Ortholog conservation:

The wild-type residue D565 is conserved at 100% among the CFTR orthologs

*AAPI: Alignment Average Percentage Identity
**AAPIR: Alignment Average Percentage Identity of the Region (20 residues surrounding position 565). AAPIR appears in green if it is more than 10% compared to AAPI, in red if less than 10%.
Click here for more details on the alignment.

CYSMA's visualizing modules for Ortholog conservation:

⬇ Download the region alignment (50 residues, Fasta format)
⬇ Download the CFTR phylogenic tree

Display methods

Domain conservation:

The residue p.Asp565 belongs to the domain NBD1.

423

649

NBD1: is the nucleotide binding domain 1, also called the ATP-binding cassette (ABC). It contains the Walker A (P-loop) and Walker B motifs, the C-motif (also known as the signature sequence), the A-, D-, Q-, and H-loops.

	is the nucleotide binding domain 1, also called the ATP-binding cassette (ABC). It contains the Walker A (P-loop) and Walker B motifs, the C-motif (also known as the signature sequence), the A-, D-, Q-, and H-loops.

NBD1 of CF Transmembrane conductance Regulator domain alignment including p.Asp565 residue.

***AAPID: Alignment Average Percentage Identity of the Domain (positions are indicated).
^!AAPIR: Alignment Average Percentage Identity of the Region (20 residues surrounding position 565). AAPIR appears in green if it is more than 10% compared to AAPID, in red if less than 10%.

The wild-type residue D565 belongs to the NBD1 domain and is conserved at 17.48% among the NBD1 homologs (696 / 3982 NBD1 homologs)
The variant D565E has been found among the NBD1 homologs with a high frequency: 16.32% (650 / 3982 NBD1 homologs)

Divergencies show the amino acids which have been selected in the evolution. Residues present in more than 10% of the sequences are highlighted in blue.
Please note that CYSMA does not consider splicing alterations.
Refer to the Help page for more details.

CYSMA's visualizing modules for NBD1 domain conservation:

Display methods

Secondary structure analysis:

Residue p.Asp565 is predicted to belong to a loop. Probability is 0.863.

Direct environment is as follow:

A	V	Y	K	D565	A	D	L	Y

Display methods

3D analysis:

Models provided and analysed by CYSMA must be considered as predictions, therefore be careful when interpreting the results. All efforts have been made to build structures of quality, however, they are provided with NO WARRANTY as to their accuracy with the real biological molecules studied.

Wild type and predicted mutant structures have been compared. You will find the results below.

• Overall quality of the structure:
  
  

  PDB template	Sequence identity*	MolProbity bad rotamers	MolProbity Ramachandran outliers	MolProbity Ramachandran favored
  5UAK	99.8 %	18/1313 - 1.37 %	17/1478 - 1.15 %	1360/1478 - 92.2 %

  
  
  

• Click on the MolProbity logo for complete details on the structure quality
  
  
  
  

• This model is made of 37 α helices and of 20 β strands (and is mainly composed of helices (739 residues in helices against 102 in strands, for a total of 1480 amino acids)).
  
  
• 3D structures predicts D565 to be located in a loop (which confirms PsiPred prediction) and E565 in a loop.
  
  
  



CYSMA's modules to download the 3D structures:



Chech 3D coverage of CFTR models ⬇ Download the wild-type 3D structure (PDB format) ⬇ Download the mutant 3D model (PDB format)





CYSMA's 3D Automatic Annotation:





WARNING!
The experimental 3D structure used for our predictions is the complete human CFTR structure which have been solved at a 3.7 Å resolution using cryo-electron microscopy (PDB: 5UAK; Liu et al. 2017).
The overall resolution is fairly low so the CYSMA's 3D Automatic Annotation pipeline might have missed some important structural effects.




• Solvent accessibility: the wild-type D565 and the mutant D565E are predicted to be exposed
  
  
• Hydrogen bond network:
  

  D565	E565
  none	distance: 3.37 Å / angle: 2.24 rad between GLU 565 OE2 and ARG 516 NH1

  
  
  
• The mutant residue is not predicted to introduce steric clashes
  

  D565	E565
  none	none

  
  
  

CYSMA's 3D visualizing module:



• If you want to investigate further the structures, you can use the JSmol applets of the wild-type (left) and mutant (right) structures.
  
  Click on the JSmol applets' link to hide it.
  You have a full access to Jmol commands with a simple right click on one applet.
  
  
  
  
  

  D565 (wild-type)	E565 (mutant)

  
                Slab       Spin on/off       Show measurements       Change background       Sharper/Faster                    

  
  JSmol Legends:
  The residue at the position 565 is located in the center, labelled in yellow and surrounded by its neighboring residues (distance < 5 Å).
  Van der Waals contacts with the residue 565 are represented by dotted lines.
  Amino acids involved in H-bonds with the residue 565 are labelled in blue.
  Amino acids involved in steric clashes with the residue 565 are labelled in red.

  
  Display JSmol complete legends

  The overall structure of the complete human CFTR is represented in ribbon diagrams (click on the Reset button to visualize the overall CFTR structure).
  The membrane-spanning domain MSD1 is represented in blue and MSD2 in light blue.The nucleotide-binding domain NBD1 is represented in orange, NBD2 in light salmon.The lasso domain is shown in red and the R domain in green.

  Display Molecular Modelling methods

  The 3D structures used in CYSMA are models based on the CFTR experimental 3D structure in the channel-closed conformation (PDB: 5UAK; resolution: 3.9 Å).
  In the wild-type model, the (missing) loops and the (missing) R domain were built de novo using the software Modeller. For the variant models, the point mutation (homology modelling) are made on the fly with Modeller (more). Each structure has been assessed with MolProbity⁽¹⁹⁾. Msms⁽²⁰⁾ is used to calculate solvent accessibility, and STRIDE⁽²¹⁾ (plus stride2pdb) for secondary structure assignment.
  Secondary structure analyses in 3D models uses side chain interaction energies reviewed in ⁽²³⁾, as well as amino-acids propensities for N-caps, N1-N3, helix middle, C3-C1 and C-caps extracted from ⁽²⁴⁾(PDB values).
  Structural properties are calculated using an in-house developped program based for the USMA's 3D Automatic Annotation pipeline.

  Refer to the Help page for more details.

• SIFT prediction: variant D565E is predicted to be damaging (score: 0)


• PPH2 prediction: variant D565E is predicted to be damaging (score: 0.982)


• UNIPROT annotations
  

  The variation is not reported in Uniprot.

• Click on the LOVD picture to check if a variant is described at position 565    
  
  
  
  



• Graphical display of the region at NCBI (including SNPs)



• CYSMA Report:

  
  

  Report for p.Asp565Glu variant

  CFTR orthologs conservation	The wild-type residue D565 is conserved at 100% among the CFTR orthologs
  NBD1 homologs conservation	The wild-type residue D565 belongs to the NBD1 domain and is conserved at 17.48% among the NBD1 homologs (696 / 3982 NBD1 homologs) The variant D565E has been found among the NBD1 homologs with a high frequency: 16.32% (650 / 3982 NBD1 homologs)
  Structural effects	Solvent accessibility: the wild-type D565 and the mutant D565E are predicted to be exposed The mutant residue is not predicted to introduce steric clashes
  Allele frequency	The variant has not been reported in gnomAD
  Clinical significance	The variant D565E has not been reported in ClinVar
  CFTR-France	The variant D565E has not been described in CFTR-France
  Additional resources	SIFT prediction: variant D565E is predicted to be damaging (score: 0) PPH2 prediction: variant D565E is predicted to be damaging (score: 0.982)