Software OLD

gff2aplot is a software developed at Fundació Institut Mar d’Investigacions Mèdiques (IMIM) in collaboration with CRG (Roderic Guigó group) that allows visualizing pair-wise alignments with annotated axes from GFF files

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gff2ps is a program developed at Fundació Institut Mar d’Investigacions Mèdiques (IMIM) in collaboration with CRG (Roderic Guigó group), to visualize annotations of genomic sequences. The program takes as input the annotated features on a genomic sequence in GFF format, and produces a visual output in PostScript. It can be used in a very simple way, because it assumes that the GFF file itself carries enough formatting information, but it also allows through a number of options and/or a configuration file, for a great degree of customization.

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meta is a program is a program developed at Fundació Institut Mar d’Investigacions Mèdiques (IMIM) in collaboration with CRG (Roderic Guigó group) to produce and to align the TF-maps of two gene promoter regions. meta is very useful to characterize promoter regions from orthologous genes, or from co-regulated genes in microarrays, as it reduces the signal/noise ratio in a very significant manner, still detecting the real functional sites.

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mmeta is a program is a program developed at Fundació Institut Mar d’Investigacions Mèdiques (IMIM) in collaboration with CRG (Roderic Guigó''s group) to produce and to align the TF-maps of multiple promoter regions. mmeta is very powerful to characterize promoter regions from multiple orthologous genes, or from co-regulated genes in microarrays, as it reduces the signal/noise ratio in a very significant manner, still detecting the real functional sites.

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overlap is a program that computes the overlap between two sets of genomic features. More precisely it takes two gff files of genomic features as input and for each feature of the first set, says whether it is overlapped by a feature of the second set (basic mode, however more and more precise information can be retrieved).

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PATRONUS (from "PATtern Recognition by Optimized Numerical Universal Scoring") is a program designed to compute in a very fast way the exact probability of observing a given number of occurrences of a simple motif (that is, a continuous word without gaps) in a sequence. Its intended scope is the analysis of very long biological sequences, like chromosomes or whole genomes of complex organisms. The probability is computed on the basis of the Markovian statistics of order m for the sequence, that is the recorded number of the occurrences of all the submotifs of length m + 1 in the sequence. Contrary to what many people believe, computing such a probability for a generic motif is a computationally demanding task, mainly because motifs can overlap in non-trivial ways.

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project is a program that projects genomic features onto their sequences.

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SECISaln will predict a SECIS element in the query sequence, split it into its constituent parts and align these against a precompiled database of eukaryotic SECIS elements. The user can choose whether the database sequences are sorted by protein family or by species, thereby offering the possibility of comparing the submitted sequence to other, known SECISes. In addition, SECISaln returns a graphical image of the predicted structure of the user-submitted sequence as well as a multiple structural alignment of all SECIS elements of that type already present in the database.

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Selenoprofiles is a homology-based gene finding tool which is suitable for selenoprotein prediction in large nucleotide databases, like genomes. Selenoproteins are a group of proteins that contain selenocysteine (Sec), a rare amino acid inserted co-translationally into the protein chain. The Sec codon is UGA, which is normally a stop codon. In selenoproteins UGA is recoded to Sec in presence of specific signals on selenoprotein gene transcripts. Due to the dual role of the UGA codon, selenoprotein prediction and annotation are difficult tasks and are left mostly to manual analysis, since there are no reliable “golden standard” programs for this purpose. Here we present an homology-based in silico tool to scan genomes for members of the known selenoprotein families: selenoprofiles. This pipeline has features that make it suitable for selenoprotein prediction, and is shown to correctly predict selenoproteins that are badly annotated in Ensembl. Selenoprofiles is a python-built pipeline that internally runs psitblastn, exonerate, genewise and SECISearch.

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SymCurv is a computational ab initio method for nucleosome positioning prediction. It is based on the structural property of natural nucleosome forming sequences, to be symmetrically curved around a local minimum of curvature. The method takes as input the primary DNA sequence, calculates the expected curvature from which it deduces possible centers of nucleosomal sequences, by imposing symmetry constraints. SymCurv''s performance is comparable to existing tools but offers the additional advantages of predicting nucleosome positions under two assumed-states (stationary and dynamic) providing insight on the remodelling potential of nucleosomes of possible regulatory function.

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The Flux Capacitor predicts abundances for transcript molecules and alternative splicing events from RNAseq experiments. Additionally, there is a simulation pipeline that is capable to simulate whole transcriptome sequencing experiments.

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The GEM (GEnome Multi-tool) Library is a set of very optimized tools for indexing/querying huge genomes/files. Provided so far are a very fast exhaustive mapper (the GEM mapper), an unconstrained split mapper (the GEM split mapper), and a very fast program to compute genome mappability (the GEM mappability).

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U12-type introns are spliced by the U12-dependent spliceosome and are present in the genomes of many higher eukaryotic lineages including plants, chordates and some invertebrates. Investigations into the evolution and mechanism of U12-depending splicing would be facilitated by access to a catalog of such introns. However, due to their relatively recent discovery and a systematic bias against recognition of non-canonical splice sites in general, the introns defined by U12-type splice sites are under-represented in genome annotations. Such under-representation compounds the already difficult problem of determining gene structures. It also impedes attempts to study these introns genome-wide or phylum-wide. The resource described here, the U12 Intron Database (U12DB), aims to catalog the U12 introns of completely sequenced eukaryotic genomes and associate orthologous introns with each other.

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This site provides a series of programs for the functional investigation of groups of genes, based on the Gene Ontology resource.

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The transcriptome project aims to sequence various cell lines, and within those cell lines, different compartments, and RNA fractions, using different technologies. The main dashboard page allows you to filter experiments by the parameters given (i.e. cell_line, rna_type, technology, compartment). The experiments link to a list of file downloads for the experiments, as well as some statistical data on the files that have been produced.

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PhylomeDB is a public database for complete collections of gene phylogenies (phylomes). It allows users to interactively explore the evolutionary history of genes through the visualization of phylogenetic trees and multiple sequence alignments. Moreover, phylomeDB provides genome-wide orthology and paralogy predictions based on the analysis of the phylogenetic trees.

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Deathbase is a database of proteins involved in cell death. It compiles relevant data on the function, structure and evolution of proteins involved in apoptosis and other forms of cell death in several organisms. Information contained in this database is subjected to manual curation. You can contribute to maintain the DeathBase by editing the wikipage for any protein.

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trimAl is a tool for the automated removal of spurious sequences or poorly aligned regions from a multiple sequence alignment It also includes readAl, a format converter between most alignment formats.

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ETE (Environment for Tree Exploration) is a python programming toolkit that assists in the automated manipulation, analysis and visualization of hierarchical trees. Besides a broad set of tree handling options, ETE’s current version provides specific methods to analyze phylogenetic and clustering trees. It also supports large tree data structures, node annotation, independent editing and analysis of tree partitions, and the association of trees with external data such as multiple sequence alignments or numerical matrices. ETE first version was developed in collaboration with Dr. Joaquín Dopazo lab at Centro de Investigación Príncipe Felipe (CIPF).

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MetaPhOrs is a public repository of phylogeny-based orthology and paralogy predictions for most species with fully-sequenced genomes.

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