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  • 1
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    LncATLAS database for subcellular localization of long noncoding RNAs
    Cold Spring Harbor Laboratory ; 2017
    In:  RNA Vol. 23, No. 7 ( 2017-07), p. 1080-1087
    Details
    In: RNA, Cold Spring Harbor Laboratory, Vol. 23, No. 7 ( 2017-07), p. 1080-1087
    Abstract: The subcellular localization of long noncoding RNAs (lncRNAs) holds valuable clues to their molecular function. However, measuring localization of newly discovered lncRNAs involves time-consuming and costly experimental methods. We have created “lncATLAS,” a comprehensive resource of lncRNA localization in human cells based on RNA-sequencing data sets. Altogether, 6768 GENCODE-annotated lncRNAs are represented across various compartments of 15 cell lines. We introduce relative concentration index (RCI) as a useful measure of localization derived from ensemble RNA-seq measurements. LncATLAS is accessible through an intuitive and informative webserver, from which lncRNAs of interest are accessed using identifiers or names. Localization is presented across cell types and organelles, and may be compared to the distribution of all other genes. Publication-quality figures and raw data tables are automatically generated with each query, and the entire data set is also available to download. LncATLAS makes lncRNA subcellular localization data available to the widest possible number of researchers. It is available at lncatlas.crg.eu .
    Type of Medium: Online Resource
    ISSN: 1355-8382 , 1469-9001
    URL: Article
    DOI: 10.1261/rna.060814.117
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2017
    detail.hit.zdb_id: 1475737-0
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  • 2
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    The RIDL hypothesis: transposable elements as functional domains of long noncoding RNAs
    Cold Spring Harbor Laboratory ; 2014
    In:  RNA Vol. 20, No. 7 ( 2014-07), p. 959-976
    Details
    In: RNA, Cold Spring Harbor Laboratory, Vol. 20, No. 7 ( 2014-07), p. 959-976
    Abstract: Our genome contains tens of thousands of long noncoding RNAs (lncRNAs), many of which are likely to have genetic regulatory functions. It has been proposed that lncRNA are organized into combinations of discrete functional domains, but the nature of these and their identification remain elusive. One class of sequence elements that is enriched in lncRNA is represented by transposable elements (TEs), repetitive mobile genetic sequences that have contributed widely to genome evolution through a process termed exaptation. Here, we link these two concepts by proposing that exonic TEs act as RNA domains that are essential for lncRNA function. We term such elements Repeat Insertion Domains of LncRNAs (RIDLs). A growing number of RIDLs have been experimentally defined, where TE-derived fragments of lncRNA act as RNA-, DNA-, and protein-binding domains. We propose that these reflect a more general phenomenon of exaptation during lncRNA evolution, where inserted TE sequences are repurposed as recognition sites for both protein and nucleic acids. We discuss a series of genomic screens that may be used in the future to systematically discover RIDLs. The RIDL hypothesis has the potential to explain how functional evolution can keep pace with the rapid gene evolution observed in lncRNA. More practically, TE maps may in the future be used to predict lncRNA function.
    Type of Medium: Online Resource
    ISSN: 1355-8382 , 1469-9001
    URL: Article
    DOI: 10.1261/rna.044560.114
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2014
    detail.hit.zdb_id: 1475737-0
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  • 3
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    Pseudogenes in the ENCODE regions: Consensus annotation, analysis of transcription, and evolution
    Cold Spring Harbor Laboratory ; 2007
    In:  Genome Research Vol. 17, No. 6 ( 2007-06), p. 839-851
    Details
    In: Genome Research, Cold Spring Harbor Laboratory, Vol. 17, No. 6 ( 2007-06), p. 839-851
    Abstract: Arising from either retrotransposition or genomic duplication of functional genes, pseudogenes are “genomic fossils” valuable for exploring the dynamics and evolution of genes and genomes. Pseudogene identification is an important problem in computational genomics, and is also critical for obtaining an accurate picture of a genome’s structure and function. However, no consensus computational scheme for defining and detecting pseudogenes has been developed thus far. As part of the ENCyclopedia Of DNA Elements (ENCODE) project, we have compared several distinct pseudogene annotation strategies and found that different approaches and parameters often resulted in rather distinct sets of pseudogenes. We subsequently developed a consensus approach for annotating pseudogenes (derived from protein coding genes) in the ENCODE regions, resulting in 201 pseudogenes, two-thirds of which originated from retrotransposition. A survey of orthologs for these pseudogenes in 28 vertebrate genomes showed that a significant fraction (∼80%) of the processed pseudogenes are primate-specific sequences, highlighting the increasing retrotransposition activity in primates. Analysis of sequence conservation and variation also demonstrated that most pseudogenes evolve neutrally, and processed pseudogenes appear to have lost their coding potential immediately or soon after their emergence. In order to explore the functional implication of pseudogene prevalence, we have extensively examined the transcriptional activity of the ENCODE pseudogenes. We performed systematic series of pseudogene-specific RACE analyses. These, together with complementary evidence derived from tiling microarrays and high throughput sequencing, demonstrated that at least a fifth of the 201 pseudogenes are transcribed in one or more cell lines or tissues.
    Type of Medium: Online Resource
    ISSN: 1088-9051
    URL: Article
    DOI: 10.1101/gr.5586307
    RVK:
    XA 10000
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2007
    detail.hit.zdb_id: 1483456-X
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  • 4
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    Transcriptome characterization by RNA sequencing identifies a major molecular and clinical subdivision in chronic lymphocytic leukemia
    Cold Spring Harbor Laboratory ; 2014
    In:  Genome Research Vol. 24, No. 2 ( 2014-02), p. 212-226
    Details
    In: Genome Research, Cold Spring Harbor Laboratory, Vol. 24, No. 2 ( 2014-02), p. 212-226
    Abstract: Chronic lymphocytic leukemia (CLL) has heterogeneous clinical and biological behavior. Whole-genome and -exome sequencing has contributed to the characterization of the mutational spectrum of the disease, but the underlying transcriptional profile is still poorly understood. We have performed deep RNA sequencing in different subpopulations of normal B-lymphocytes and CLL cells from a cohort of 98 patients, and characterized the CLL transcriptional landscape with unprecedented resolution. We detected thousands of transcriptional elements differentially expressed between the CLL and normal B cells, including protein-coding genes, noncoding RNAs, and pseudogenes. Transposable elements are globally derepressed in CLL cells. In addition, two thousand genes—most of which are not differentially expressed—exhibit CLL-specific splicing patterns. Genes involved in metabolic pathways showed higher expression in CLL, while genes related to spliceosome, proteasome, and ribosome were among the most down-regulated in CLL. Clustering of the CLL samples according to RNA-seq derived gene expression levels unveiled two robust molecular subgroups, C1 and C2. C1/C2 subgroups and the mutational status of the immunoglobulin heavy variable ( IGHV ) region were the only independent variables in predicting time to treatment in a multivariate analysis with main clinico-biological features. This subdivision was validated in an independent cohort of patients monitored through DNA microarrays. Further analysis shows that B-cell receptor (BCR) activation in the microenvironment of the lymph node may be at the origin of the C1/C2 differences.
    Type of Medium: Online Resource
    ISSN: 1088-9051
    URL: Article
    DOI: 10.1101/gr.152132.112
    RVK:
    XA 10000
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2014
    detail.hit.zdb_id: 1483456-X
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  • 5
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    Enhancers with tissue-specific activity are enriched in intronic regions
    Cold Spring Harbor Laboratory ; 2021
    In:  Genome Research Vol. 31, No. 8 ( 2021-08), p. 1325-1336
    Details
    In: Genome Research, Cold Spring Harbor Laboratory, Vol. 31, No. 8 ( 2021-08), p. 1325-1336
    Abstract: Tissue function and homeostasis reflect the gene expression signature by which the combination of ubiquitous and tissue-specific genes contribute to the tissue maintenance and stimuli-responsive function. Enhancers are central to control this tissue-specific gene expression pattern. Here, we explore the correlation between the genomic location of enhancers and their role in tissue-specific gene expression. We find that enhancers showing tissue-specific activity are highly enriched in intronic regions and regulate the expression of genes involved in tissue-specific functions, whereas housekeeping genes are more often controlled by intergenic enhancers, common to many tissues. Notably, an intergenic-to-intronic active enhancers continuum is observed in the transition from developmental to adult stages: the most differentiated tissues present higher rates of intronic enhancers, whereas the lowest rates are observed in embryonic stem cells. Altogether, our results suggest that the genomic location of active enhancers is key for the tissue-specific control of gene expression.
    Type of Medium: Online Resource
    ISSN: 1088-9051 , 1549-5469
    URL: Article
    DOI: 10.1101/gr.270371.120
    RVK:
    XA 10000
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2021
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  • 6
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    Comparison of splice sites in mammals and chicken
    Cold Spring Harbor Laboratory ; 2005
    In:  Genome Research Vol. 15, No. 1 ( 2005-01), p. 111-119
    Details
    In: Genome Research, Cold Spring Harbor Laboratory, Vol. 15, No. 1 ( 2005-01), p. 111-119
    Abstract: We have carried out an initial analysis of the dynamics of the recent evolution of the splice-sites sequences on a large collection of human, rodent (mouse and rat), and chicken introns. Our results indicate that the sequences of splice sites are largely homogeneous within tetrapoda. We have also found that orthologous splice signals between human and rodents and within rodents are more conserved than unrelated splice sites, but the additional conservation can be explained mostly by background intron conservation. In contrast, additional conservation over background is detectable in orthologous mammalian and chicken splice sites. Our results also indicate that the U2 and U12 intron classes seem to have evolved independently since the split of mammals and birds; we have not been able to find a convincing case of interconversion between these two classes in our collections of orthologous introns. Similarly, we have not found a single case of switching between AT-AC and GT-AG subtypes within U12 introns, suggesting that this event has been a rare occurrence in recent evolutionary times. Switching between GT-AG and the noncanonical GC-AG U2 subtypes, on the contrary, does not appear to be unusual; in particular, T to C mutations appear to be relatively well tolerated in GT-AG introns with very strong donor sites.
    Type of Medium: Online Resource
    ISSN: 1088-9051
    URL: Article
    DOI: 10.1101/gr.3108805
    RVK:
    XA 10000
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2005
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  • 7
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    SGP-1: Prediction and Validation of Homologous Genes Based on Sequence Alignments
    Cold Spring Harbor Laboratory ; 2001
    In:  Genome Research Vol. 11, No. 9 ( 2001-09-01), p. 1574-1583
    Details
    In: Genome Research, Cold Spring Harbor Laboratory, Vol. 11, No. 9 ( 2001-09-01), p. 1574-1583
    Abstract: Conventional methods of gene prediction rely on the recognition of DNA-sequence signals, the coding potential or the comparison of a genomic sequence with a cDNA, EST, or protein database. Reasons for limited accuracy in many circumstances are species-specific training and the incompleteness of reference databases. Lately, comparative genome analysis has attracted increasing attention. Several analysis tools that are based on human/mouse comparisons are already available. Here, we present a program for the prediction of protein-coding genes, termed SGP-1 (Syntenic Gene Prediction), which is based on the similarity of homologous genomic sequences. In contrast to most existing tools, the accuracy of SGP-1 depends little on species-specific properties such as codon usage or the nucleotide distribution. SGP-1 may therefore be applied to nonstandard model organisms in vertebrates as well as in plants, without the need for extensive parameter training. In addition to predicting genes in large-scale genomic sequences, the program may be useful to validate gene structure annotations from databases. To this end, SGP-1 output also contains comparisons between predicted and annotated gene structures in HTML format. The program can be accessed via a Web server at http://soft.ice.mpg.de/sgp-1 . The source code, written in ANSI C, is available on request from the authors.
    Type of Medium: Online Resource
    ISSN: 1088-9051 , 1549-5469
    URL: Article
    DOI: 10.1101/gr.177401
    RVK:
    XA 10000
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2001
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  • 8
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    Estimation of alternative splicing variability in human populations
    Cold Spring Harbor Laboratory ; 2012
    In:  Genome Research Vol. 22, No. 3 ( 2012-03), p. 528-538
    Details
    In: Genome Research, Cold Spring Harbor Laboratory, Vol. 22, No. 3 ( 2012-03), p. 528-538
    Abstract: DNA arrays have been widely used to perform transcriptome-wide analysis of gene expression, and many methods have been developed to measure gene expression variability and to compare gene expression between conditions. Because RNA-seq is also becoming increasingly popular for transcriptome characterization, the possibility exists for further quantification of individual alternative transcript isoforms, and therefore for estimating the relative ratios of alternative splice forms within a given gene. Changes in splicing ratios, even without changes in overall gene expression, may have important phenotypic effects. Here we have developed statistical methodology to measure variability in splicing ratios within conditions, to compare it between conditions, and to identify genes with condition-specific splicing ratios. Furthermore, we have developed methodology to deconvolute the relative contribution of variability in gene expression versus variability in splicing ratios to the overall variability of transcript abundances. As a proof of concept, we have applied this methodology to estimates of transcript abundances obtained from RNA-seq experiments in lymphoblastoid cells from Caucasian and Yoruban individuals. We have found that protein-coding genes exhibit low splicing variability within populations, with many genes exhibiting constant ratios across individuals. When comparing these two populations, we have found that up to 10% of the studied protein-coding genes exhibit population-specific splicing ratios. We estimate that ∼60% of the total variability observed in the abundance of transcript isoforms can be explained by variability in transcription. A large fraction of the remaining variability can likely result from variability in splicing. Finally, we also detected that variability in splicing is uncommon without variability in transcription.
    Type of Medium: Online Resource
    ISSN: 1088-9051
    URL: Article
    DOI: 10.1101/gr.121947.111
    RVK:
    XA 10000
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2012
    detail.hit.zdb_id: 1483456-X
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  • 9
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    An Assessment of Gene Prediction Accuracy in Large DNA Sequences
    Cold Spring Harbor Laboratory ; 2000
    In:  Genome Research Vol. 10, No. 10 ( 2000-10-01), p. 1631-1642
    Details
    In: Genome Research, Cold Spring Harbor Laboratory, Vol. 10, No. 10 ( 2000-10-01), p. 1631-1642
    Abstract: One of the first useful products from the human genome will be a set of predicted genes. Besides its intrinsic scientific interest, the accuracy and completeness of this data set is of considerable importance for human health and medicine. Though progress has been made on computational gene identification in terms of both methods and accuracy evaluation measures, most of the sequence sets in which the programs are tested are short genomic sequences, and there is concern that these accuracy measures may not extrapolate well to larger, more challenging data sets. Given the absence of experimentally verified large genomic data sets, we constructed a semiartificial test set comprising a number of short single-gene genomic sequences with randomly generated intergenic regions. This test set, which should still present an easier problem than real human genomic sequence, mimics the ∼200kb long BACs being sequenced. In our experiments with these longer genomic sequences, the accuracy of GENSCAN , one of the most accurate ab initio gene prediction programs, dropped significantly, although its sensitivity remained high. Conversely, the accuracy of similarity-based programs, such as GENEWISE , PROCRUSTES , and BLASTX , was not affected significantly by the presence of random intergenic sequence, but depended on the strength of the similarity to the protein homolog. As expected, the accuracy dropped if the models were built using more distant homologs, and we were able to quantitatively estimate this decline. However, the specificities of these techniques are still rather good even when the similarity is weak, which is a desirable characteristic for driving expensive follow-up experiments. Our experiments suggest that though gene prediction will improve with every new protein that is discovered and through improvements in the current set of tools, we still have a long way to go before we can decipher the precise exonic structure of every gene in the human genome using purely computational methodology.
    Type of Medium: Online Resource
    ISSN: 1088-9051 , 1549-5469
    URL: Article
    DOI: 10.1101/gr.122800
    RVK:
    XA 10000
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2000
    detail.hit.zdb_id: 1483456-X
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  • 10
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    Damage-responsive elements in Drosophila regeneration
    Cold Spring Harbor Laboratory ; 2018
    In:  Genome Research Vol. 28, No. 12 ( 2018-12), p. 1852-1866
    Details
    In: Genome Research, Cold Spring Harbor Laboratory, Vol. 28, No. 12 ( 2018-12), p. 1852-1866
    Abstract: One of the most important questions in regenerative biology is to unveil how and when genes change expression and trigger regeneration programs. The resetting of gene expression patterns during response to injury is governed by coordinated actions of genomic regions that control the activity of multiple sequence-specific DNA binding proteins. Using genome-wide approaches to interrogate chromatin function, we here identify the elements that regulate tissue recovery in Drosophila imaginal discs, which show a high regenerative capacity after genetically induced cell death. Our findings indicate there is global coregulation of gene expression as well as a regeneration program driven by different types of regulatory elements. Novel enhancers acting exclusively within damaged tissue cooperate with enhancers co-opted from other tissues and other developmental stages, as well as with endogenous enhancers that show increased activity after injury. Together, these enhancers host binding sites for regulatory proteins that include a core set of conserved transcription factors that control regeneration across metazoans.
    Type of Medium: Online Resource
    ISSN: 1088-9051 , 1549-5469
    URL: Article
    DOI: 10.1101/gr.233098.117
    RVK:
    XA 10000
    Language: English
    Publisher: Cold Spring Harbor Laboratory
    Publication Date: 2018
    detail.hit.zdb_id: 1483456-X
    SSG: 12
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