Address of the bookmark: http://www.compbio.dundee.ac.uk/jpred4/

With Single Molecule, Real-Time (SMRT) Sequencing, you can access structural variations having a broad range of sizes, types, and GC content with the ability to:

• Uncover missing heritability linked to structural variation
• Unambiguously identify genomic context and variant breakpoints at the sequence level to unravel the genetic etiology of disease
• Resolve structural variation across the complete size spectrum with basepair resolution

Following are the SV tools, which can assist you to achieve your goal.

Sniffles: Structural variation caller using third generation sequencing

Sniffles is a structural variation caller using third generation sequencing (PacBio or Oxford Nanopore). It detects all types of SVs using evidence from split-read alignments, high-mismatch regions, and coverage analysis. Please note the current version of Sniffles requires sorted output from BWA-MEM (use -M and -x parameter) or NGM-LR with the optional SAM attributes enabled! 

More at https://github.com/fritzsedlazeck/Sniffles

MultiBreak-SV: It identifies structural variants from next-generation paired end data, third-generation long read data, or data from a combination of sequencing platforms.

There are two pieces of software in this release: (1) a pre-processor that takes machineformat (.m5) BLASR files, and (2) MultiBreak-SV. For installation and usage instructions, see doc/MultiBreakSV-Manual.txt.

More at https://github.com/raphael-group/multibreak-sv

Parliament: A Structural Variation Tool. Why ask a single sv-detection approach to find every variant when you can have a parliament of tools deciding?

Publication about the algorithm and “…the first long-read characterization of structural variation in a diploid human personal genome…” (HS1011) - “Assessing structural variation in a personal genome—towards a human reference diploid genome”

More at https://sourceforge.net/projects/parliamentsv/

https://www.dnanexus.com/papers/Parliament_Info_Sheet.pdf

PBHoney: the structural variation discovery tool 

PBHoney is an implementation of two variant-identification approaches designed to exploit the high mappability of long reads (i.e., greater than 10,000 bp). PBHoney considers both intra-read discordance and soft-clipped tails of long reads to identify structural variants.

Read The Paper http://www.biomedcentral.com/1471-2105/15/180/abstract

More at https://sourceforge.net/projects/pb-jelly/

SMRT-SV: Structural variant and indel caller for PacBio reads

Structural variant (SV) and indel caller for PacBio reads based on methods from Chaisson et al. 2014.

SMRT-SV provides an official software package for tools described in Chaisson et al. 2014 and adds several key features including the following.

• Unified variant calling user interface with built-in cluster compute support
• Small indel calling (2-49 bp)
• Improved inversion calling (screenInversions)
• Quality metric for SV calls based on number of local assemblies supporting each call
• Higher sensitivity for SV calls using tiled local assemblies across the entire genome instead of "signature" regions
• Genotyping of SVs with Illumina paired-end reads from WGS samples

More at https://github.com/EichlerLab/pacbio_variant_caller

ALF
A Simulation Framework for Genome Evolution
http://www.cbrg.ethz.ch/alf

Bayesian Serial SimCoal
Bayesian Serial SimCoal, (BayeSSC) is a modification of SIMCOAL 1.0, a program written by Laurent Excoffier, John Novembre, and Stefan Schneider.
http://www.stanford.edu/group/hadlylab/ssc/index.html

BEERS
BEERS was designed to benchmark RNA-Seq alignment algorithms and also algorithms that aim to reconstruct different isoforms and alternate splicing from RNA-Seq data
http://cbil.upenn.edu/beers/

BOTTLENECK
Bottleneck is a program for detecting recent effective population size reductions from allele data frequencies
http://www.ensam.inra.fr/urlb/bottleneck/bottleneck.html

BottleSim
BottleSim is a computer simulation program for simulating the process of population bottlenecks
http://chkuo.name/software/bottlesim.html

CASS
Protein Sequence Simulation
http://www.wyomingbioinformatics.org/liberlesgroup/cass/

CDPOP
CDPOP is a landscape genetics tool for simulating the emergence of spatial genetic structure in populations resulting from specified landscape processes governing organism movement behavior.
http://cel.dbs.umt.edu/cdpop

CoalFace
CoalFace is a simulation of the coalescent process with the visual display of gene genealogies.
http://web.up.ac.za/default.asp?ipkcategoryid=3283

CoaSim
CoaSim is a tool for simulating the coalescent process with recombination and geneconversion under various demographic models.
http://users-birc.au.dk/mailund/coasim/index.html

cosi
The cosi package is written in C and is available as a tar file.
http://www.broadinstitute.org/~sfs/cosi/

CS-PSeq-Gen
A program to simulate the evolution of protein sequences under the constraints of the information of a particular reconstructed phylogeny
http://bioserv.rpbs.univ-paris-diderot.fr/software/cs-pseq-gen.html

DAWG
An application designed to simulate the evolution of recombinant DNA sequences in continuous time
http://scit.us/projects/dawg

Easypop
EASYPOP is an individual based model intended to simulate datasets under a very broad range of conditions
http://www.unil.ch/dee/page36926_fr.html

EggLib
EggLib is a C++/Python library and program package for evolutionary genetics and genomics.
http://egglib.sourceforge.net/

EvolSimulator
A simulation test bed for hypotheses of genome evolution
http://acb.qfab.org/acb/evolsim/

EvolveAGene
A realistic coding sequence simulation program that separates mutation from selection and allows the user to set selection conditions
http://bellinghamresearchinstitute.com/software/index.html

fastsimcoal
A continuous-¬‐time coalescent simulator of genomic diversity under arbitrarily complex evolutionary scenarios
http://cmpg.unibe.ch/software/fastsimcoal/

FastSLINK
Simulation of Marker and Phenotype Data in Pedigrees
http://watson.hgen.pitt.edu/

FFPopSim
C++/Python library for population genetics.
http://webdav.tuebingen.mpg.de/ffpopsim/

FLUX SIMULATOR
The Flux Simulator aims at providing a deterministic in silico reproduction of the experimental pipelines for RNA-Seq, employing a minimal set of parameters.
http://flux.sammeth.net/simulator.html

ForSim
ForSim: A Forward Evolutionary Computer Simulation
http://www.anthro.psu.edu/weiss_lab/research.shtml

ForwSim
The program given below is based on the algorithm described in Padhukasahasram et al. 2008 to simulate genetic drift in a standard Wright-Fisher process.
http://badri-populationgeneticsimulators.blogspot.com/

FPG
Forward Population Genetic simulation
http://genfaculty.rutgers.edu/hey/software#fpg

FREGENE
FREGENE is a C++ program that simulates sequence-like data over large genomic regions in large diploid populations.
http://www.ebi.ac.uk/projects/bargen/download/fregen/documentation_html.html

GAMETES
Genetic Architecture Model Emulator for Testing and Evaluating Software: Simulates complex SNP models with pure, strict epistatic interactions with n-loci.
http://sourceforge.net/projects/gametes/?source=navbar

GASP
Genometric Analysis Simulation Program. A software tool for testing and investigating methods in statistical genetics by generating samples of family data based on user specified models.
http://research.nhgri.nih.gov/gasp/

GemSIM
Next generation sequencing read simulator
http://sourceforge.net/projects/gemsim/

GeneArtisan
Simulation of Markers in Case-Control Study Designs
http://www.rannala.org/?page_id=241

GENOME
A rapid coalescent-based whole genome simulator
http://www.sph.umich.edu/csg/liang/genome/

GenomePop2
GenomePop2 is a specialization of the program GenomePop just to manage SNPs under more flexible and useful settings. If you need models with more than 2 alleles please use the GenomePop program version.
http://webs.uvigo.es/acraaj/genomepop2.htm

GenomeSimla
GenomeSIMLA is currently under development- however, we have a beta release that we are asking to be tested
http://chgr.mc.vanderbilt.edu/genomesimla/

GENS2
Simulates interactions among two genetic and one environmental factor and also allows for epistatic interactions.
https://sourceforge.net/projects/gensim/

GWAsimulator
A rapid whole genome simulation program
http://biostat.mc.vanderbilt.edu/wiki/main/gwasimulator

HAP-SAMPLE
An association simulator for candidate regions or genome scans
http://www.hapsample.org/

HAPGEN
A simulator for the simulation of case control datasets at SNP markers
https://mathgen.stats.ox.ac.uk/genetics_software/hapgen/hapgen2.html

HapSim
A simulation tool for generating haplotype data with pre-specified allele frequencies and LD coefficients
http://cran.r-project.org/web/packages/hapsim/index.html

HAPSIMU
A program that simulates heterogeneous populations with various known and controllable structures under the continuous migration model or the discrete model
http://l.web.umkc.edu/liujian/

IBDsim
IBDSim is a computer package for the simulation of genotypic data under general isolation by distance models.
http://raphael.leblois.free.fr/

indel-Seq-Gen
A biological sequence simulation program that simulates highly divergent DNA sequences and protein superfamilies
http://bioinfolab.unl.edu/~cstrope/isg/

Indelible
A powerful and flexible simulator of biological evolution
http://abacus.gene.ucl.ac.uk/software/indelible/

invertFREGENE
InvertFREGENE is a forward-in-time simulator of inversions in population genetic data
http://www.ebi.ac.uk/projects/bargen/

kernalPop
A spatially explicit population genetic simulation engine
http://cran.r-project.org/src/contrib/archive/kernelpop/

MaCS
Markovian Coalescent Simulator
http://www-hsc.usc.edu/~garykche/

Mason
A package for the simulation of nucleotide data.
http://www.seqan.de/projects/mason/

mbs
modifying Hudson's ms software to generate samples of DNA sequences with a biallelic site under selection
http://www.sendou.soken.ac.jp/esb/innan/innanlab/software.html

Mendel's Accountant
Mendel's Accountant (MENDEL) is an advanced numerical simulation program for modeling genetic change over time and was developed collaboratively by Sanford, Baumgardner, Brewer, Gibson and ReMine
http://mendelsaccount.sourceforge.net/

MetaSim
A tool to generate collections of synthetic reads that reflect the diverse taxonomical composition of typical metagenome data sets
http://ab.inf.uni-tuebingen.de/software/metasim/

mlcoalsim
Multilocus Coalescent Simulations
http://code.google.com/p/mlcoalsim-v1/

ms
The purpose of this program is to allow one to investigate the statistical properties of such samples, to evaluate estimators or statistical tests, and generally to aid in the interpretation of polymorphism data sets.
http://home.uchicago.edu/~rhudson1/source/mksamples.html

msHOT
The purpose of this program is to allow one to investigate the statistical properties of such samples, to evaluate estimators or statistical tests, and generally to aid in the interpretation of polymorphism data sets.
http://home.uchicago.edu/~rhudson1/

msms
A coalescent Simlation tool with selection.
http://www.mabs.at/ewing/msms/index.shtml

MySSP
A program for the simulation of DNA sequence evolution across a phylogenetic tree
http://www.rosenberglab.net/software.php

Nemo
A forward-time, individual-based, genetically explicit, and stochastic simulation program designed to study the evolution of genetic markers, life history traits, and phenotypic traits in a flexible (meta-)population framework.
http://nemo2.sourceforge.net/

NetRecodon
Coalescent simulation of coding DNA sequences with recombination (inter and intracodon), migration and demography
http://code.google.com/p/netrecodon/

PEDAGOG
Software for simulating eco-evolutionary population dynamics
https://bcrc.bio.umass.edu/pedigreesoftware/node/5

phenosim
A tool to add phenotypes to simulated genotypes
http://evoplant.uni-hohenheim.de/doku.php?id=software:software

PhyloSim
An R package for the Monte Carlo simulation of sequence evolution
http://bit.ly/rlsim-git

pIRS
Profile-based Illumina pair-end reads simulator
https://code.google.com/p/pirs/

ProteinEvolver
Simulation of protein evolution along phylogenies under structure-based substitution models
http://code.google.com/p/proteinevolver/

QMSim
QTL and Marker Simulator
http://www.aps.uoguelph.ca/~msargol/qmsim/

quantiNEMO
An individual-based program for the analysis of quantitative traits with explicit genetic architecture potentially under selection in a structured population
http://www2.unil.ch/popgen/softwares/quantinemo/

RECOAL
Simulates new haplotype data from a reference population of haplotypes.
ftp://popgen.usc.edu/

Recodon
Coalescent simulation of coding DNA sequences with recombination, migration and demography
http://code.google.com/p/recodon/

rlsim
A package for simulating RNA-seq library preparation with parameter estimation
http://bit.ly/rlsim-git

Rmetasim
Rmetasim is a front-end for the metasim engine that is implemented as a package that runs in the statistical computing environment R
http://linum.cofc.edu/software.html#metasim

RNA Seq Simulator
RSS takes SAM alignment files from RNA-Seq data and simulates over dispersed, multiple replica, differential, non-stranded RNA-Seq datasets.
http://useq.sourceforge.net/cmdlnmenus.html#rnaseqsimulator

Rose
Random model of sequence evolution
http://bibiserv.techfak.uni-bielefeld.de/rose/

SelSim
SelSim is a program for Monte Carlo simulation of DNA polymorphism data for a recom- bining region within which a single bi-allelic site has experienced natural selection
http://www.well.ox.ac.uk/~spencer/selsim/

Seq-Gen
An application for the Monte Carlo simulation of molecular sequence evolution along phylogenetic trees.
http://tree.bio.ed.ac.uk/software/seqgen/

SEQPower
Statistical power analysis for sequence-based association studies
http://bioinformatics.org/spower/

SeqSIMLA
SeqSIMLA can simulate sequence data with user-specified disease and quantitative trait models. Family or unrelated case-control data can be simulated.
http://seqsimla.sourceforge.net/

Serial NetEvolve
A flexible utility for generating serially-sampled sequences along a tree or recombinant network
http://biorg.cis.fiu.edu/sne/

SFS_CODE
SFS_CODE can perform forward population genetic simulations under a general Wright-Fisher model with arbitrary migration, demographic, selective, and mutational effects.
http://sfscode.sourceforge.net/sfs_code/index/index.html

SIBSIM
Quantitative phenotype simulation in extended pedigrees
http://sourceforge.net/projects/sibsim/

SIMCOAL2
A coalescent program for the simulation of complex recombination patterns over large genomic regions under various demographic models
http://cmpg.unibe.ch/software/simcoal2/

SimCopy
An R package simulating the evolution of copy number profiles along a tree.
http://bit.ly/simcopy

SIMLA
SIMLA is a SIMuLAtion program that generates data sets of families for use in Linkage and Association studies.
http://www.chg.duke.edu/research/simla.html

SimPed
A Simulation Program to Generate Haplotype and Genotype Data for Pedigree Structures
http://www.hgsc.bcm.tmc.edu/content/simped

Simprot
A program to simulate protein evolution by substitution, insertion and deletion
http://www.uhnresearch.ca/labs/tillier/software.htm#3

SimRare
Rare variant simulation and analysis tool
http://code.google.com/p/simrare/

simuGWAS
A forward-time simulator that simulates realistic samples for genome-wide association studies.
http://simupop.sourceforge.net/cookbook/simucomplexdisease

simuPOP
simuPOP is a general-purpose individual-based forward-time population genetics simulation environment.
http://simupop.sourceforge.net/

SISSI
A software tool to generate data of related sequences along a given phylogeny, taking into account user defined system of neighbourhoods and instantaneous rate matrices.
http://www.cibiv.at/software/sissi/

SNPsim
Coalescent simulation of hotspot recombination
http://code.google.com/p/phylosoftware/

SPIP
SPIP simulates the transmission of genes from parents to offspring in a population having demographic structure defined by the user
http://swfsc.noaa.gov/textblock.aspx?division=fed&id=3434

Splatche
Spatial and Temporal Coalescences in Heterogeneous Environment
http://www.splatche.com/

srv
Simulator of Rare Varaints (srv) is a simulator for the simulation of the introduction and evolution of (rare) genetic variants.
http://simupop.sourceforge.net/cookbook/simurarevariants

SUP
SLINK/FastSLINK utility program
http://mlemire.freeshell.org/software.html

TreesimJ
A flexible, forward-time population genetic simulator
http://code.google.com/p/treesimj/

Vortex
VORTEX is an individual-based simulation model for population viability analysis (PVA).
http://www.vortex9.org/vortex.html

References:

Image www.evolution-of-life.com

www.cancer.gov

AutoDock

Stochastic (GA)

Flexible ligand and partially flexible target

ArgusLab

Systematic

Flexible ligandX-Score based

DOCK

Systematic (IC)

Flexible ligandDOCK 3.5 (force field)

eHITS

Systematic (RBD of fragments followed by reconstruction)Flexible ligand and partially flexible targetHiTS_Score (empirical)

FlexX

Systematic (IC)Flexible ligandFlexX SF (empirical)Commercial

FLIPDock

Stochastic (GA)Flexible ligand and flexible targetAUTODOCK (empirical)

FRED

Systematic (RBD)Flexible ligandChemScore, PLP, ScreenScore, ChemGauss (empirical/consensus)

GOLD

Stochastic (GA)

Flexible ligand and partially flexible targetGoldScore, ChemScore (empirical), ASP (knowledge based)

ICM

Stochastic (MC)

Flexible ligand and partially flexible targetICM SF (empirical)

ParDOCK

Stochastic (MC)

RigidBAPPL (empirical)

PLANTS

Stochastic (ACO)Flexible ligand and partially flexible target

CHEMPLP, PLP (empirical)

Surflex

Systematic (IC/MA)Flexible ligandHammerhead based (empirical)

Point to note:

Several studies have shown that the performance of most docking tools is highly dependent on the particular characteristics of both the binding site and the ligand to be investigated, and the determination which method would be more suitable in a specific context is difficult. We encouraged you to check several docking methods to determine which one(s) work best for your system.

3D-Dock Suite

Global rigid search: FFTShape complementarity and electrostatics

Re-scoring and clustering. Refinement of interface side-chains

3D-Garden

Global rigid search in ensamble

Shape complementarity and Lennard–Jones potential

Side chain and backbone dihedral refinement

DOT

Global rigid search: FFTShape complementarity, electrostatics and VDWNone

Escher NG

Global rigid searchShape complementarity, hydrogen bonds and electrostatic

Integrated in VEGA

GRAMM 

Global rigid search: FFT. smooth protein surface representation for soft docking

Shape complementarity and Lennard-Jones potential

Clustering of conformations

GRAMM-X 

Global rigid search: FFT. smooth protein surface representation for soft docking

Shape complementarity and Lennard-Jones potentialminimization and re-scoring with multiple filters

HEX

Global rigid search: Fourier correlation of spherical harmonics

Shape complementarity

HADDOCK

Global rigid searchElectrostatic ,VDW and desolvation energy termsMD simulated annealing refinement . Filtering based on external data. 

ICM

Global rigid search: Monte CarloEmpirical scoring function

Clustering and selection of conformations. Refinement of interface side-chains and re-scoring

MolFit 

Global rigid search: FFTShape complementarity

Clustering of good solutions, filtering using a priori information and small, local rigid rotations around selected conformations

PatchDock

Global rigid searchShape complementarity and atomic desolvation energy

Clustering of conformations

PyDock

Global rigid search:FFTShape complementarity

rescoring by binding electrostatics and desolvation energy

RosettaDock

Local rigid search: Monte Carlo with low and high resolution structure representation levels

Different scoring parameters for the different resolutions 

ZDOCK

Global rigid search: FFTShape complementarity, desolvation energy, and electrostatics.

Energy minimization and re-scoringFree for academics

Point to note:

The proper treatment of flexibility in protein–protein docking is still an active field of research. You first should analyzed your proteins in order to define their conformational space and then choose the most suitable method for your docking problem.

Address of the bookmark: http://39.96.85.9/PPAI/

In the mid 1960's scientists discovered that many genomes contain stretches of highly repetitive DNA sequences ( see Reassociation Kinetics Experiments, and C-Value Paradox ). These sequences were later characterized and placed into five categories:

Simple Repeats - Duplications of simple sets of DNA bases (typically 1-5bp) such as A, CA, CGG etc.
Tandem Repeats - Typically found at the centromeres and telomeres of chromosomes these are duplications of more complex 100-200 base sequences.
Segmental Duplications - Large blocks of 10-300 kilobases which are that have been copied to another region of the genome.
Interspersed Repeats
Processed Pseudogenes, Retrotranscripts, SINES - Non-functional copies of RNA genes which have been reintegrated into the genome with the assitance of a reverse transcriptase.
DNA Transposons
Retrovirus Retrotransposons
Non-Retrovirus Retrotransposons ( LINES )

Currently up to 50% of the human genome is repetitive in nature and as improvements are made in detection methods this number is expected to increase.

On the other hand; In genetics, the term palindrome refers to a sequence of nucleotides along a DNA (deoxyribonucleic acid) or RNA (ribonucleic acid) strand that contains the same series of nitrogenous bases regardless from which direction the strand is analyzed. Akin to a language palindrome—wherein a word or phrase is spelled the same left-to-right as right-to-left (e.g., the word RADAR or the phrase "able was I ere I saw elba")—with genetic palindromes it does not matter whether the nucleic acid strand is read starting from the 3' (three prime) end or the 5' (five prime) end of the strand.

Recent research on palindromes centers on understanding palindrome formation during gene amplification. Other studies have attempted to relate palindrome formation to molecular mechanisms involved in double stranded breaks and in the formation of inverted repeats. Assisted by high speed computers, other groups of scientists link palindrome formation to the conservation of genetic information.

Related to the direction of transcription by RNA polymerase, DNA strands have upstream and downstream terminus defined by differing chemical groups at each end. The ends of each strand of DNA or RNA are termed the 5' (phosphate bound to the 5' position carbon) and 3' (phosphate bound to the 3' carbon) ends to indicate a polarity within the molecule. Using the letters A, T, C, G, to represent the nitrogenous bases adenine, thymine, cytosine, and guanine found in DNA, and the letters A, U, C, G to represent the nitrogenous bases adenine, uracil, cytosine, guanine found in RNA (Note that uracil in RNA replaces the thymine found in DNA), geneticists usually represent DNA by a series of base codes (e.g., 5' AATCGGATTGCA 3'). The base codes are usually arranged from the 5' end to the 3' end.

Because of specific base pairing in DNA (i.e., adenine (A) always bonds with (thymine (T) and cytosine (C) always bonds with guanine (G)) the complimentary stand to the sequence 5' AATCGGATTGCA 3' would be 3' TTAGCCTAACGT 5'.

With palindromes the sequences on the complimentary strands read the same in either direction. For example, a sequence of 5' GAATTC3' on one strand would be complimented by a 3' CTTAAG 5' strand. In either case, when either strand is read from the 5' prime end the sequence is GAATTC. Another example of a palindrome would be the sequence 5' CGAAGC 3' that, when reversed, still reads CGAAGC.

Palindromes are important sequences within nucleic acids. Often they are the site of binding for specific enzymes (e.g., restriction endobucleases) designed to cut the DNA strands at specific locations (i.e., at palindromes).

Palindromes may arise from brakeage and chromosomal inversions that form inverted repeats that compliment each other. When a palindrome results from an inversion, it is often referred to as an inverted repeat. For example, the sequence 5' CGAAGC 3', if inverted (reversed 180°), still reads CGAAGC.

The European Molecular Biology Open Software Suite (EMBOSS) includes some basic tools for finding tandem repeats and inverted repeats (see B.6.22. Applications in group Nucleic:repeats). There are many on-line services providing the EMBOSS tools, for example:

• Wageningen Bioinformatics Webportal EMBOSS explorer
• Mobyle@Pasteur
• Soaplab2 Web Services at Vital-IT

For more sophisticated repeat finding you will want to look at tools using Repbase for example:

• CENSOR
  • CENSOR@GIRI
  • CENSOR@EMBL-EBI
• RepeatMasker
• MUMmer (scan_for_match)
• Emboss Palindrome

Other nucleotide repeat finding methods found by a couple of web searches:

• Tandem Repeats Finder
• RECON
• RepeatRunner
• REPuter
• Imperfect Microsatellite Extractor (IMEx)
• Spectral Repeat Finder (SRF)
• REPFIND
• CRISPRfinder
• GrailEXP
• CONREPP
• find_palindromes
• Palindrome
• EMBOSS Palindrome
• Palindrome Search

MutaBind guides you through this process, step by step, starting with selecting a protein complex and inputting PDB code or uploading PDB files. You can also retrieve results with a job ID number, view help documents, and review the MutaBind method and references.

More at http://www.ncbi.nlm.nih.gov/projects/mutabind/index.fcgi/

If you would like to use GeneValidator on a few sequences, see our online GeneValidator Web App -http://genevalidator.sbcs.qmul.ac.uk.

If you use GeneValidator in your work, please cite us as follows:

Dragan M‡, Moghul MI‡, Priyam A, Bustos C & Wurm Y. 2016. GeneValidator: identify problems with protein-coding gene predictions. Bioinformatics, doi: 10.1093/bioinformatics/btw015.

 

Address of the bookmark: https://github.com/wurmlab/genevalidator

We therefore list many genomle assembly tools here. We mainly reported for the assembly of genomes while the others are designed aiming at handling complex genomes.

• TriMetAss 1.2 – The Trinity-based Iterative Metagenomics Assembler
  • TriMetAss is an extension to the Trinity software [1], which can assemble select regions surrounding interesting features in metagenomic data. The software is particularly useful for very common and well-conserved genes (and – in theory – non-coding regions) that can occur in multiple contexts in the microbial community under study. It uses Vmatch [2] to extend seed reads (or contigs generated by another assembler) into longer contigs, by iteratively calling Vmatch and Trinity, until some stop criteria are met. Currently, TriMetAss lacks a thorough documentation, but you can direct questions to me if the README.txt file and the “-h” option is not sufficient to understand the software.
    
    
• OMWare 1.0 – Efficient Assembly of Genome-wide Physical Maps

  • The purpose of this Python module is help scientists use optical map data.
    Once complete, it will encapsulate and abstractify optical maps and their most common manipulations as they exist in a variety of formats.

• LightAssembler – Lightweight Resources Assembly Algorithm

  • Lightweight resources assembly algorithm for high-throughput sequencing reads.
    System requirements
    64-bit machine with g++ compiler or gcc in general, pthreads,and zlib libraries.

• QUAST 4.1 – Quality Assessment Tool for Genome Assemblies

  • QUAST evaluates genome assemblies.
    QUAST works both with and without a reference genome. 
    The tool accepts multiple assemblies, thus is suitable for comparison.

• DNA Baser 4.36 – DNA Sequence Assembly & Analysis
  • DNA Sequence Assembler is revolutionary bioinformatics software for automatic DNA sequence assembly , DNA sequence analysis, contig editing, file format conversion and mutation detection.
    
    
• COCACOLA – Binning Metagenomic Contigs using Sequence COmposition, Read CoverAge, CO-alignment, and Paired-end Read LinkAge
  
  • COCACOLA: a general framework for binning contigs in metagenomic studies incorporating read COverage, CorrelAtion, sequence COmposition and paired-end read LinkAge
    
    
• MaxBin 2.2 – Binning Assembled Metagenomic Sequences
  • MaxBin is software for binning assembled metagenomic sequences based on an Expectation-Maximization algorithm. Users can understand the underlying bins (genomes) of the microbes in their metagenomes by simply providing assembled metagenomic sequences and the reads coverage information or sequencing reads. 
    
    
• GAML 0.1 – Genome Assembly by Maximum Likelihood
  
  • GAML is a prototype genome assembly tool based on maximizing likelihood of the assembly in a model encompaasing error rate, insert length and other features of indvidual sequencing technologies. It can combine datasets produced by different technologies (currently Illumina, 454 and Pacific Biosciences).
    
    
• NanoMark – DNA Assembly Benchmark for Nanopore long reads

  • DNA Assembly Benchmark for Nanopore long reads
    A system for benchmarking DNA assembly tools, based on 3rd generation sequencers.

• ARC 1.1.4-beta – Assembly by Reduced Complexity

  • ARC is a pipeline which facilitates iterative, reference guided de novo assemblies with the intent of: 
    1.Reducing time in analysis and increasing accuracy of results by only considering those reads which should assemble together.
    2.Reducing/removing reference bias as compared to mapping based approaches.

• TransPS 1.1.0 – Transcriptome Post Scaffolding
  • TransPS is a pipeline for post-processing of pre-assembled transcriptomes using reference based method. It applies an align-layout-consensus structure, consisting of three major stages. First, query sequences are aligned with a reference genome. Second, query sequences are ordered based on the alignment to the reference. Third, non-redundant sequences matched to the same gene of reference genome are scaffolded into one contig. 
    
    
• assemblyManager – Computing the Robotic Commands for 2ab Assembly
  • Clotho provides persistence to such objects through relational databases that at least partially correspond the Clotho data model. Beyond database access and data model API support, Clotho Apps provide more specific functionality to Clotho such as viewing and editing data, running simulations, and automating various tasks. When thinking about Clotho Apps, an appropriate analogy would be Apps running on the Android operating system rather than the add-ons that extend the functionality of Firefox
    
    
• BinPacker 1.1 – Packing-Based De Novo Transcriptome Assembly from RNA-seq Data
  • BinPacker is a novel de novo assembler by modeling the transcriptome assembly problem as tracking a set of trajectories of items with their sizes representing coverage of their corresponding isoforms by solving a series of bin-packing problems
    
    
• FermiKit 0.13 – De novo Assembly based Variant Calling pipeline for Illumina Short Reads
  • FermiKit is a de novo assembly based variant calling pipeline for deep Illumina resequencing data. It assembles reads into unitigs, maps them to the reference genome and then calls variants from the alignment to an accuracy comparable to conventional mapping based pipelines (see evaluation in the tex directory). The assembly does not only encode SNPs and short INDELs, but also retains long deletions, novel sequence insertions, translocations and copy numbers
    
    
• REPdenovo – A tool to Construct Repeats directly from Raw Reads

  • REPdenovo is designed for constructing repeats directly from sequence reads. It based on the idea of frequent k-mer assembly. REPdenovo provides many functionalities, and can generate much longer repeats than existing tools. The overall pipeline is shown in the mannual file. REPdenovo supports the following main functionalities.
    1.Assembly. This step performs k-mer counting. Then we find frequent k-mers whose frequencies are over certain threshold. We then assemble these frequent k-mers into consensus repeats (in the form of contigs). Then we merge the constructed contigs to more completeness ones.
    2.Scaffolding. We use paired-end reads to connect repeat contigs into scaffolds, also provide the average coverage (indicates the copy number) for each constructed repeats.

• Xander – Gene-targeted Metagenomic Assembler
  • Metagenomics can provide important insight into microbial communities. However, assembling metagenomic datasets has proven to be computationally challenging. We present a novel method for targeting assembly of specific protein-coding genes using a graph structure combining both de Bruijn graphs and protein HMMs. The inclusion of HMM information guides the assembly, with concomitant gene annotation. 
    
    
• SWAP-Assembler 2 – A scalable and fully parallelized Genome Assembler
  • There is a growing gap between the output of new generation massively parallel sequencing machines and the ability to process and analyze the sequencing data. We present SWAP-Assembler, a scalable and fully parallelized genome assembler designed for massive sequencing data. Intend of using traditional de Bruijn Graph, SWAP-Assembler adopts multi-step bi-directed graph (MSG). With MSG, the standard genome assembly (SGA) is equivalent to the edge merging operations in a semi-group. Then a computation model, SWAP, is designed to parallelize semi-group computation. Experimental results showed that SWAP-Assembler is the fastest and most efficient assemblers ever, it can generated contigs with highest accuracy over all five selected assemblers and longest contig N50 in all selected parallel assemblers. Specially, in the scalability test, SWAP-Assembler can scales up to 1024 cores when processing Fish and Yanhuang dataset, and finishes the assembly work in only 15 and 29 minutes respecitively
    
    
• TGNet – Visualization and Quality Assessment of de novo Genome Assemblies
  • TGNet is a Cytoscape-based tool for visualization and quality assessment of de novo genome assemblies. Specifically it facilitates rapid detection of inconsistencies between a genome assembly and an independently derived transcriptome assembly.
    
    
• Circlator 1.1.3 – A tool to Circularize Genome Assemblies
  • A tool to circularize genome assemblies. The algorithm and benchmarks are described in the Genome Biology manuscript. 
    
    
• misFinder v0.4.05.05 – Identify Mis-assemblies in an unbiased manner using Reference and Paired-end Reads
  • misFinder is a tool that aims to identify the assembly errors with high accuracy in an unbiased way and correct these errors at their mis-assembled positions to improve the assembly accuracy for downstream analysis. It combines the information of reference (or close related reference) genome and aligned paired-end reads to the assembled sequence. Structure variation and mis-assembly can be detected by comparing the reference genome and assembled sequence.
    
    
• Scaffold_builder v2.2 – Order Contigs generated by draft sequencing along a Reference Sequence
  • The abundance of repeat elements in genomes can impede the assembly of a single sequence. The tool Scaffold_builder was designed to generate scaffolds (super contigs of sequences joined by N-bases) using the homology provided by a closely related reference sequence. Scaffold_builder is an advanced wrapper for Nucmer, written in Python that resolves several situations that may arise when mapping contigs to the reference genome.
    
    
• Rnnotator 3.5.0 – de novo Transcriptome Assembly pipeline from stranded RNA-Seq reads
  • Comprehensive annotation and quantification of transcriptomes are outstanding problems in functional genomics. Rnnotator is an automated software pipeline that generates transcript models by de novo assembly of RNA-Seq data without the need for a reference genome. The contigs produced by Rnnotator are highly accurate and reconstruct full-length genes when transcripts are sequenced sufficiently deep, roughly 30X for a given transcript. Rnnotator was designed to assemble Illumina single or paired-end reads. Rnnotator is also able to incorporate strand-specific RNA-Seq reads into the assembly in order to further improve the assembly.
    
    
• SATRAP 0.2 – SOLiD Assembler TRAnslation Program

  • A color space assembly must be translated into bases before applying bioinformatics analyses. SATRAP is designed to accomplish this important task adopting a very efficient strategy. The package integrates the Oases pipeline and several optimizations specifically designed for color space management. All steps of the pipeline allow to produce a SOLiD de novo transcriptome assembly and the subsequent color space translation. Alternatively, SATRAP can be used as a stand alone program to perform color space translation for either RNA-seq or DNA-seq SOLiD assemblies.

• Bandage v0.7.1 – Navigating De novo Assembly Graphs Easily
  • Bandage is a program for visualising de novo assembly graphs. By displaying connections which are not present in the contigs file, Bandage opens up new possibilities for analysing de novo assemblies.
    
    
• HapCol 1.1.1 – Haplotype Assembly from Long Gapless Reads
  • A fast and memory-efficient method for haplotype assembly from long gapless reads, like those produced by SMRT sequencing technologies (PacBio RS II) and Oxford Nanopore flow cell technologies (MinION).
    
    
• REAGO 1.1 – REconstruct 16S ribosomal RNA Genes from MetagenOmic data
  
  • an assembly tool for 16S ribosomal RNA recovery from metagenomic data
    
    
• FGAP 1.8.1 – Automated Gap Closing tool
  • FGAP aims to improve genome sequences by merging alternative assemblies or incorporating alternative data, analyzing the gap region and indicating the best sequence to close the gap.
    
    
• DETONATE 1.10 – DE novo TranscriptOme rNa-seq Assembly with or without the Truth Evaluation
  • DETONATE consists of two component packages, RSEM-EVAL and REF-EVAL. Both packages are mainly intended to be used to evaluate de novo transcriptome assemblies, although REF-EVAL can be used to compare sets of any kinds of genomic sequences.
    
    
• Trinity 2.1.1 – RNA-Seq De novo Assembly
  
  • Trinity represents a novel method for the efficient and robust de novo reconstruction of transcriptomes from RNA-Seq data. Trinity combines three independent software modules: Inchworm, Chrysalis, and Butterfly, applied sequentially to process large volumes of RNA-Seq reads. Trinity partitions the sequence data into many individual de Bruijn graphs, each representing the transcriptional complexity at at a given gene or locus, and then processes each graph independently to extract full-length splicing isoforms and to tease apart transcripts derived from paralogous genes.
    
    
• IsoSCM 2.0.11 – Transcript Assembly tool using Multiple Change-point Inference to improve 3’UTR Annotation
  • IsoSCM (Isoform Structural Change Model) is a new method for transcript assembly  that incorporates change-point analysis to improve the 3′ UTR annotation process.
    
    
• IVA 1.0.3 – Iterative Virus Assembler
  • IVA is a de novo assembler designed to assemble virus genomes that have no repeat sequences, using Illumina read pairs sequenced from mixed populations at extremely high and variable depth.
    
    
• SFA-SPA 0.2.1 – A Suffix Array based Short Peptide Assembler for Metagenomic Data
  • SFA-SPA is a suffix array based short peptide assembler for metagenomic data
    
    
• RAMPART 0.12.2 – A Workflow Management System for de novo Genome Assembly
  • RAMPART is a de novo assembly pipeline that makes use of third party-tools and High Performance Computing resources. It can be used as a single interface to several popular assemblers, and can perform automated comparison and analysis of any generated assemblies
    
    
• Celera Assembler 8.3 – Whole Genome Shotgun Assembler
  • Celera Assembler (wgs-assembler) is scientific software for DNA research. It can reconstruct long sequences of genomic DNA given the fragmentary data produced by whole-genome shotgun sequencing. The Celera Assembler has enabled discovery in microbial genomes, large eukaryotic genomes, diploid genomes, and genomes from environmental samples. Celera Assembler contributed the first diploid sequence of an individual human, and metagenomics assemblies of the Global Ocean Sampling
    
    
• A5-miseq 20150522 – de novo Assembly & Analysis of Illumina Sequence data
  • de novo assembly & analysis of Illumina sequence data, including the A5 pipeline, A5-miseq, tools to evaluate assembly quality, and scripts to facilitate data submission to NCBI and the RAST annotation system
    
    
• Trans-ABySS 1.5.3 – Analyze ABySS multi-k-assembled Shotgun Transcriptome Data.
  • Trans-ABySS is a software pipeline for analyzing ABySS-assembled contigs from shotgun transcriptome data. The pipeline accepts assemblies that were generated across a wide range of k values in order to address variable transcript expression levels. It first filters and merges the multi-k assemblies, generating a much smaller set of nonredundant contigs. It contains scripts that map assembled contigs to known transcripts, currently supporting Blat and Exonerate contig-to-genome aligners. It identifies novel splicing events like exon-skipping, novel exons, retained introns, novel introns, and alternative splicing. Its scripts can also estimate gene expression levels, identify candidate polyadenylation sites, and identify candidate gene-fusion events.
    
    
• SAT-Assembler 20160120 – Scalable and Accurate Targeted Gene Assembly Tool
  • SAT-Assembler can perform targeted gene assembly for both RNA-Seq and metagenomic data. It addresses the above challenges of de novo assembly of large scale NGS data by conducting family-specic gene assembly, homology-guided overlap graph construction, and careful graph traversal.
    
    
• Opera 2.0.2 – Sequence Assembly Program
  • Opera (Optimal Paired-End Read Assembler) is a sequence assembly program . It uses information from paired-end reads to optimally order and orient contigs assembled from shotgun-sequencing reads.
    
    
• Sequencher 5.4.1 – DNA Sequence Assembly and Analysis
  • Sequencher is the industry standard software for DNA sequence analysis. It works with all automated sequencers and is widely known for its lightning-fast contig assembly, short learning curve, user-friendly editing tools, and superb technical support. First released almost 15 years ago, Sequencher is currently used for sequence analysis tasks in every major genomic and pharmaceutical company as well as numerous academic and government labs in over 40 countries around the world. Life Science researchers use Sequencher for many diverse DNA sequence analysis applications including de novo gene sequencing, mutation detection, forensic human identification, systematics, and more.
    
    
• Minia 2.0.3 – Short-read Assembler based on a de Bruijn graph
  • Minia is a short-read assembler based on a de Bruijn graph, capable of assembling a human genome on a desktop computer in a day
    
    
• MaSuRCA 3.1.3 – Whole Genome Short Read Assembler
  • MaSuRCA is whole genome assembly software. It combines the efficiency of the de Bruijn graph and Overlap-Layout-Consensus (OLC) approaches. MaSuRCA can assemble data sets containing only short reads from Illumina sequencing or a mixture of short reads and long reads (Sanger, 454).
    
    
• KmerGenie 1.6982 – K-mer size Selection for Genome Assembly
  • KmerGenie estimates the best k-mer length for genome de novo assembly. Given a set of reads, KmerGenie first computes the k-mer abundance histogram for many values of k. Then, for each value of k, it predicts the number of distinct genomic k-mers in the dataset, and returns the k-mer length which maximizes this number. Experiments show that KmerGenie’s choices lead to assemblies that are close to the best possible over all k-mer lengths.
    
    
• pilon v1.16 – Automated Assembly Improvement
  • pilon uses read alignment analysis to diagnose, report, and automatically improve de novo genome assemblies.
    
    
• Phred/Phrap/Consed 29.0 – DNA Sequence Assembler & Finishing Tools
  
  • phrap is a program for assembling shotgun DNA sequence data. Among other features, it allows use of the entire read and not just the trimmed high quality part, it uses a combination of user-supplied and internally computed data quality information to improve assembly accuracy in the presence of repeats, it constructs the contig sequence as a mosaic of the highest quality read segments rather than a consensus, it provides extensive assembly information to assist in trouble-shooting assembly problems, and it handles large datasets.
    
    
• CLC Genomics Workbench 8.5.1 – Assembly & Analysis of Sequencing Data
  • CLC Genomics Workbench, for analyzing and visualizing Next Generation Sequencing data, incorporates cutting-edge technology and algorithms, while also supporting and integrating with the rest of your typical NGS workflow.
    
    
• Metassembler 1.5 – Combines multiple Whole Genome de novo Assemblies into a combined Consensus Assembly
  • Metassembler is a software package for reconciling assemblies produced by de novo short-read assemblers such as SOAPdenovo and ALLPATHS-LG. The goal of assembly reconciliation, or “metassembly,” is to combine multiple assemblies into a single genome that is superior to all of its constituents
    
    
• Tablet 1.15.09.01 – Next Generation Sequence Assembly Visualization
  • Tablet is a lightweight, high-performance graphical viewer for next generation sequence assemblies and alignments.Supporting a range of input assembly formats, Tablet provides high-quality visualizations showing data in packed or stacked views, allowing instant access and navigation to any region of interest, and whole contig overviews and data summaries. Tablet is both multi-core aware and memory efficient, allowing it to handle assemblies containing millions of reads, even on a 32-bit desktop machine.
    
    
• ABySS 1.9.0 – de novo, parallel, paired-end Sequence Assembler
  • ABySS (Assembly By Short Sequences) is a de novo, parallel, paired-end sequence assembler that is designed for short reads. The single-processor version is useful for assembling genomes up to 100 Mbases in size. The parallel version is implemented using MPI and is capable of assembling larger genomes.
    
    
• CLEAT 2.0 – Identifies 3′ UTR Ends of Transcripts in de novo RNA-Seq Assemblies
  • CLEAT is a post-processing tool for CLEavage site Analysis of Transcriptomes. CLEAT is designed to work on trans-ABySS output.
    
    
• StriDe – novel Assembler
  • The StriDe Assembler integrates string and de Bruijn graph by decomposing reads within error-prone regions, while extending paire-end read into long reads for assembly through repetitive regions.
    
    
• REAPR 1.0.18 – Genome Assembly Evaluation
  • REAPR (Recognising Errors in Assemblies using Paired Reads) is a tool that evaluates the accuracy of a genome assembly using mapped paired end reads, without the use of a reference genome for comparison. It can be used in any stage of an assembly pipeline to automatically break incorrect scaffolds and flag other errors in an assembly for manual inspection. It reports mis-assemblies and other warnings, and produces a new broken assembly based on the error calls.
    
    
• GapFiller 1.10 – Close Gaps within Pre-assembled Scaffolds
  • GapFiller is a stand-alone program for closing gaps within pre-assembled scaffolds. It is unique in offering the possibility to manually control the gapclosure process. By using the distance information of paired-read data, GapFiller seeks to close the gap from each edge in an iterative manner. From a good number of tests we see the program yields excellent results both on bacterial en eukaryotic  datasets. The command-line Perl script and additional files van be downloaded below. The input data is given by pre-assembled scaffold sequences (FASTA) and NGS paired-read data (FASTA or FASTQ).
    
    
• SSAKE 3.8.4 – Assembling Millions of short DNA Sequences
  • SSAKE is a genomics application for assembling millions of very short DNA sequences.SSAKE is designed to help leverage the information from short sequence reads by stringently assembling them into contiguous sequences that can be used to characterize novel sequencing targets.
    
    
• SGA 0.10.14 – String Graph Assembler
  • SGA is a de novo assembler designed to assemble large genomes from high coverage short read data. The major goal of SGA is to be very memory efficient, which is achieved by using a compressed representation of DNA sequence reads.
    
    
• r2cat – Synteny Plots & Comparative Assembly
  
  • r2cat (related reference based contig arrangement tool) can be used to order a set of contigs with respect to a single reference genome. This is done by mapping the contigs onto the reference using a q-gram filter. The mapping is visualized in a synteny plot.
    
    
• TASR 1.6 – Targeted Assembly of Sequence Reads
  • TASR (Targeted Assembly of Sequence Reads)  is a genomics application that allows hypothesis-based interrogation of genomic regions (sequence targets) of interest.
    
    
• Rainbow v2.0.4 – Clustering and Assembling Short Reads, especially for RAD
  • Rainbow package consists of several programs used for RAD-seq related clustering and de novo assembly.
    
    
• CAFTOOLS 2.0.2 – Tools for the Common Assembly Format (CAF)
  • CAFTOOLS comprises a set of libraries and programs for manipulating DNA sequence assemblies using CAF files, a comprehensive representation of a sequence assembly as a text file.
• Gap Resolution – Improving Newbler Genome Assemblies. Gap Resolution was developed by DOE Joint Genome Institute to improve Newbler genome assemblies by automating the closure of sequence gaps caused by repetitive regions in the DNA.
  
  
• Meraculous 2.0.5 – De novo Genome Assembler from Short Reads
  • Meraculous is a new algorithm for whole genome assembly of deep paired-end short reads, and apply it to the assembly of a dataset of paired 75-bp Illumina reads derived from the 15.4 megabase genome of the haploid yeast Pichia stipitis.
    
    
• COPE 1.2.5 – Pair-end Reads Connection tool to facilitate Genome Assembly
  • COPE (Connecting Overlapped Pair-End reads) is a method to align and connect the illumina sequenced Pair-End reads of which the insert size is smaller than the sum of the two read length.The connected reads can be used in genome assembly, resequencing and transcriptome research.
    
    
• PEAR 0.9.6 – Pair-End reads AssembleR
  • PEAR is an ultrafast, memory-efficient and highly accurate pair-end reads assembler. It is fully parallelized and can run with as low as just a few kilobytes of memory.
    
    
• EBARDenovo 2.0.1 – Highly-accurate de novo Assembler of Paired-end RNA-Seq
  • EBARDenovo is a highly-accurate search-based de novo assembler of paired-end RNA-Seq for advance transcriptomic study.
    
    
• EagleView 2.2 – Genome Assembler Viewer
  • EagleView is an information-rich genome assembler viewer with data integration capability. EagleView can display a dozen different types of information including base qualities, machine specific trace signals, and genome feature annotations. It provides an easy way for inspecting visually the quality of a genome assembly and validating polymorphism candidate sites (e.g., SNPs) reported by polymorphism discovery tools. It can also facilitate data interpretation and hypothesis generation.
    
    
• MAIA 0.5 – Integrating Genome Assemblies

  • MAIA (Multiple Assembly IntegrAtion) is an algorithm to integrate multiple genome assemblies. For example, assemblies originating from:
    – Different runs of a de novo assembler
    – Assemblies of different data types
    – Comparative assemblies

• InteMAP 1.0 – Integrated Metagenomic Assembly pipeline for NGS Short Reads
  
  • InteMAP is a pipeline which integrates individual assemblers for assembling metagenomic short sequencing reads.
    
    
• MAP 20121108 – A de novo Metagenomic Assembly program for Shotgun DNA reads
  • MAP (Metagenomic Assembly program) is a de novo assembly approach and its implementation based on an improved Overlap/Layout/Consensus (OLC) strategy incorporated with several special algorithms.MAP uses the mate pair information, resulting in being more applicable to shotgun DNA reads (recommended as > 200 bp) currently widely-used in metagenome projects. Results of extensive tests on simulated data show that MAP can be superior to both Celera and Phrap for typical longer reads by Sanger sequencing, as well as has an evident advantage over Celera, Newbler, and the newest Genovo, for typical shorter reads by 454 sequencing.
    
    
• Phusion 2.1c – Assembly Genome Sequences from Whole Genome Shotgun(WGS) Reads
  • Phusion is a software package for assembling genome sequences from whole genome shotgun(WGS) reads.
    
    
• CodonCode Aligner 6.0.2 – DNA Sequence Assembly & Alignment
  • CodonCode Aligner is a program for sequence assembly, contig editing, and mutation detection, available for Windows and Mac OS X. Aligner is compatible with Phred-Phrap and fully supports sequence quality scores, while offering a familiar, easy-to-learn user interface.
    
    
• Cerulean 0.1.1 – Hybrid Genome Assembler
  • Cerulean is a hybrid assembly using high throughput short and long reads
    
    
• Ragout 1.2 – Tool for Reference-assisted Assembly
  • Ragout (Reference-Assisted Genome Ordering UTility) is a tool for assisted assembly using multiple references. It takes a short read assembly (a set of contigs), a set of related references and a corresponding phylogenetic tree and then assembles the contigs into scaffolds.
    
    
• laSV 1.0.2 – Local Assembly based Structural Variation Discovery tool
  • laSV is a software that employs a local de novo assembly based approach to detect genomic structural variations from whole-genome high-throughput sequencing datasets.
    
    
• SPAdes 3.6.2 – Single-cell Genome Assembler
  • SPAdes (St. Petersburg genome assembler) is intended for both standard isolates and single-cell MDA bacteria assemblies.
    
    
• PERGA 0.5.03.02 – Paired End Reads Guided Assembler
  • PERGA is a novel sequence reads guided de novo assembly approach which adopts greedy-like prediction strategy for assembling reads to contigs and scaffolds.
    
    
• Telescoper 0.2 – De novo Assembly Algorithm
  • Telescoper is a local assembly algorithm designed for short-reads from NGS platforms such as Illumina. The reads must come from two libraries: one short insert, and one long insert.
    
    
• MetaCompass 1.0 – Comparative Assembly of Metagenomic Sequences
  • MetaCompass is a software package for comparative assembly of metagenomic reads. MetaCompass achieves comparable assembly performance to the state of the art de novo assemblers, but these two different approaches complement each other a lot. So combining contigs between MetaCompass and other independent de novo assemblers give us the best overall metagenomic assembly.
    
    
• SCARF – Scaffolded and Corrected Assembly of Roche 454
  • SCARF is a next-gen sequence assembly tool for evolutionary genomics. Designed especially for assembling 454 EST sequences against high quality reference sequences from related species.
    
    
• MetaCAA – Assembly of Metagenomic Datasets
  • MetaCAA is a sequence-assembly tool specifically intended for metagenomes.
    
    
• Contiguity 1.0.4 – Contig Adjacency Graph Construction and Visualisation
  • Contiguity is interactive software for the visualization and manipulation of de novo genome assemblies.
    
    
• ScaffoldScaffolder 0.1 – Solving Contig Orientation via Bidirected to Directed Graph Reduction
  • ScaffoldScaffolder is a stand-alone scaffolding algorithm which was designed specifically for scaffolding diploid genomes.
    
    
• HaploClique 0.1 – Viral Quasispecies Assembly from Paired-end data
  • HaploClique is a computational approach to reconstruct the structure of a viral quasispecies from next-generation sequencing data as obtained from bulk sequencing of mixed virus samples.
    
    
• TAG 0.91 – Transcript Assembly by Mapping Reads to Graphs
  • TAG is a tool for metatranscriptome assembly using de Bruijn graph of matched metagenome as the reference
    
    
• EPGA2 – De Novo Assembler
  • EPGA2 updates some modules in EPGA which can improve memory efficiency in genome asssembly.
    
    
• GMcloser 1.5.1 / GMvalue 1.3 – Closing the Gaps in Scaffolds with Preassembled Contigs
  • GMcloser fills and closes the gaps present in scaffold assemblies, especially those generated by the de novo assembly of whole genomes with next-generation sequencing (NGS) reads.
    
    
• SLICEMBLER – Meta-assembler Designed for Ultra-deep Sequencing data
  • SLICEMBLER is a meta-assembler designed for ultra-deep sequencing data
    
    
• SEQLandscape v1 – Generation and Visualization of Sequence Landscape

  • SEQLandscape is an application allowing the generation and visualization of a sequence landscape. HyDA-Vista: Towards Optimal Guided Selection of k-mer Size for Sequence Assembly.

• misSEQuel v1.0beta – Misassembly Detection in Draft Genomes
  • misSEQuel is a software that enhances the quality of draft genomes by identifying misassembly errors and their breakpoints using paired-end sequence reads and optical mapping data.
    
    
• Dawg 1.2 – Simulating Sequence Evolution
  • Dawg (DNA Assembly with Gaps) is an application designed to simulate the evolution of recombinant DNA sequences in continuous time based on the robust general time reversible model with gamma and invariant rate heterogeneity and a novel length-dependent model of gap formation.
    
    
• BUSCO v1.1b1 – Assessing Genome Assembly and Annotation Completeness with Single-copy Orthologs
  • BUSCO completeness assessment employs sets of Benchmarking Universal Single-Copy Orthologs from OrthoDB to provide quantitative measures of the completeness of genome assemblies, annotated gene sets, and transcriptomes in terms of expected gene content.
    
    
• FinisherSC 2.0 – A Repeat-aware tool for upgrading de-novo Assembly using Long Reads
  • FinisherSC is a repeat-aware and scalable tool for upgrading de-novo assembly using long reads.
    
    
• WhatsHap – Haplotype Assembly for Future-Generation Sequencing Reads
  • WhatsHap is a software for phasing genomic variants using DNA sequencing reads, also called haplotype assembly. It is especially suitable for long reads, but works also well with short reads.
    
    
• Compartmentalized Assembler – Assembly of Physical Maps
  • Compartmentalized assembler is a novel method for the assemlby of high quality physical maps from fingerprinted clones.
    
    
• Elviz – Exploration of Metagenomic Assemblies
  • Elviz (Environmental Laboratory Visualization) is an interactive web-based tool for the visual exploration of assembled metagenome data and their complex metadata.
    
    
• SSP – de novo Transcriptome Assembler
  • SSP is a de novo transcriptome assembler that assembles RNA-seq reads into transcripts. SSP aims to reconstructs all the alternatively spliced isoforms and estimates the expression level of them.
    
    
• VirAmp – Galaxy-based Viral Genome Assembly pipeline
  • VirAmp is a web-based semi-de novo fast virus genome assembly pipeline designed for extremely high coverage NGS data. VirAmp is a collection of existing tools, combined into a single Galaxy interface. Users without further computational knowledge can easily operate the pipeline.
    
    
• aTRAM 1.04 – automated Target Restricted Assembly Method
  • aTRAM performs targeted de novo assembly of loci from paired-end Illumina runs.
    
    
• Ray 2.3.1 – Parallel Genome Assemblies for Parallel DNA sequencing
  • Ray is a parallel software that computes de novo genome assemblies with next-generation sequencing data.
    
    
• CAR – Contig Assembly of Prokaryotic Draft Genomes Using Rearrangements
  • CAR is an efficient and more accurate tool for assembling contigs of a prokaryotic draft genome based on a reference genome.
    
    
• VTBuilder – Assembly of Multi Isoform Transcriptomes
  • VTBuilder is a tool for the inference of non-chimeric contigs from read data that has been sequenced from complex multi-isoformic transcriptomes, such as snake venom glands, or rapidly evolving viral populations, such as HIV-1.
    
    
• TruHmm – TRanscription Unit Assembly by a Hidden Markov model
  • TruHmm is a reference based transcriptome assembler for prokaryotes, and is suitable for assembling transcripts for directional RNA-seq library.
    
    
• Bridger 20141201 – RNA-Seq Assembly
  • Bridger is a new de novo transcriptome assembler which takes advantage of techniques employed in Cufflinks to overcome limitations of the existing de novo assemblers.
    
    
• GRASP 0.0.4 – Guided Reference-based Assembly of Short Peptides
  • GRASP is a gene annotation tool for metagenomic studies. GRASP assembles the fragmented short-peptides, which are called from the NGS reads, and aligns the assembled contigs to the query reference protein. GRASP achieves much higher sensitivity than BLASTP for gene annotation purpose.
    
    
• Cortex 1.05.21 – Genome Assembly and Variation Analysis
  • Cortex is an efficient and low-memory software framework for analysis of genomes using sequence data. There are two main executables, being developed in parallel streams: cortex_con (primary contact Mario Caccamo) is for consensus genome assembly, and cortex_var (primary contact Zamin Iqbal) is for variation and population assembly.
    
    
• MEGAHIT v0.1.4 – Large and Complex Metagenomics Assembly via Succinct de Bruijn graph
  • MEGAHIT is a single node assembler for large and complex metagenomics NGS reads, such as soil. It makes use of succinct de Bruijn graph to achieve low memory usage, whereas its goal is not to make memory usage as low as possible.
    
    
• CISA 20140304 – Contig Integrator for Sequence Assembly
  • CISA has been developed to integrate the assemblies into a hybrid set of contigs, resulting in assemblies of superior contiguity and accuracy, compared with the assemblies generated by the state-of-the-art assemblers and the hybrid assemblies merged by existing tools
    
    
• Cufflinks 2.2.1 – Transcript Assembler & Abundance Estimator for RNA-Seq
  • Cufflinks assembles transcripts, estimates their abundances, and tests for differential expression and regulation in RNA-Seq samples. It accepts aligned RNA-Seq reads and assembles the alignments into a parsimonious set of transcripts. Cufflinks then estimates the relative abundances of these transcripts based on how many reads support each one.
    
    
• mapsembler 2.2.4 – Targetted Assembly of Short Sequence Reads
  • Mapsembler is a targeted assembly software. It takes as input a set of NGS raw reads and a set of input sequences (starters). It first determines if each starter is read-coherent, e.g. whether reads confirm the presence of each starter in the original sequence. Then for each read-coherent starter, Mapsembler outputs its sequence neighborhood as a linear sequence or as a graph, depending on the user choice.
    
    
• Tedna 1.2.2 – Transposable Element De Novo Assembler
  • Tedna is a lightweight de novo transposable element assembler. It assembles the transposable elements directly from the raw reads.
    
    
• HyDA 1.3.1 / Squeezambler 2.0.3 – Hybrid De Novo Assembler
  • HyDA is a multipurpose assembler, particularly tested for single cell and normal multicell genome co-assembly
    
    
• PANDASEQ 2.8 / Pandaseq-sam 1.3 – PAired-eND Assembler for DNA sequences
  • PANDASEQ is a program to align Illumina reads, optionally with PCR primers embedded in the sequence, and reconstruct an overlapping sequence.
    
    
• ZORRO 2.2 – Hybrid Sequencing Technology Assembler
  • ZORRO is a hybrid sequencing technology assembler. It merges two sets of pre-assembled contigs into a more contiguous and consistent assembly.
    
    
• FLASH 1.2.11 – Fast Length Adjustment of SHort reads
  • FLASH (Fast Length Adjustment of SHort reads) is a very accurate fast tool to merge paired-end reads from fragments that are shorter than twice the length of reads. The extended length of reads has a significant positive impact on improvement of genome assemblies.
    
    
• ALLPATHS-LG 51750 – Whole Genome Shotgun Assembler
  • ALLPATHS-LG (Large Genome) is a whole genome shotgun assembler that can generate high quality assemblies from short reads. It works on both small and large (mammalian size) genomes. To use it, you should first generate ~100 base Illumina reads from two libraries: one from ~180 bp fragments, and one from ~3000 bp fragments, both at about 45x coverage. Sequence from longer fragments will enable longer-range continuity.
    
    
• More Tools at http://bioinformaticsonline.com/pages/view/30440/genome-assembly-tools-and-software-part2