[ccp4bb] Hi

2014-07-20 Thread vijay srivastava
Dear All,

Is there is any program to convert euler angles into theta, phi and kappa?

regards

 
Vijay

[ccp4bb] How to ascertain the different ligand species in average electron density

2014-07-20 Thread shivendra singh
Dear All,
I am trying to solve a 2.6 A protein complex data and found the density for
ligand but due to resolution constrains, it is not so sharp but clearly
suggesting the fitting of ligand. The ligand is not so potent and tight
binding inhibitor of enzyme and mimics the substrate and may exist in
covalently linked acylated (single ring), hydrolyzed (single ring) and
non-covalent (double ring) forms. Although deacylation rate of inhibitor is
very slow in comparison to substrate therefore enzyme-inhibitor complex is
expected to be in covalently linked state but the presence of  other tow
species in small proportion is also inevitable. The density is continuos
through catalytic Ser residue to the carbonyl carbon atom of ligand which
was expected to participate in covalent bond formation with enzyme.
Although while fitting the ligand, it is always moving beyond the C-O
covalent bond distance and forcing it by fixing atom resulted in distorted
ligand geometry after refinement. The density around the side chain of
serine is bit wide but the placement of its side chain closer to the
carbonyl carbon of ligand was reverted back after refinement.  The
placement and fitting of other two (hydrolized and non-covalent) species
seem to be optimum and no negative density was observed after refinement.
These ligand species varies slightly in atomic composition due to addition
or deletion of few atoms by virtue of acylation and deacylation reaction
but the density at this resolution does not allow us to identify the exact
species. There are four mol/ASU and the orientation of some of the atoms of
ligand are different among them.
I am very much eager to get some insights for few of my quarries:

1- How can I ascertain the that which of the ligand species is actually
present in my structure?

2- If more than one species is present and observed density is the average
of them then how to find out the proportion of each of the ligand species?

3- As mentioned earlier that I was able to fit all the forms of ligand with
ocuupancy-1 in density without any negative density, why so?

4- How can we decide the occupancy factor for different species of same
ligand? Based on assumption or is there any way to decide this?

5- If finally I could model the ligand in any of the form than how can we
validate its correctness?

6- Is there any way to sharpen the density at lower sigma by excluding
noise.

Thank you.


Shiv


[ccp4bb] how to ascertain the different ligand species in average electron density

2014-07-20 Thread shivendra singh
Dear All,
I am solving a 2.6A protein complex data and found the density for ligand
but due to resolution constrains, it is not so sharp but clearly suggesting
the fitting of ligand. The ligand is not so potent and tight binding
inhibitor of enzyme and mimics the substrate and may exist in covalently
linked acylated (single ring), hydrolyzed (single ring) and non-covalent
(double ring) forms. Although deacylation rate of inhibitor is very slow in
comparison to substrate therefore enzyme-inhibitor complex is expected to
be in covalently linked state but the presence of  other tow species in
small proportion is also inevitable. The density is continuos through
catalytic Ser residue to the carbonyl carbon atom of ligand which was
expected to participate in covalent bond formation with enzyme. Although
while fitting the ligand, it is always moving beyond the C-O covalent bond
distance and forcing it by fixing atom resulted in distorted ligand
geometry after refinement. The density around the side chain of serine is
bit wide but the placement of its side chain closer to the carbonyl carbon
of ligand was reverted back after refinement.  The placement and fitting of
other two (hydrolized and non-covalent) species seem to be optimum and no
negative density was observed after refinement. These ligand species varies
slightly in atomic composition due to addition or deletion of few atoms by
virtue of acylation and deacylation reaction but the density at this
resolution does not allow us to identify the exact species. There are four
mol/ASU and the orientation of some of the atoms of ligand are different
among them.
I am very much eager to get some insights for few of my quarries:

1- How can I ascertain the that which of the ligand species is actually
present in my structure?

2- If more than one species is present and observed density is the average
of them then how to find out the proportion of each of the ligand species?

3- As mentioned earlier that I was able to fit all the forms of ligand with
ocuupancy-1 in density without any negative density, why so?

4- How can we decide the occupancy factor for different species of same
ligand? Based on assumption or is there any way to decide this?

5- If finally I could model the ligand in any of the form than how can we
validate its correctness?

6- Is there any way to sharpen the density at lower sigma by excluding
noise.

Thank you.


Shiv