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The publications on this site are being made available to the academic community for
use in teaching and research. All copyrights remain intact.

Peer-Reviewed Journal Articles (Original Research)

  1. Effects of a second-generation human anti-ErbB2 immunoRNase on trastuzumab-resistant tumors and cardiac cells. Chiara D'Avino, Rolando Paciello, Gennaro Riccio, Melina Coppola, Paolo Laccetti, Nicola Maurea, Ronald T. Raines, and Claudia De Lorenzo (2014). Protein Engineering, Design & Selection 27, 83–88. [PubMed] [PDF]
  2. Signatures of nπ* interactions in proteins. Robert W. Newberry, Gail J. Bartlett, Brett VanVeller, Derek N. Woolfson, and Ronald T. Raines (2014). Protein Science 23, 284–288. [PubMed] [PDF] [Supporting Information]
  3. A tRNA splicing operon: Archease endows RtcB with dual GTP/ATP cofactor specificity and accelerates RNA ligation. Kevin K. Desai, Chin L. Cheng, Craig A. Bingman, George N. Phillips, Jr., and Ronald T. Raines (2014). Nucleic Acids Research 42, 3931–3942. [PubMed[PDF] [Supporting Information]
  4. Image of CoverCOVER ARTICLE: Cytotoxicity of paclitaxel in breast cancer is due to chromosome missegregation on multipolar spindles. Lauren M. Zasadil, Kristen A. Andersen, Dabin Yeum, Gabrielle B. Rocque, Lee G. Wilke, Amye J. Tevaarwerk, Ronald T. Raines, Mark E. Burkard, and Beth A. Weaver (2014). Science Translational Medicine 6, 229ra43. [PubMed] [PDF] [Supporting Information]
  5. A key nπ* interaction in N-acyl homoserine lactones. Robert W. Newberry and Ronald T. Raines (2014). ACS Chemical Biology 9, 880–883. [PubMed] [PDF] [Supporting Information]
  6. nπ* Interactions engender chirality in carbonyl groups. Amit Choudhary, Robert W. Newberry, and Ronald T. Raines (2014). Organic Letters 16, 3421–3423. [PubMed] [PDF] [Supporting Information]
  7. Pyrazine-derived disulfide-reducing agent for chemical biology. John C. Lukesh, III, Kelly K. Wallin, and Ronald T. Raines (2014). Chemical Communications 50, 9591–9594. [PubMed] [PDF] [Supporting Information]
  8. Functional evolution of ribonuclease inhibitor: Insights from birds and reptiles. Jo E. Lomax, Christopher M. Bianchetti, Aram Chang, George N. Phillips, Jr., Brian G. Fox, and Ronald T. Raines (2014). Journal of Molecular Biology 426, 3041–3056. [PubMed] [PDF] [Supporting Information]
  9. Bovine brain ribonuclease is the functional homolog of human ribonuclease 1. Chelcie H. Eller, Jo E. Lomax, and Ronald T. Raines (2014). Journal of Biological Chemistry 289, 25996–26006. [PubMed] [PDF]
  10. Structure of RNA-phosphate cyclase bound to substrate RNA. Kevin K. Desai and Ronald T. Raines (2014). RNA 20, 1560–1566. [PubMed] [PDF] [Supporting Information]
  11. Affinity of monoclonal antibodies for Globo-series glycans. Chelcie H. Eller, Guangbin Yang, Ouathek Ouerfelli, and Ronald T. Raines (2014). Carbohydrate Research 397, 1–6. [PubMed] [PDF] [Supporting Information]
  12. Optimal interstrand bridges for collagen-like biomaterials. I. Caglar Tanrikulu and Ronald T. Raines (2014). Journal of the American Chemical Society 136, 13490–13493. [PubMed] [PDF] [Supporting Information]
  13. Organocatalysts of oxidative protein folding inspired by protein disulfide isomerase. John C. Lukesh, III, Kristen A. Andersen, Kelly K. Wallin, and Ronald T. Raines (2014). Organic & Biomolecular Chemistry 12, 8598–8602. [PubMed] [PDF] [Supporting Information]

Peer-Reviewed Journal Articles (Reviews)

  1. Bright building blocks for chemical biology. Luke D. Lavis and Ronald T. Raines (2014). ACS Chemical Biology 9, 855–866. [PubMed] [PDF]
  2. Collagen-based biomaterials for wound healing. Sayani Chattopadhyay and Ronald T. Raines (2014). Biopolymers 101, 821–833. [PubMed] [PDF]