematically appears in down-regulated CGPs. Up-regulated CGPs do not consistently exhibit centrality, but both types of cancer products determine the overall integrity of the network structure. In addition to centrality, down-regulated CGPs show topological association that correlates with common biological processes and pathways involved in tumorigenesis.
CONCLUSION: Given the current limited coverage of the human interactome, this study proposes that tumorigenesis takes place in a specific and organized way at the molecular systems-level and suggests a model that comprises the precise down-regulation of groups of topologically-associated proteins involved in particular functions, orchestrated with the up-regulation of specific proteins.
10aCell Transformation, Neoplastic10aGene Expression Profiling10aGene Expression Regulation, Neoplastic10aHumans10aMale10aModels, Biological10aModels, Genetic10aModels, Statistical10aNeoplasm Proteins10aNeoplasms10aProstatic Neoplasms10aProtein Interaction Mapping10aRNA, Messenger10aSignal Transduction10aSystems biology1 aHernández, Pilar1 aHuerta-Cepas, Jaime1 aMontaner, David1 aAl-Shahrour, Fátima1 aValls, Joan1 aGómez, Laia1 aCapellà, Gabriel1 aDopazo, Joaquin1 aPujana, Miguel, Angel uhttps://www.clinbioinfosspa.es/content/evidence-systems-level-molecular-mechanisms-tumorigenesis-002059nas a2200385 4500008004100000022001400041245012300055210006900178260001300247300001000260490000700270520079500277653001201072653002101084653002601105653002201131653003001153653001101183653001301194653002001207653003101227653004401258653002601302653001301328653002401341653002801365100001701393700002001410700002701430700002301457700002001480700002501500700002001525856012801545 2007 eng d a1362-496200aISACGH: a web-based environment for the analysis of Array CGH and gene expression which includes functional profiling.0 aISACGH a webbased environment for the analysis of Array CGH and c2007 Jul aW81-50 v353 aWe present the ISACGH, a web-based system that allows for the combination of genomic data with gene expression values and provides different options for functional profiling of the regions found. Several visualization options offer a convenient representation of the results. Different efficient methods for accurate estimation of genomic copy number from array-CGH hybridization data have been included in the program. Moreover, the connection to the gene expression analysis package GEPAS allows the use of different facilities for data pre-processing and analysis. A DAS server allows exporting the results to the Ensembl viewer where contextual genomic information can be obtained. The program is freely available at: http://isacgh.bioinfo.cipf.es or within http://www.gepas.org.
10aAnimals10aCluster Analysis10aComputational Biology10aComputer Graphics10aGene Expression Profiling10aHumans10aInternet10aModels, Genetic10aNucleic Acid Hybridization10aOligonucleotide Array Sequence Analysis10aProgramming Languages10aSoftware10aSystems Integration10aUser-Computer Interface1 aConde, Lucia1 aMontaner, David1 aBurguet-Castell, Jordi1 aTárraga, Joaquín1 aMedina, Ignacio1 aAl-Shahrour, Fátima1 aDopazo, Joaquin uhttps://www.clinbioinfosspa.es/content/isacgh-web-based-environment-analysis-array-cgh-and-gene-expression-which-includes-0