PDBsum entry 2vs2

Hydrolase/hydrolase inhibitor

PDB id

2vs2

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Contents

			Protein chain

					329 a.a. *

			Ligands

					0QS


					DOD ×220

* Residue conservation analysis

PDB id:

2vs2

Links
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Name:

Hydrolase/hydrolase inhibitor

Title:

Neutron diffraction structure of endothiapepsin in complex with a gem- diol inhibitor.

Structure:

Endothiapepsin. Chain: a. Synonym: aspartate protease. Other_details: succinamide is formed between chain a residues 54 and 55.Similar to PDB 1gkt.

Source:

Cryphonectria parasitica. Chestnut blight fungus. Organism_taxid: 5116. Other_details: endothia parasitica formula weight 33814.2

Authors:

L.Coates,H.-F.Tuan,S.Tomanicek,A.Kovalevsky,M.Mustyakimov,P.Erskine, J.Cooper

Key ref:

L.Coates et al. (2008). The catalytic mechanism of an aspartic proteinase explored with neutron and X-ray diffraction. J Am Chem Soc, 130, 7235-7237. PubMed id: 18479128

Date:

17-Apr-08

Release date:

27-May-08

PROCHECK

	Headers

	References

Protein chain

P11838 (CARP_CRYPA) - Endothiapepsin from Cryphonectria parasitica

Seq: Struc:					419 a.a. 329 a.a.*

Key:

PfamA domain

Secondary structure

CATH domain

* PDB and UniProt seqs differ at 1 residue position (black cross)



		Enzyme reactions

Enzyme class:

E.C.3.4.23.22 - endothiapepsin.

[IntEnz] [ExPASy] [KEGG] [BRENDA]

Reaction:

Hydrolysis of proteins with broad specificity similar to that of pepsin A, preferring hydrophobic residues at P1 and P1', but does not cleave 14-Ala-|-Leu-15 in the B chain of insulin or Z-Glu-Tyr. Clots milk.

	J Am Chem Soc 130:7235-7237 (2008)
PubMed id: 18479128

The catalytic mechanism of an aspartic proteinase explored with neutron and X-ray diffraction.
L.Coates, H.F.Tuan, S.Tomanicek, A.Kovalevsky, M.Mustyakimov, P.Erskine, J.Cooper.

ABSTRACT

Hydrogen atoms play key roles in enzyme mechanism, but as this study shows, even high-quality X-ray data to a resolution of 1 A cannot directly visualize them. Neutron diffraction, however, can locate deuterium atoms even at resolutions around 2 A. Both neutron and X-ray diffraction data have been used to investigate the transition state of the aspartic proteinase endothiapepsin. The different techniques reveal a different part of the story, revealing the clearest picture yet of the catalytic mechanism by which the enzyme operates. Room temperature neutron and X-ray diffraction data were used in a newly developed joint refinement software package to visualize deuterium atoms within the active site of the enzyme when a gem-diol transition state analogue inhibitor is bound at the active site. These data were also used to estimate their individual occupancy, while analysis of the differences between the bond lengths of the catalytic aspartates was performed using atomic resolution X-ray data. The two methods are in agreement on the protonation state of the active site with a transition state analogue inhibitor bound confirming the catalytic mechanism at which the enzyme operates.

Literature references that cite this PDB file's key reference

PubMed id

Reference

20169386

L.Rojo, A.Muhlia-Almazan, R.Saborowski, and F.García-Carreño (2010).
Aspartic cathepsin D endopeptidase contributes to extracellular digestion in clawed lobsters Homarus americanus and Homarus gammarus.

Mar Biotechnol (NY), 12, 696-707.

20383004

M.M.Blum, S.J.Tomanicek, H.John, B.L.Hanson, H.Rüterjans, B.P.Schoenborn, P.Langan, and J.C.Chen (2010).
X-ray structure of perdeuterated diisopropyl fluorophosphatase (DFPase): perdeuteration of proteins for neutron diffraction.

Acta Crystallogr Sect F Struct Biol Cryst Commun, 66, 379-385.

PDB code:

3kgg

19237752

A.H.Robbins, B.M.Dunn, M.Agbandje-McKenna, and R.McKenna (2009).
Crystallographic evidence for noncoplanar catalytic aspartic acids in plasmepsin II resides in the Protein Data Bank.

Acta Crystallogr D Biol Crystallogr, 65, 294-296.

PDB code:

3f9q

19763297

C.Fäh, L.A.Hardegger, L.Baitsch, W.B.Schweizer, S.Meyer, D.Bur, and F.Diederich (2009).
New organofluorine building blocks: inhibition of the malarial aspartic proteases plasmepsin II and IV by alicyclic alpha,alpha-difluoroketone hydrates.

Org Biomol Chem, 7, 3947-3957.

19382204

C.S.Rapp, C.Schonbrun, M.P.Jacobson, C.Kalyanaraman, and N.Huang (2009).
Automated site preparation in physics-based rescoring of receptor ligand complexes.

Proteins, 77, 52-61.

19273847

M.Adachi, T.Ohhara, K.Kurihara, T.Tamada, E.Honjo, N.Okazaki, S.Arai, Y.Shoyama, K.Kimura, H.Matsumura, S.Sugiyama, H.Adachi, K.Takano, Y.Mori, K.Hidaka, T.Kimura, Y.Hayashi, Y.Kiso, and R.Kuroki (2009).
Structure of HIV-1 protease in complex with potent inhibitor KNI-272 determined by high-resolution X-ray and neutron crystallography.

Proc Natl Acad Sci U S A, 106, 4641-4646.

PDB codes:

2zye 3fx5

19407386

S.Z.Fisher, A.Y.Kovalevsky, J.F.Domsic, M.Mustyakimov, D.N.Silverman, R.McKenna, and P.Langan (2009).
Preliminary joint neutron and X-ray crystallographic study of human carbonic anhydrase II.

Acta Crystallogr Sect F Struct Biol Cryst Commun, 65, 495-498.

18656544

M.P.Blakeley, P.Langan, N.Niimura, and A.Podjarny (2008).
Neutron crystallography: opportunities, challenges, and limitations.

Curr Opin Struct Biol, 18, 593-600.

The most recent references are shown first. Citation data come partly from CiteXplore and partly from an automated harvesting procedure. Note that this is likely to be only a partial list as not all journals are covered by either method. However, we are continually building up the citation data so more and more references will be included with time. Where a reference describes a PDB structure, the PDB code is shown on the right.