TY - JOUR
T1 - RNA-LIM
T2 - A novel procedure for analyzing protein/single-stranded RNA propensity data with concomitant estimation of interface structure
AU - Hall, Damien
AU - Li, Songling
AU - Yamashita, Kazuo
AU - Azuma, Ryuzo
AU - Carver, John A.
AU - Standley, Daron M.
N1 - Publisher Copyright:
Crown Copyright © 2014 Published by Elsevier Inc. All rights reserved.
PY - 2015/3/1
Y1 - 2015/3/1
N2 - RNA-LIM is a procedure that can analyze various pseudo-potentials describing the affinity between single-stranded RNA (ssRNA) ribonucleotides and surface amino acids to produce a coarse-grained estimate of the structure of the ssRNA at the protein interface. The search algorithm works by evolving an ssRNA chain, of known sequence, as a series of walks between fixed sites on a protein surface. Optimal routes are found by application of a set of minimal "limiting" restraints derived jointly from (i) selective sampling of the ribonucleotide amino acid affinity pseudo-potential data, (ii) limited surface path exploration by prior determination of surface arc lengths, and (iii) RNA structural specification obtained from a statistical potential gathered from a library of experimentally determined ssRNA structures. We describe the general approach using a NAST (Nucleic Acid Simulation Tool)-like approximation of the ssRNA chain and a generalized pseudo-potential reflecting the location of nucleic acid binding residues. Minimum and maximum performance indicators of the methodology are established using both synthetic data, for which the pseudo-potential defining nucleic acid binding affinity is systematically degraded, and a representative real case, where the RNA binding sites are predicted by the amplified antisense RNA (aaRNA) method. Some potential uses and extensions of the routine are discussed. RNA-LIM analysis programs along with detailed instructions for their use are available on request from the authors.
AB - RNA-LIM is a procedure that can analyze various pseudo-potentials describing the affinity between single-stranded RNA (ssRNA) ribonucleotides and surface amino acids to produce a coarse-grained estimate of the structure of the ssRNA at the protein interface. The search algorithm works by evolving an ssRNA chain, of known sequence, as a series of walks between fixed sites on a protein surface. Optimal routes are found by application of a set of minimal "limiting" restraints derived jointly from (i) selective sampling of the ribonucleotide amino acid affinity pseudo-potential data, (ii) limited surface path exploration by prior determination of surface arc lengths, and (iii) RNA structural specification obtained from a statistical potential gathered from a library of experimentally determined ssRNA structures. We describe the general approach using a NAST (Nucleic Acid Simulation Tool)-like approximation of the ssRNA chain and a generalized pseudo-potential reflecting the location of nucleic acid binding residues. Minimum and maximum performance indicators of the methodology are established using both synthetic data, for which the pseudo-potential defining nucleic acid binding affinity is systematically degraded, and a representative real case, where the RNA binding sites are predicted by the amplified antisense RNA (aaRNA) method. Some potential uses and extensions of the routine are discussed. RNA-LIM analysis programs along with detailed instructions for their use are available on request from the authors.
KW - Analysis of single-stranded RNA affinities
KW - Flexible docking
KW - Heuristic optimization
KW - Protein-RNA interface
UR - http://www.scopus.com/inward/record.url?scp=84921377005&partnerID=8YFLogxK
U2 - 10.1016/j.ab.2014.11.004
DO - 10.1016/j.ab.2014.11.004
M3 - Article
SN - 0003-2697
VL - 472
SP - 52
EP - 61
JO - Analytical Biochemistry
JF - Analytical Biochemistry
ER -