RNA backbone rotamers – finding your way in seven dimensions

L.J.W. Murray; J.S. Richardson; W.B. Arendall; D.C. Richardson

doi:10.1042/bst0330485

RNA backbone rotamers – finding your way in seven dimensions

Biochemical Society Transactions ◽

10.1042/bst0330485 ◽

2005 ◽

Vol 33 (3) ◽

pp. 485-487 ◽

Cited By ~ 5

Author(s):

L.J.W. Murray ◽

J.S. Richardson ◽

W.B. Arendall ◽

D.C. Richardson

Keyword(s):

Rna Catalysis ◽

Noise Levels ◽

Base Interaction ◽

Empirical Distributions ◽

Chemical Residues ◽

Backbone Conformation ◽

Backbone Dihedral Angle ◽

Rna Backbone ◽

Rna Backbone Conformation ◽

Quality Filtering

Despite the importance of local structural detail for a mechanistic understanding of RNA catalysis and binding functions, RNA backbone conformation has been recalcitrant to analysis. There are too many variable dihedral angles per residue, and their raw empirical distributions are poorly clustered. This study applies quality-filtering techniques (using resolution, crystallographic B factor and all-atom-steric clashes) to the backbone dihedral angle distributions from a selected 8636 residue RNA database. With noise levels significantly decreased, clear signal appears for the underlying angle preferences. We analyse the multidimensional backbone dihedral distributions within sugar-to-sugar ‘suites’ rather than chemical residues due to the greater base interaction and steric interdependence within the suite. The final result is a small library of RNA backbone rotamers, each represented by a data cluster in seven-dimensional dihedral space, which should provide valid conformations for nearly all RNA backbones encountered in experimental structures. We are in the process of improving that library, and developing tools and applications for it in structure determination and analysis.

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Classification of RNA backbone conformation into rotamers using 13C′ chemical shifts: How far we can go?

10.1101/559302 ◽

2019 ◽

Author(s):

A. A. Icazatti ◽

J.M. Loyola ◽

I. Szleifer ◽

J.A. Vila ◽

O. A. Martin

Keyword(s):

Chemical Shifts ◽

Conformational Space ◽

Phosphate Backbone ◽

Ribose Phosphate ◽

Conformational Preferences ◽

Backbone Conformation ◽

Rna Backbone ◽

Rna Backbone Conformation ◽

Torsional Angles

ABSTRACTThe conformational space of the ribose–phosphate backbone is very complex as is defined in terms of six torsional angles. To help delimit the RNA backbone conformational preferences 46 rotamers have been defined in terms of the these torsional angles. In the present work, we use the ribose experimental and theoretical 13C′ chemical shifts data and machine learning methods to classify RNA backbone conformations into rotamers and families of rotamers. We show to what extent the use of experimental 13C′ chemical shifts can be used to identify rotamers and discuss some problem with the theoretical computations of 13C′ chemical shifts.

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Codon-specific Ramachandran plots show amino acid backbone conformation depends on identity of the translated codon.

10.21203/rs.3.rs-1089201/v1 ◽

2021 ◽

Author(s):

Aviv Rosenberg ◽

Ailie Marx ◽

Alex Bronstein

Keyword(s):

Amino Acid ◽

Codon Usage ◽

Protein Conformation ◽

Statistical Significance ◽

Protein Product ◽

Synonymous Codons ◽

Causal Direction ◽

Backbone Conformation ◽

Backbone Dihedral Angle ◽

Ramachandran Plots

Abstract Synonymous codons translate into chemically identical amino acids. Once considered inconsequential to the formation of the protein product, there is now significant evidence to suggest that codon usage affects co-translational protein folding and the final structure of the expressed protein. Here we develop a method for computing and comparing codon-specific Ramachandran plots and demonstrate that the backbone dihedral angle distributions of some synonymous codons are distinguishable with statistical significance for some secondary structures. This shows that there exists a dependence between codon identity and backbone torsion of the translated amino acid. Although these findings cannot pinpoint the causal direction of this dependence, we discuss the vast biological implications should coding be shown to directly shape protein conformation and demonstrate the usefulness of this method as a tool for probing associations between codon usage and protein structure. Finally, we urge for the inclusion of exact genetic information into structural databases.

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Damage Risk: An Evaluation of the Effects of Exposure to 85 versus 90 dBA of Noise

Journal of Speech and Hearing Research ◽

10.1044/jshr.1902.216 ◽

1976 ◽

Vol 19 (2) ◽

pp. 216-224 ◽

Cited By ~ 3

Author(s):

James T. Yates ◽

Jerry D. Ramsey ◽

Jay W. Holland

Keyword(s):

White Noise ◽

Statistical Difference ◽

Noise Exposure ◽

Threshold Shift ◽

Temporary Threshold Shift ◽

Noise Levels ◽

Potential Damage ◽

Full Day ◽

Damage Risk

The purpose of this study was to compare the damage risk of 85 and 90 dBA of white noise for equivalent full-day exposures. The damage risk of the two noise levels was determined by comparing the temporary threshold shift (TTS) of 12 subjects exposed to either 85 or 90 dBA of white noise for equivalent half- and full-day exposures. TTS was determined by comparing the pre- and postexposure binaural audiograms of each subject at 1, 2, 3, 4, 6, and 8 kHz. It was concluded that the potential damage risk, that is, hazardous effect, of 90 dBA is greater than 85 dBA of noise for equivalent full-day exposures. The statistical difference between the overall effects of equivalent exposures to 85 dBA as compared to 90 dBA of noise could not be traced to any one frequency. The damage risk of a full-day exposure to 85 dBA is equivalent to that of a half-day exposure to 90 dBA of noise. Within the limits of this study, TTS t was as effective as TTS 2 for estimating the damage risk of noise exposure.

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The effect of various noise levels on performance of three mental tasks. (Tech. Rep. SDC 104-2-21.).

PsycEXTRA Dataset ◽

10.1037/e476202004-001 ◽

1950 ◽

Cited By ~ 1

Author(s):

T. D. Hanley ◽

R. J. Williamson

Keyword(s):

Noise Levels ◽

Mental Tasks

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Determination of the Probability Distribution of the Mean Sound Level

Archives of Acoustics ◽

10.2478/v10168-010-0041-1 ◽

2010 ◽

Vol 35 (4) ◽

pp. 543-550 ◽

Cited By ~ 4

Author(s):

Wojciech Batko ◽

Bartosz Przysucha

Keyword(s):

Probability Distribution ◽

Probability Distribution Function ◽

Mean Value ◽

Sound Level ◽

Function Form ◽

Noise Levels ◽

Logarithmic Mean ◽

The Mean ◽

Estimation Of Uncertainty

AbstractAssessment of several noise indicators are determined by the logarithmic mean <img src="/fulltext-image.asp?format=htmlnonpaginated&src=P42524002G141TV8_html\05_paper.gif" alt=""/>, from the sum of independent random resultsL1;L2; : : : ;Lnof the sound level, being under testing. The estimation of uncertainty of such averaging requires knowledge of probability distribution of the function form of their calculations. The developed solution, leading to the recurrent determination of the probability distribution function for the estimation of the mean value of noise levels and its variance, is shown in this paper.

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