Resources
From GersteinInfo
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|style="width:15%; text-align:center;"|[http://funseq.gersteinlab.org/ '''FunSeq''']<br> ||style="width:7%; text-align:center;"|2013||FunSeq can be used to automatically score and annotate the disease-causing potential of SNVs, particularly those which are non-coding. It can be used on cancer and personal genomes. Additionally, FunSeq can detect recurrent annotation elements in non-coding regions when running with multiple genomes. FunSeq is available for download. | |style="width:15%; text-align:center;"|[http://funseq.gersteinlab.org/ '''FunSeq''']<br> ||style="width:7%; text-align:center;"|2013||FunSeq can be used to automatically score and annotate the disease-causing potential of SNVs, particularly those which are non-coding. It can be used on cancer and personal genomes. Additionally, FunSeq can detect recurrent annotation elements in non-coding regions when running with multiple genomes. FunSeq is available for download. | ||
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+ | |style="width:15%; text-align:center;"|[http://funseq2.gersteinlab.org/ '''FunSeq2'''] <br> [http://github.gersteinlab.org/FunSeq2/ Github repo] ||style="width:7%; text-align:center;"|2014||FunSeq2 is a specialized tool for prioritizing somatic variants from cancer whole genome sequencing. | ||
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|style="width:15%; text-align:center;"|[http://vat.gersteinlab.org/ '''VAT'''] <br> [http://github.gersteinlab.org/vat/ Github repo] ||style="width:7%; text-align:center;"|2012|| A computational framework to functionally annotate variants in personal genomes using a cloud-computing environment. | |style="width:15%; text-align:center;"|[http://vat.gersteinlab.org/ '''VAT'''] <br> [http://github.gersteinlab.org/vat/ Github repo] ||style="width:7%; text-align:center;"|2012|| A computational framework to functionally annotate variants in personal genomes using a cloud-computing environment. |
Revision as of 16:24, 26 April 2016
Below we highlight some of our tools and resources. You may view a list of the associated literature here. You may also view a list of the papers associated with our core tools & resources. Source code is available on our Github page.
Contents |
Portals
MolMovDB
Name Description
MolMovDBServers and a suite of accessory tools for the analysis of conformational changes in protein and nucleic acid structures.
Networks
Name Description
NetworksThe Gerstein lab has been a pioneer in applying network analysis to generate knowledge form large-scale experiments. To this end, we have developed a portal for our network research.
Pseudogene.org
Name Description
Pseudogene.orgPseudogene.org is a collection of resources related to our efforts to survey eukaryotic genomes for pseudogene sequences, "pseudo-fold" usage, amino-acid composition, and single-nucleotide polymorphisms (SNPs) to help elucidate the relationships between pseudogene families across several organisms.
Structural Variants (SV)
Name Description
Structural VariantsSoftware that may be used to investigate Structural Variations (SVs) and Copy Number Variations (CNVs).
Data Sets
Name Release Date Description BreakDB 2009 This database, which is part of the PEMer package, contains information about structural variants and associated breakpoints.
Evolution
Name Release Date Description Coevolution analysis of protein residues 2008 An integrated online system that enables comparative analyses of residue coevolution with a comprehensive set of commonly used scoring functions, including statistical coupling analysis (SCA), explicit likelihood of subset variation (ELSC), mutual information and correlation-based methods.
Genome Technology
Gene Regulation
Name Release Date Description Loregic 2015 Loregic is a computational method integrating gene expression and regulatory network data, to characterize the logical cooperativity of regulatory factors. Loregic uses all 16 possible two-input-one-output logic gates (e.g. AND or XOR) to describe triplets of two factors regulating a common target, and finds the gate that best matches each triplet’s observed gene expression pattern across many conditions. Using human ENCODE ChIP-Seq and TCGA RNA-Seq data, we are able to demonstrate how Loregic characterizes complex circuits involving both proximally and distally regulating transcription factors (TFs) and also miRNAs.
Allele-Specific Effects
Name Release Date Description AlleleDB 2016 AlleleDB is an online resource for storing and visualizing allele-specific binding (ASB) and gene expression (ASE). Using variants from the 1000-Genomes Project and RNA-seq and ChIP-seq data from related projects, this resource serves as a repository for the catalog of ASB and ASE variants, associated genomic elements and personal genomes used in the study. AlleleDB also interfaces with the UCSC browser for visualization of results. AlleleSeq 2011 AlleleSeq is a computational pipeline that is used to study allele-specific expression (ASE) and allele specific binding (ASB). The pipeline first constructs a diploid personal genome sequence, then maps RNA-seq and ChIP-seq functional genomic data onto this personal genome. Consequently, locations in which there are differences in number of mapped reads between maternally- and paternally-derived sequences can be identified, thereby providing evidence for allele-specific events.
ChIP-Seq
Name Release Date Description MUSIC
Github repo2014 MUSIC is an algorithm for identification of enriched regions at multiple scales in the read depth signals from ChIP-Seq experiments.
PeakSeq
Github repo2009 A tool for calling peaks corresponding to transcription factor binding sites from ChIP-Seq data scored against a matched control such as input DNA. PeakSeq employs a two-pass strategy in which putative binding sites are first identified in order to compensate for genomic variation in the 'mappability' of sequences, before a second pass filters out sites not significantly enriched compared to the normalized control, computing precise enrichments and significances.
Functional Annotation
Name Release Date Description
FunSeq
2013 FunSeq can be used to automatically score and annotate the disease-causing potential of SNVs, particularly those which are non-coding. It can be used on cancer and personal genomes. Additionally, FunSeq can detect recurrent annotation elements in non-coding regions when running with multiple genomes. FunSeq is available for download.
FunSeq2
Github repo2014 FunSeq2 is a specialized tool for prioritizing somatic variants from cancer whole genome sequencing.
VAT
Github repo2012 A computational framework to functionally annotate variants in personal genomes using a cloud-computing environment.
Microarrays & Proteomics
Name Release Date Description MOTIPS 2010 MOTIPS employs an efficient search algorithm to scan a target proteome for potential domain targets and to increase the accuracy of each hit by integrating a variety of pre-computed features, such as conservation, surface propensity, and disorder. PARE 2007 Protein Abundance and mRNA Expression (PARE) is a tool for comparing protein abundance and mRNA expression data. In addition to globally comparing the quantities of protein and mRNA, PARE allows users to select subsets of proteins for focused study (based on functional categories and complexes). Furthermore, it highlights correlation outliers, which may warrant further investigation.
RNA-Seq
Name Release Date Description ACT 2011 The aggregation and correlation toolbox (ACT) is an efficient, multifaceted toolbox for analyzing continuous signal and discrete region tracks from high-throughput genomic experiments, such as RNA-seq or ChIP-chip signal profiles from the ENCODE and modENCODE projects, or lists of single nucleotide polymorphisms from the 1000 genomes project. FusionSeq
Github repo2010 FusionSeq may be used to identify fusion transcripts from paired-end RNA-sequencing. FusionSeq includes filters to remove spurious candidate fusions with artifacts, such as misalignment or random pairing of transcript fragments, and it ranks candidates according to several statistics. It also includes a module to identify exact sequences at breakpoint junctions. IQseq
Github repo2012 A tool for isoform quantification with RNA-seq data. Given isoform annotation and alignment of RNA-seq reads, it will use an EM algorithm to infer the most probable expression level for each isoform of a gene. RSEQtools
Github repo2011 A suite of tools that use Mapped Read Format (MRF) for the analysis of RNA-Seq experiments. MRF is a compact data format that enables anonymization of confidential sequence information while maintaining the ability to conduct subsequent functional genomics studies. RSEQtools provides a suite of modules that convert to/from MRF data and perform common tasks such as calculating gene expression values, generating signal tracks of mapped reads, and segmenting that signal into actively transcribed regions.
Structural Variation
Name Release Date Description AGE
(citation)2011 AGE is used for defining breakpoints of genomic structural variants at single-nucleotide resolution, using optimal alignments with gap excision. CNVnator
(citation)2011 CNVnator may be used to discover, genotype, and characterize typical and atypical CNVs from familial and population genome sequencing.
Networks
Name Release Date Description DynaSIN 2011 The Dynamic Structure Interaction Network (DynaSIN) is a resource for studying protein-protein interaction networks in the context of conformational changes. PubNet 2005 A web-based tool that extracts several types of relationships returned by PubMed queries and maps them on to networks, allowing for graphical visualization, textual navigation, and topological analysis. TopNet 2004 TopNet is an automated web tool designed compare the topologies of sub-networks, looking for global differences associated with different types of proteins. This automated web tool designed to address this question, calculating and comparing topological characteristics for different sub-networks derived from any given protein network. tYNA 2006 (TopNet-like Yale Network Analyzer). A Web system for managing, comparing and mining multiple networks, both directed and undirected. tYNA efficiently implements methods that have proven useful in network analysis, including identifying defective cliques, finding small network motifs (such as feed-forward loops), calculating global statistics (such as the clustering coefficient and eccentricity), and identifying hubs and bottlenecks etc.
Structure and Macromolecular Motions
Name Release Date Description 3V 2010 The 3V web server extracts and comprehensively analyzes the internal volumes of input RNA and protein structures. It identifies internal volumes by taking the difference between two rolling-probe solvent-excluded surfaces.
HIT 2006 The Helix Interaction Tool (HIT) is a comprehensive package for analyzing helix-helix packing in proteins. This enables the user to obtain quantitative measures of the helix interaction surface area and helix crossing angle, as well as several methods for visualizing the helical interaction. Macromolecular Geometry and Packing Tools 1994-2009 A number of programs for calculating properties of protein and nucleic acid structures have been collected into a single distribution. Included is a library functions for analyzing structures, a convenient interactive command-line interpreter, and software for the calculation of geometrical quantities associated with macromolecular structures and their motions. Morph Server 2000 A web server for generating and viewing models of protein conformational change using interpolation with energy minimization. The user may opt to use either single- or multi-chain proteins as input.