Visualizing disordered single-stranded RNA: connecting sequence, structure and electrostatics.

Plumridge A, Andresen K, Pollack L, J Am Chem Soc (2019) Europe PMC

SASDFR9 – Poly-uridine rU30 in 5 mM MgCl2

Poly-uridine
MWexperimental 13 kDa
MWexpected 9 kDa
VPorod 15 nm3
log I(s) 3.04×101 3.04×100 3.04×10-1 3.04×10-2
Poly-uridine small angle scattering data  s, nm-1
ln I(s)
Poly-uridine Guinier plot ln 3.04×101 Rg: 2.5 nm 0 (2.5 nm)-2 s2
(sRg)2I(s)/I(0)
Poly-uridine Kratky plot 1.104 0 3 sRg
p(r)
Poly-uridine pair distance distribution function Rg: 2.6 nm 0 Dmax: 10 nm

Data validation


There are no models related to this curve.

Synchrotron SAXS data from solutions of rU30 in 1 mM Na-MOPS, 20 mM NaCl, 5 mM MgCl2, 20 µM EDTA, pH 7 were collected on the G1 beam line at the Cornell High Energy Synchrotron Source (CHESS) storage ring (Ithaca, NY, USA) using a Finger Lakes CCD detector at a sample-detector distance of 2.0 m and at a wavelength of λ = 0.11 nm (I(s) vs s, where s = 4πsinθ/λ, and 2θ is the scattering angle). Solute concentrations ranging between 0.4 and 1.2 mg/ml were measured at 25°C. 30 successive 10 second frames were collected. The data were normalized to the intensity of the transmitted beam and radially averaged; the scattering of the solvent-blank was subtracted. The low angle data collected at lower concentrations were extrapolated to infinite dilution and merged with the higher concentration data to yield the final composite scattering curve.

Poly-uridine (rU30)
Mol. type   RNA
Olig. state   Monomer
Mon. MW   9.2 kDa
Sequence   FASTA