list of protein structure prediction software

Image:Protein-structure.png

This list of protein structure prediction software summarizes notable used software tools in protein structure prediction, including homology modeling, protein threading, ab initio methods, secondary structure prediction, and transmembrane helix and signal peptide prediction.

Software list

Below is a list which separates programs according to the method used for structure prediction.

=Homology modeling=

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Name ! Method \|\| Description \|\| Release date
IntFOLD \|A unified interface for: Tertiary structure prediction/3D modelling, 3D model quality assessment, Intrinsic disorder prediction, Domain prediction, Prediction of protein-ligand binding residues \|Automated webserver and some downloadable programs
RaptorX \|remote homology detection, protein 3D modeling, binding site prediction	Automated webserver and Downloadable program
Biskit \| wraps external programs into automated workflow	BLAST search, T-Coffee alignment, and MODELLER construction
ESyPred3D \| Template detection, alignment, 3D modeling	Automated webserver
FoldX \| Energy calculations and protein design	Downloadable program
Phyre, Phyre2 \| Remote template detection, alignment, 3D modeling, multi-templates, ab initio	Webserver with job manager, automatically updated fold library, genome searching and other facilities
HHpred \| Template detection, alignment, 3D modeling	Interactive webserver with help facility
MODELLER \| Satisfaction of spatial restraints	Standalone program mainly in Fortran and Python
CONFOLD \| Satisfaction of contact and distance restraints	Standalone program mainly in Fortran and Perl
Molecular Operating Environment (MOE) \| Template identification, use of multiple templates and accounting for other environments (e.g. excluded ligand volumes), loop modelling, rotamer libraries for sidechain conformations, relaxation using MM forcefields.	Proprietary platform, supported on Windows, Linux and Mac
Robetta \| Rosetta homology modeling and ab initio fragment assembly with Ginzu domain prediction	Webserver
BHAGEERATH-H \| Combination of ab initio folding and homology methods	Protein tertiary structure predictions
Swiss-model \| Local similarity/fragment assembly	Automated webserver (based on ProModII)
Yasara \| Detection of templates, alignment, modeling incl. ligands and oligomers, hybridization of model fragments	Graphical interface or text mode (clusters)
AWSEM-Suite \| Molecular dynamics simulation based on template-guided, coevolutionary-enhanced optimized folding landscapes	Automated webserver

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Name

! Method || Description || Release date

IntFOLD

|A unified interface for: Tertiary structure prediction/3D modelling, 3D model quality assessment, Intrinsic disorder prediction, Domain prediction, Prediction of protein-ligand binding residues

|Automated webserver and some downloadable programs

RaptorX

|remote homology detection, protein 3D modeling, binding site prediction

Automated webserver and Downloadable program

Biskit

| wraps external programs into automated workflow

BLAST search, T-Coffee alignment, and MODELLER construction

ESyPred3D

| Template detection, alignment, 3D modeling

Automated webserver

FoldX

| Energy calculations and protein design

Downloadable program

Phyre, Phyre2

| Remote template detection, alignment, 3D modeling, multi-templates, ab initio

Webserver with job manager, automatically updated fold library, genome searching and other facilities

HHpred

| Template detection, alignment, 3D modeling

Interactive webserver with help facility

MODELLER

| Satisfaction of spatial restraints

Standalone program mainly in Fortran and Python

CONFOLD

| Satisfaction of contact and distance restraints

Standalone program mainly in Fortran and Perl

Molecular Operating Environment (MOE)

| Template identification, use of multiple templates and accounting for other environments (e.g. excluded ligand volumes), loop modelling, rotamer libraries for sidechain conformations, relaxation using MM forcefields.

Proprietary platform, supported on Windows, Linux and Mac

Robetta

| Rosetta homology modeling and ab initio fragment assembly with Ginzu domain prediction

Webserver

BHAGEERATH-H

| Combination of ab initio folding and homology methods

Protein tertiary structure predictions

Swiss-model

| Local similarity/fragment assembly

Automated webserver (based on ProModII)

Yasara

| Detection of templates, alignment, modeling incl. ligands and oligomers, hybridization of model fragments

Graphical interface or text mode (clusters)

AWSEM-Suite

| Molecular dynamics simulation based on template-guided, coevolutionary-enhanced optimized folding landscapes

Automated webserver

=Threading and fold recognition=

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Name ! Method \|\| Description \|\| Release date
IntFOLD \| A unified interface for: Tertiary structure prediction/3D modelling, 3D model quality assessment, Intrinsic disorder prediction, Domain prediction, Prediction of protein-ligand binding residues \| Automated webserver and some downloadable programs
RaptorX \| Remote template detection, single-template and multi-template threading, totally different from and much better than the old program RAPTOR designed by the same group	Webserver with job manager, automatically updated fold library
HHpred \| Template detection, alignment, 3D modeling	Interactive webserver with help facility
Phyre, Phyre2 \| Remote template detection, alignment, 3D modeling, multi-templates, ab initio	Webserver with job manager, automatically updated fold library, genome searching and other facilities
I-TASSER \| Threading fragment structure reassembly \|On-line server for protein modeling https://zhanggroup.org/I-TASSER/

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Name

! Method || Description || Release date

IntFOLD

| A unified interface for: Tertiary structure prediction/3D modelling, 3D model quality assessment, Intrinsic disorder prediction, Domain prediction, Prediction of protein-ligand binding residues

| Automated webserver and some downloadable programs

RaptorX

| Remote template detection, single-template and multi-template threading, totally different from and much better than the old program RAPTOR designed by the same group

Webserver with job manager, automatically updated fold library

HHpred

| Template detection, alignment, 3D modeling

Interactive webserver with help facility

Phyre, Phyre2

| Remote template detection, alignment, 3D modeling, multi-templates, ab initio

Webserver with job manager, automatically updated fold library, genome searching and other facilities

I-TASSER

| Threading fragment structure reassembly

|On-line server for protein modeling https://zhanggroup.org/I-TASSER/

=''Ab initio'' structure prediction=

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Name ! Method \|\| Description \|\| Release date
trRosetta \| trRosetta is an algorithm for fast and accurate protein structure prediction. It supports single-sequence structure prediction with trRosettaX-Single.	Webserver and source codes available at: https://yanglab.qd.sdu.edu.cn/trRosetta/
ROBETTA \| Rosetta homology modeling and ab initio fragment assembly with Ginzu domain prediction	Webserver
Rosetta@home \| Distributed-computing implementation of Rosetta algorithm	Downloadable program
Abalone \| Molecular Dynamics folding	Program
C-QUARK \|C-QUARK is a method for ab initio protein structure prediction. Based on deep-learning based contact-map predictions into the fragment assembly simulations. \|Webserver https://zhanggroup.org/C-QUARK/
AlphaFold2 \|An end-to-end deep learning framework for protein structure prediction \|Webserver and downloadable program
D-I-TASSER \|The deep learning-based I-TASSER program reportedly outperforms both AlphaFold2 and AlphaFold3 \|Webserver https://zhanggroup.org/D-I-TASSER/

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Name

! Method || Description || Release date

trRosetta

| trRosetta is an algorithm for fast and accurate protein structure prediction. It supports single-sequence structure prediction with trRosettaX-Single.

Webserver and source codes available at: https://yanglab.qd.sdu.edu.cn/trRosetta/

ROBETTA

| Rosetta homology modeling and ab initio fragment assembly with Ginzu domain prediction

Webserver

Rosetta@home

| Distributed-computing implementation of Rosetta algorithm

Downloadable program

Abalone

| Molecular Dynamics folding

Program

C-QUARK

|C-QUARK is a method for ab initio protein structure prediction. Based on deep-learning based contact-map predictions into the fragment assembly simulations.

|Webserver https://zhanggroup.org/C-QUARK/

AlphaFold2

|An end-to-end deep learning framework for protein structure prediction

|Webserver and downloadable program

D-I-TASSER

|The deep learning-based I-TASSER program reportedly outperforms both AlphaFold2 and AlphaFold3

|Webserver https://zhanggroup.org/D-I-TASSER/