Sandbox UVM

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2fir, resolution 2.00Å ()

Ligands:

, , , , , , ,

Non-Standard Residues:

Gene:

F7 (Homo sapiens), F3 (Homo sapiens)

Activity:

Coagulation factor VIIa, with EC number 3.4.21.21

Related:

1dan, 2a2q, 2aer, 2b8o

Structural annotation:
Resources:	CATH : 2Firh02, 2Firh01, 2Firt02, 2Firt01 InterPro : Ipr001314, Ipr018114, Ipr001254, Ipr000742, Ipr000294, Ipr000152, Ipr018097, Ipr017857, Ipr013032, Ipr012224, Ipr009003, Ipr001881, Ipr016354, Ipr015373, Ipr013783, Ipr003961, Ipr001187 Pfam : PF00089, PF00008, PF00594, PF09294, PF01108 SCOP : d2firh1, d2firl1, d2firl3, d2firl2, d2firt1, d2firt2

Evolutionary conservation:

Toggle Conservation Colors:

Rows = identical sequences:

Further Information:

Caveats,

Explanation,
Complete Results at ConSurfDB

Resources:

FirstGlance, OCA, RCSB, PDBsum

Coordinates:

save as pdb, mmCIF, xml

Factor VIIa (FVIIa) is a single chain trypsin-like serine protease (EC 3.4.21.21) of 406 residues. The FVII zymogen is a glycoprotein consisting of an amino-terminal (N-linked) γ-carboxyglutamic acid (Gla) domain followed by two epidermal growth factor-like (EGF) domains, a short linker peptide, and a carboxy terminal serine protease domain (Figure 1)1. The Gla domain is responsible for Ca++ binding leading to structural reorganization of FVIIa into a membrane binding protein2. The active form, FVIIa, is generated by a specific cleavage of a peptide bond between Arg-152 and Ile-153 at the end of the linker peptide by either factor Xa (FXa) or thrombin (IIa). This cleavage generates an N-terminal light chain of 152 residues linked to a heavy chain of 254 residues by a disulfide bridge^[1]^[2]. Following cleavage the newly formed N-terminal inserts itself into a cavity, or the activation pocket, forming a salt bridge with Asp343 (Asp194 in trypsin).Formation of this salt bridge allows for the maturation of FVIIa to its active form. FVIIa alone is not very efficient in the insertion of the peptide, however, upon binding to TF the process becomes very efficient. The insertion of the N-terminus, therefore, facilitates the formation of both the S1 recognition pocket and the oxyanion hole.

ReferencesReferences

↑ Haniu M, Denis P, Young Y, Mendiaz EA, Fuller J, Hui JO, Bennett BD, Kahn S, Ross S, Burgess T, Katta V, Rogers G, Vassar R, Citron M. Characterization of Alzheimer's beta -secretase protein BACE. A pepsin family member with unusual properties. J Biol Chem. 2000 Jul 14;275(28):21099-106. PMID:10887202 doi:10.1074/jbc.M002095200
↑ Fischer F, Molinari M, Bodendorf U, Paganetti P. The disulphide bonds in the catalytic domain of BACE are critical but not essential for amyloid precursor protein processing activity. J Neurochem. 2002 Mar;80(6):1079-88. PMID:11953458

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Jolanta Amblo

[1] Haniu M, Denis P, Young Y, Mendiaz EA, Fuller J, Hui JO, Bennett BD, Kahn S, Ross S, Burgess T, Katta V, Rogers G, Vassar R, Citron M. Characterization of Alzheimer's beta -secretase protein BACE. A pepsin family member with unusual properties. J Biol Chem. 2000 Jul 14;275(28):21099-106. PMID:10887202 doi:10.1074/jbc.M002095200

[2] Fischer F, Molinari M, Bodendorf U, Paganetti P. The disulphide bonds in the catalytic domain of BACE are critical but not essential for amyloid precursor protein processing activity. J Neurochem. 2002 Mar;80(6):1079-88. PMID:11953458

[1]

[2]