
Neuropilins (NRPs) are single-pass transmembrane receptors involved in several signaling pathways that regulate key physiological processes such as vascular morphogenesis and axon guidance. The MAM domain of NRP, which has previously been implicated in receptor multimerization, was the only portion of the ectopic domain of the NRPs for which the structure, until now, has been elusive. Using site-directed mutagenesis in the linker region preceding the MAM domain we generated a protein construct amenable to crystallization. Here we present the crystal structure of the MAM domain of human NRP1 at 2.24 Å resolution. The protein exhibits a jellyroll topology, with Ca2+ ions bound at the inter-strand space enhancing the thermostability of the domain. We show that the MAM domain of NRP1 is monomeric in solution and insufficient to drive receptor dimerization, which leads us to propose a different role for this domain in the context of NRP membrane assembly and signaling.
Models, Molecular, calcium binding, Crystallography, X-Ray, Protein Structure, Secondary, Short Article, Protein Domains, Structural Biology, Humans, Molecular Biology, X-ray crystallography, Binding Sites, Neuropilin-1, DNA-Binding Proteins, Mutagenesis, Site-Directed, neuropilin, Calcium, MAM domain, signaling, Dimerization, Protein Binding, Transcription Factors
Models, Molecular, calcium binding, Crystallography, X-Ray, Protein Structure, Secondary, Short Article, Protein Domains, Structural Biology, Humans, Molecular Biology, X-ray crystallography, Binding Sites, Neuropilin-1, DNA-Binding Proteins, Mutagenesis, Site-Directed, neuropilin, Calcium, MAM domain, signaling, Dimerization, Protein Binding, Transcription Factors
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