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IMP Reference Guide  2.6.1
The Integrative Modeling Platform
IMP::saxs Namespace Reference

Support for small angle X-ray scattering (SAXS) data. More...

Detailed Description

Support for small angle X-ray scattering (SAXS) data.

Small angle X-ray scattering (SAXS) is an experimental technique that uses scattering of X-rays at low angles to determine structural information about proteins in solution. This has the advantage that a crystal is not required; however, the information is rotationally averaged.

This module provides a number of classes to handle SAXS profiles. For example, Restraint includes the fit to a SAXS profile as an IMP restraint.

See also IMP::foxs for a command line tool to generate a SAXS profile for a protein and fit it against an experimental profile, or IMP::saxs_merge for a tool to combine multiple experimental profiles.

We provide a number of command line tools to handle SAXS profiles:

cluster_profiles

Cluster SAXS profiles.

compute_chi

Calculate chi value for SAXS profiles.

compute_vr

Calculate volatility ratio for SAXS profiles.

rg

Compute radius of gyration from SAXS profiles.

validate_profile

Validate SAXS profiles.

weight_profiles

Weighting of the profiles.

Info

Author(s): Dina Schneidman, Seung Joong Kim, Yannick Spill

Maintainer: duhovka

License: LGPL This library is free software; you can redistribute it and/or modify it under the terms of the GNU Lesser General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version.

Publications:

Classes

class  ChiFreeScore
 
class  ChiScore
 
class  ChiScoreLog
 
class  DeltaDistributionFunction
 
class  DerivativeCalculator
 
class  Distribution
 
class  FitParameters
 Parameters of a fit, from ProfileFitter. More...
 
class  FormFactorTable
 
class  Profile
 
class  ProfileClustering
 
class  ProfileFitter
 Fit two profiles with user-defined scoring function as a template parameter. More...
 
class  RadialDistributionFunction
 
class  RadiusOfGyrationRestraint
 Calculate score based on radius of gyration, taken from saxs profile. More...
 
class  RatioVolatilityScore
 
class  Restraint
 Calculate score based on fit to SAXS profile. More...
 
class  RigidBodiesProfileHandler
 Handle the profile for a set of particles, which may include rigid bodies. More...
 
class  SolventAccessibleSurface
 
class  WeightedFitParameters
 Parameters of a weighted fit, from WeightedProfileFitter. More...
 
class  WeightedProfileFitter
 Fitting of multiple profiles to the experimental one. More...
 

Typedefs

typedef IMP::Vector
< IMP::Pointer< Profile > > 
Profiles
 
typedef IMP::Vector
< IMP::WeakPointer< Profile > > 
ProfilesTemp
 

Enumerations

enum  FormFactorType { ALL_ATOMS, HEAVY_ATOMS, CA_ATOMS }
 type of the form factors for profile calculations More...
 

Functions

double compute_max_distance (const Particles &particles)
 compute max distance More...
 
double compute_max_distance (const Particles &particles1, const Particles &particles2)
 
Profilecompute_profile (Particles particles, double min_q=0.0, double max_q=0.5, double delta_q=0.001, FormFactorTable *ft=get_default_form_factor_table(), FormFactorType ff_type=HEAVY_ATOMS, bool hydration_layer=true, bool fit=true, bool reciprocal=false, bool ab_initio=false, bool vacuum=false, std::string beam_profile_file="")
 profile calculation for particles and a given set of options More...
 
void get_coordinates (const Particles &particles, std::vector< algebra::Vector3D > &coordinates)
 
FormFactorTableget_default_form_factor_table ()
 
void get_form_factors (const Particles &particles, FormFactorTable *ff_table, Vector< double > &form_factors, FormFactorType ff_type)
 
IMP_Eigen::VectorXf NNLS (const IMP_Eigen::MatrixXf &A, const IMP_Eigen::VectorXf &b)
 non-negative least square fitting for profile weight solving problem More...
 
double radius_of_gyration (const Particles &particles)
 compute radius_of_gyration More...
 
void read_files (const std::vector< std::string > &files, std::vector< std::string > &pdb_file_names, std::vector< std::string > &dat_files, std::vector< IMP::Particles > &particles_vec, Profiles &exp_profiles, bool residue_level=false, bool heavy_atoms_only=true, int multi_model_pdb=2, float max_q=0.0)
 parse PDB and profile files More...
 
void read_pdb (const std::string file, std::vector< std::string > &pdb_file_names, std::vector< IMP::Particles > &particles_vec, bool residue_level=false, bool heavy_atoms_only=true, int multi_model_pdb=2)
 read pdb files More...
 
std::string trim_extension (const std::string file_name)
 

Standard module functions

All IMP modules have a set of standard functions to help get information about the module and about files associated with the module.

std::string get_module_version ()
 
std::string get_module_name ()
 
std::string get_data_path (std::string file_name)
 Return the full path to one of this module's data files. More...
 
std::string get_example_path (std::string file_name)
 Return the full path to one of this module's example files. More...
 

Typedef Documentation

Store a set of objects.

Definition at line 295 of file Profile.h.

Pass a set of objects.

See Also
Profile

Definition at line 295 of file Profile.h.

Enumeration Type Documentation

type of the form factors for profile calculations

Definition at line 32 of file FormFactorTable.h.

Function Documentation

double IMP::saxs::compute_max_distance ( const Particles &  particles)

compute max distance

Definition at line 40 of file saxs/utility.h.

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double IMP::saxs::compute_max_distance ( const Particles &  particles1,
const Particles &  particles2 
)

compute max distance between pairs of particles one from particles1 and the other from particles2

Definition at line 56 of file saxs/utility.h.

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Profile* IMP::saxs::compute_profile ( Particles  particles,
double  min_q = 0.0,
double  max_q = 0.5,
double  delta_q = 0.001,
FormFactorTable *  ft = get_default_form_factor_table(),
FormFactorType  ff_type = HEAVY_ATOMS,
bool  hydration_layer = true,
bool  fit = true,
bool  reciprocal = false,
bool  ab_initio = false,
bool  vacuum = false,
std::string  beam_profile_file = "" 
)

profile calculation for particles and a given set of options

std::string IMP::saxs::get_data_path ( std::string  file_name)

Return the full path to one of this module's data files.

To read the data file "data_library" that was placed in the data directory of this module, do something like

std::ifstream in(IMP::saxs::get_data_path("data_library"));

This will ensure that the code works both when IMP is installed or if used via the setup_environment.sh script.

Note
Each module has its own data directory, so be sure to use this function from the correct module.
FormFactorTable* IMP::saxs::get_default_form_factor_table ( )

Get the default table.

std::string IMP::saxs::get_example_path ( std::string  file_name)

Return the full path to one of this module's example files.

To read the example file "example_protein.pdb" that was placed in the examples directory of this module, do something like

std::ifstream in(IMP::saxs::get_example_path("example_protein.pdb"));

This will ensure that the code works both when IMP is installed or if used via the setup_environment.sh script.

Note
Each module has its own example directory, so be sure to use this function from the correct module.
IMP_Eigen::VectorXf IMP::saxs::NNLS ( const IMP_Eigen::MatrixXf &  A,
const IMP_Eigen::VectorXf &  b 
)

non-negative least square fitting for profile weight solving problem

Definition at line 21 of file nnls.h.

double IMP::saxs::radius_of_gyration ( const Particles &  particles)

compute radius_of_gyration

Definition at line 74 of file saxs/utility.h.

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void IMP::saxs::read_files ( const std::vector< std::string > &  files,
std::vector< std::string > &  pdb_file_names,
std::vector< std::string > &  dat_files,
std::vector< IMP::Particles > &  particles_vec,
Profiles &  exp_profiles,
bool  residue_level = false,
bool  heavy_atoms_only = true,
int  multi_model_pdb = 2,
float  max_q = 0.0 
)

parse PDB and profile files

void IMP::saxs::read_pdb ( const std::string  file,
std::vector< std::string > &  pdb_file_names,
std::vector< IMP::Particles > &  particles_vec,
bool  residue_level = false,
bool  heavy_atoms_only = true,
int  multi_model_pdb = 2 
)

read pdb files