Structural insights into the contactin 1 – neurofascin 155 adhesion complex

Chataigner L, Gogou C, den Boer M, Frias C, Thies-Weesie D, Granneman J, Heck A, Meijer D, Janssen B, Nature Communications 13(1) (2022) DOI

SASDLA6 – High mannose neurofascin 155 immunoglobulin domains 1-6, 5.1 μM

Neurofascin

MW^I(0)	112	kDa
MW^expected	139	kDa
V^Porod	207	nm³

log I(s) 3.03×10^-2 3.03×10^-3 3.03×10^-4 3.03×10^-5

s, nm^-1

Log plot Log-Log plot

ln I(s)

ln 3.03×10^-2 R_g: 4.2 nm 0 (4.2 nm)^-2 s²

(sR_g)²I(s)/I(0)

1.104 0 √3 sR_g

D_max: 17 nm

Data validation

There are no models related to this curve.

Synchrotron SAXS data from solutions of High mannose neurofascin 155 immunoglobulin domains 1-6, 5.1 μM in 25 mM HEPES, 150 mM NaCl, pH 7.5 were collected on the B21 beam line at the Diamond Light Source storage ring (Didcot, UK) using a Eiger 4M detector (I(s) vs s, where s = 4πsinθ/λ, and 2θ is the scattering angle). One solute concentration of 0.36 mg/ml was measured. The data were normalized to the intensity of the transmitted beam and radially averaged; the scattering of the solvent-blank was subtracted.

High mannose neurofascin 155 immunoglobulin domains 1-6 5.1 μM. Experimental molecular weight=Sequence Expected MW + MW for 4 N glycosylation sites confirmed crystallographically. X-ray wavelength: UNKNOWN. X-ray exposure time: UNKNOWN. Experimental temperature: UNKNOWN.

Neurofascin
Mol. type		Protein
Organism		Mus musculus
Olig. state		Dimer
Mon. MW		69.5 kDa

UniProt		E9PW06 (25-621)
Sequence		FASTA