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Model-Based Assignment and Inference of Protein Backbone Nuclear Magnetic Resonances

  • Olga Vitek , Jan Vitek , Bruce Craig and Chris Bailey-Kellogg
Published/Copyright: May 6, 2004
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Statistical Applications in Genetics and Molecular Biology
From the journal Statistical Applications in Genetics and Molecular Biology Volume 3 Issue 1

Nuclear Magnetic Resonance (NMR) spectroscopy is a key experimental technique used to study protein structure, dynamics, and interactions. NMR methods face the bottleneck of spectral analysis, in particular determining the resonance assignments, which help define the mapping between atoms in the protein and peaks in the spectra. A substantial amount of noise in spectral data, along with ambiguities in interpretation, make this analysis a daunting task, and there exists no generally accepted measure of uncertainty associated with the resulting solutions. This paper develops a model-based inference approach that addresses the problem of characterizing uncertainty in backbone resonance assignment. We argue that NMR spectra are subject to random variation, and ignoring this stochasticity can lead to false optimism and erroneous conclusions. We propose a Bayesian statistical model that accounts for various sources of uncertainty and provides an automatable framework for inference. While assignment has previously been viewed as a deterministic optimization problem, we demonstrate the importance of considering all solutions consistent with the data, and develop an algorithm to search this space within our statistical framework. Our approach is able to characterize the uncertainty associated with backbone resonance assignment in several ways: 1) it quantifies of uncertainty in the individually assigned resonances in terms of their posterior standard deviations; 2) it assesses the information content in the data with a posterior distribution of plausible assignments; and 3) it provides a measure of the overall plausibility of assignments. We demonstrate the value of our approach in a study of experimental data from two proteins, Human Ubiquitin and Cold-shock protein A from E. coli. In addition, we provide simulations showing the impact of experimental conditions on uncertainty in the assignments.

Keywords: Nuclear Magnetic Resonance (NMR) spectroscopy; uncertainty in NMR spectra; Bayesian modeling; statistical inference; protein structure; structural genomics
Published Online: 2004-5-6

©2011 Walter de Gruyter GmbH & Co. KG, Berlin/Boston

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https://doi.org/10.2202/1544-6115.1037
Keywords for this article
Nuclear Magnetic Resonance (NMR) spectroscopy; uncertainty in NMR spectra; Bayesian modeling; statistical inference; protein structure; structural genomics

Articles in the same Issue

  1. Article
  2. Using Alpha Wisely: Improving Power to Detect Multiple QTL
  3. Relating HIV-1 Sequence Variation to Replication Capacity via Trees and Forests
  4. Linear Models and Empirical Bayes Methods for Assessing Differential Expression in Microarray Experiments
  5. Asymptotic Optimality of Likelihood-Based Cross-Validation
  6. Using Importance Sampling to Improve Simulation in Linkage Analysis
  7. Model-Based Assignment and Inference of Protein Backbone Nuclear Magnetic Resonances
  8. Error-Rate and Decision-Theoretic Methods of Multiple Testing: Which Genes Have High Objective Probabilities of Differential Expression?
  9. Evaluation of Multiple Models to Distinguish Closely Related Forms of Disease Using DNA Microarray Data: an Application to Multiple Myeloma
  10. Saturation and Quantization Reduction in Microarray Experiments using Two Scans at Different Sensitivities
  11. Combining Nearest Neighbor Classifiers Versus Cross-Validation Selection
  12. Multiple Testing. Part I. Single-Step Procedures for Control of General Type I Error Rates
  13. Multiple Testing. Part II. Step-Down Procedures for Control of the Family-Wise Error Rate
  14. Augmentation Procedures for Control of the Generalized Family-Wise Error Rate and Tail Probabilities for the Proportion of False Positives
  15. Calculating the Statistical Significance of Changes in Pathway Activity From Gene Expression Data
  16. A Family-Based Association Test for Repeatedly Measured Quantitative Traits Adjusting for Unknown Environmental and/or Polygenic Effects
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  20. A Mixed Model Approach to Identify Yeast Transcriptional Regulatory Motifs via Microarray Experiments
  21. Mammalian Genomes Ease Location of Human DNA Functional Segments but Not Their Description
  22. On the Dependence Structure of Sequence Alignment Scores Calculated with Multiple Scoring Matrices
  23. Increasing Power for Tests of Genetic Association in the Presence of Phenotype and/or Genotype Error by Use of Double-Sampling
  24. A Method for Evaluating the Impact of Individual Haplotypes on Disease Incidence in Molecular Epidemiology Studies
  25. Statistical Methods for Identifying Conserved Residues in Multiple Sequence Alignment
  26. MergeMaid: R Tools for Merging and Cross-Study Validation of Gene Expression Data
  27. Sparse Inverse of Covariance Matrix of QTL Effects with Incomplete Marker Data
  28. Maximum Likelihood for Genome Phylogeny on Gene Content
  29. Confidence Levels for the Comparison of Microarray Experiments
  30. PLS Dimension Reduction for Classification with Microarray Data
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  38. Reader Reaction
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  41. BayesMendel: an R Environment for Mendelian Risk Prediction
  42. Letter to the Editor
  43. Concerns About Unreliable Data from Spotted cDNA Microarrays Due to Cross-Hybridization and Sequence Errors
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