Tripathi, S., Dsouza, N. R., Urrutia, R., & Zimmermann, M. T. (2020). Structural bioinformatics enhances mechanistic interpretation of genomic variation, demonstrated through the analyses of 935 distinct RAS family mutations. Bioinformatics.

Tripathi, Swarnendu, Nikita R. Dsouza, Raul Urrutia, et Michael T. Zimmermann. "Structural Bioinformatics Enhances Mechanistic Interpretation of Genomic Variation, Demonstrated Through the Analyses of 935 Distinct RAS Family Mutations." Bioinformatics 2020.

Tripathi, Swarnendu, Nikita R. Dsouza, Raul Urrutia, et Michael T. Zimmermann. "Structural Bioinformatics Enhances Mechanistic Interpretation of Genomic Variation, Demonstrated Through the Analyses of 935 Distinct RAS Family Mutations." Bioinformatics 2020.