| MWexperimental | 88 | kDa |
| MWexpected | 70 | kDa |
| VPorod | 160 | nm3 |
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log I(s)
5.72×10-2
5.72×10-3
5.72×10-4
5.72×10-5
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s, nm-1
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Expression and analysis of the SAM-dependent RNA methyltransferase Rsm22 from Saccharomyces cerevisiae
Alam J, Rahman F, Sah-Teli S, Venkatesan R, Koski M, Autio K, Hiltunen J, Kastaniotis A, Acta Crystallographica Section D Structural Biology 77(6) (2021) DOISASDJS5 – Probable S-adenosyl-L-methionine-dependent RNA methyltransferase RSM22, mitochondrial-monomer
Probable S-adenosyl-L-methionine-dependent RNA methyltransferase RSM22, mitochondrial|
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Fits and models
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Rsm22 was purified in 40mM Tris pH7.5, 500mM NaCl, 5% Glycerol, 2.5mM DTT for SAXS purpose. Batch mode SAXS studies were carried out on the purified Rsm22 at B21 beamline of Diamond Light Source (DLS), UK. 40 µL of Rsm22 sample was used and 120 frames were collected. Scattered X-rays at a wavelength of 0.1 nm (at 12.4 keV) were recorded with a Pilatus 2M detector. The buffer scatterings were subtracted from protein scatterings using the program SCATTER (Reference: Förster, S., Apostol, L. and Bras, W. (2010)) and PRIMUS (Reference: Konarev, P. V., (2003)). The radius of gyration Rg, forward scattering I0, the maximum dimensions Dmax and the interatomic distance distribution functions P(r) were estimated using the GNOM package (Reference: Svergun, D. I. (1992)) in SCATTER and PRIMUS. The ab initio models of Rsm22 were generated by DAMMIN of the online-SAXS cluster at EMBL, Hamburg (Reference: D. I. Svergun (1999)) using the output file from GNOM package.
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