VOLUME 553. Computational Methods for Understanding Riboswitches: Difference between revisions
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Available [https:// | Available at [https://openlibrary.org/search?q=Methods%20in%20Enzymology%20Volume%20553%20Computational%20Methods%20for%20Understanding%20Riboswitches Open Library] or [https://archive.org/search?q=Methods%20in%20Enzymology%20Volume%20553%20Computational%20Methods%20for%20Understanding%20Riboswitches Internet Archive]. | ||
"This book represents a state-of-the-art collection of advanced computational methods for modeling RNA riboswitch structure, thermal stability, dynamics, and kinetics. Given the fact that riboswitches have been extensively studied experimentally, yet currently the accuracy of computational prediction for riboswitch remains generally inconsistent, this volume is particularly timely. We believe that this volume will excite future more radical advances in computational modeling for riboswitches and other noncoding RNAs." | "This book represents a state-of-the-art collection of advanced computational methods for modeling RNA riboswitch structure, thermal stability, dynamics, and kinetics. Given the fact that riboswitches have been extensively studied experimentally, yet currently the accuracy of computational prediction for riboswitch remains generally inconsistent, this volume is particularly timely. We believe that this volume will excite future more radical advances in computational modeling for riboswitches and other noncoding RNAs." | ||
Latest revision as of 15:20, 7 July 2026
Available at Open Library or Internet Archive.
"This book represents a state-of-the-art collection of advanced computational methods for modeling RNA riboswitch structure, thermal stability, dynamics, and kinetics. Given the fact that riboswitches have been extensively studied experimentally, yet currently the accuracy of computational prediction for riboswitch remains generally inconsistent, this volume is particularly timely. We believe that this volume will excite future more radical advances in computational modeling for riboswitches and other noncoding RNAs."