Combinatorial computational biology of RNA: pseudoknots and neutral networks

Combinatorial computational biology of RNA: pseudoknots and neutral networks

Reidys, Christian

84,65 €(IVA inc.)

In this monograph, new combinatorial and computational approaches in the study of RNA structures are presented which enhance both mathematics and computational biology. It begins with an introductory chapter, which motivates and setsthe background of this research. In the following chapter, all the concepts are systematically developed. The reader will find * integration of more than forty research papers covering topics like, RSK-algorithm, reflection principle, singularity analysis and random graph theory * systematic presentation of the theory of pseudo-knotted RNA structures including their generating function,uniform generation as well as central and discrete limit theorems * computational biology of pseudo-knotted RNA structures, including dynamic programming paradigms and a new folding algorithm * analysis of neutral networks of pseudo knotted RNA structures and their random graph theory, including neutral paths,giant components and connectivity All algorithms presented are freely available through springer.com and implemented in C. A proofs section at the end contains the necessary technicalities. This book will serve graduate students and researchers in the fields of discrete mathematics, mathematical and computational biology. It is suitable as a textbook for a graduate course in mathematical and computational biology. Presents new combinatorics and combinatorial structures and applies them to the study of RNA structures Presents new results onpseudoknot RNA Motivating introductory chapter INDICE: Introduction.- Secondary Structures, Pseudoknot RNA and Beyond.- Folding Sequences into Structures.- Evolution of RNA Sequences.- Methods.- References.- Index.

  • ISBN: 978-0-387-76730-7
  • Editorial: Springer
  • Encuadernacion: Cartoné
  • Páginas: 236
  • Fecha Publicación: 29/11/2010
  • Nº Volúmenes: 1
  • Idioma: Inglés