Deacon Sweeney scite author profile

Replication protein A (RPA) is an essential heterotrimeric ssDNA binding protein that participates in DNA repair, replication, and recombination. Though X-ray and NMR experiments have been used to determine three-dimensional structure models of the protein's domain fragments, a complete RPA structural model has not been reported. To test whether the fragment structures faithfully represent the same portions in the native solution-state protein, we have examined the structure of RPA under biologically relevant conditions. We have probed the location of multiple amino acids within the native RPA three-dimensional structure using reactivity of these amino acids toward proteolytic and chemical modification reagents. In turn, we evaluated different structural models by comparing the observed native RPA reactivities with anticipated reactivities based on candidate structural models. Our results show that our reactivity analysis approach is capable of critically assessing structure models and can be a basis for selecting the most relevant from among alternate models of a protein structure. Using this analytical approach, we verified the relevance of RPA fragment models to the native protein structure. Our results further indicate several important features of native RPA's structure in solution, such as flexibility at specific locations in RPA, particularly in the C-terminal region of RPA70. Our findings are consistent with reported DNA-free structural models and support the role of conformational change in the ssDNA binding mechanism of RPA.

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Prediction of and Experimental Support for the Three-Dimensional Structure of Replication Protein A

Nuss

Sweeney

Alter

2009

Biochemistry

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Replication protein A (RPA) is a heterotrimeric, multidomain, single-stranded DNA binding protein that is essential for DNA replication, repair, and recombination. Crystallographic and NMR studies on RPA protein fragments have provided structures for all domains; however, intact heterotrimeric RPA has resisted crystallization, and a complete protein structure has not yet been described. In this study, computational methods and experimental reactivity information (MRAN) were used to model the complete structure of RPA. To accomplish this, models of RPA's globular domains and its domain-linking regions were docked in various orders. We also determined rates of proteolytic cleavage and amino acid side chain chemical modifications in native, solution state RPA. These experimental data were used to select alternate modeling intermediates and final structural models, leading to a single model most consistent with our results. Using molecular dynamics simulations and multiple rounds of simulated annealing, we then relaxed this structural model and examined its flexibility. The family of resultant models is consistent with other, previously published, critical lines of evidence and with experimental reactivity data presented herein.

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Profile combinatorics for fragment selection in comparative protein structure modeling

Sweeney

Alter

Raymer

et al. 2001

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Deacon Sweeney

Sequencing and automated whole-genome optical mapping of the genome of a domestic goat (Capra hircus)

Antidiabetic and antimalarial biguanide drugs are metal-interactive antiproteolytic agents

Reactivity-Based Analysis of Domain Structures in Native Replication Protein A

Prediction of and Experimental Support for the Three-Dimensional Structure of Replication Protein A

Profile combinatorics for fragment selection in comparative protein structure modeling

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