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Contents 1 Hepatocyte Growth Factor Receptor c-Met 2 Introduction 3 Structure 4 Mutation

Hepatocyte Growth Factor Receptor c-Met

spinqualitylabelsall models PDB ID 1r0p Show:Asymmetric Unit Biological Assembly Drag the structure with the mouse to rotate   Export Animated Image
1r0p, resolution 1.80Å ()
Ligands:
Gene:	MET (Homo sapiens)
Activity:	Transferase, with EC number and 2.7.10.2 2.7.10.1 and 2.7.10.2
Structural annotation: Resources: CATH : 1R0Pa01, 1R0Pa02 InterPro : Ipr001245, Ipr002165, Ipr001627, Ipr000719, Ipr014756, Ipr008266, Ipr011009, Ipr002909, Ipr003659 Pfam : PF07714 SCOP : d1r0pa_ UniProt : P08581
Functional annotation: Cellular component: membrane fraction integral to plasma membrane membrane integral to membrane basal plasma membrane Biological process: myoblast proliferation muscle development hepatocyte growth factor receptor signaling pathway cell proliferation protein amino acid phosphorylation signal transduction activation of MAPK activity adult behavior brain development multicellular organismal development protein amino acid autophosphorylation cell surface receptor linked signal transduction Molecular function: hepatocyte growth factor receptor activity receptor activity nucleotide binding protein-tyrosine kinase activity kinase activity protein kinase activity protein binding transferase activity ATP binding
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

Introduction

The Hepatocyte growth factor Receptor plays a large role in embryonic development, as its activation leads to events such as cell growth, motility and invasion. This receptor is a Tyrosine Kinase, and is one of the most well studied RTKs, as mutations in the c-met protooncogene can lead to tumorigenesis. The ligand for this receptor is Hepatocyte growth factor/scatter factor (HGF/SF), and upon binding of this ligand, the receptor becomes auto phosphorylated, causing downstream signaling events such as cell growth. ^[1]

Structure

Some of the most important aspects of this RTK are the tyrosines at position 1234 and 1235. These are located within the activation loop (A loop), and upon ligand binding, will become phosphorylated. Studies with mice have shown that these tyrosines are necessary for normal c-met signaling. When these two tyrosines were substituted with with phenylalenine, the mice had an embryonically lethal phenotype and defects were found in placenta, liver, muscles and nerves. ^[2] In a wild type c-met, these sites will become phosphorylated and act as docking sites for many different transducers and activators. ^[3]

</StructureSection>

spinqualitylabelsall models PDB ID 1r1w Show:Asymmetric Unit Biological Assembly Drag the structure with the mouse to rotate   Export Animated Image
1r1w, resolution 1.80Å ()
Gene:	MET (Homo sapiens)
Activity:	Transferase, with EC number and 2.7.10.2 2.7.10.1 and 2.7.10.2
Related:	1r0p
Structural annotation: Resources: CATH : 1R1Wa02, 1R1Wa01 InterPro : Ipr003659, Ipr014756, Ipr002909, Ipr000719, Ipr008266, Ipr002165, Ipr001627, Ipr001245, Ipr011009 Pfam : PF07714 SCOP : d1r1wa_ UniProt : P08581
Functional annotation: Cellular component: membrane fraction integral to membrane membrane integral to plasma membrane basal plasma membrane Biological process: multicellular organismal development cell surface receptor linked signal transduction protein amino acid autophosphorylation cell proliferation brain development adult behavior activation of MAPK activity signal transduction protein amino acid phosphorylation hepatocyte growth factor receptor signaling pathway myoblast proliferation muscle development Molecular function: transferase activity receptor activity nucleotide binding hepatocyte growth factor receptor activity protein-tyrosine kinase activity kinase activity protein binding protein kinase activity ATP binding
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

Mutation

This particular strcuture of the hepatocyte growth factor tyrosine kinase domain is one harboring a human cancer mutation. The two tyr1234 and tyr1235 are replaced by a phenylalanine and aspartate, respectively. This mutation normally causes the receptor to be consitutively active. Although there is no longer phosphorylation at these sites, it is believed that the aspartate negative charge resembles the negative phosphate that would normally cause activation, and therefore keeps the protein in its active form. ^[4]