Ebook: Scalable big data analytics for protein bioinformatics: efficient computational solutions for protein structures
Author: Mrozek Dariusz
- Genre: Biology // Molecular: Bioinformatics
- Tags: Proteins -- Structure., MEDICAL -- Physiology., SCIENCE -- Life Sciences -- Human Anatomy & Physiology., Network hardware., Proteins., Molecular biology., Maths for scientists., Life sciences: general issues., Computational Biology/Bioinformatics., Computer Communication Networks., Protein Structure., Bioinformatics., Mathematical and Computational Biology.
- Series: Computational biology 28
- Year: 2018
- Publisher: Springer
- Language: English
- pdf
This book presents a focus on proteins and their structures. The text describes various scalable solutions for protein structure similarity searching, carried out at main representation levels and for prediction of 3D structures of proteins. Emphasis is placed on techniques that can be used to accelerate similarity searches and protein structure modeling processes. The content of the book is divided into four parts. Read more...
Abstract: This book presents a focus on proteins and their structures. The text describes various scalable solutions for protein structure similarity searching, carried out at main representation levels and for prediction of 3D structures of proteins. Emphasis is placed on techniques that can be used to accelerate similarity searches and protein structure modeling processes. The content of the book is divided into four parts. The first part provides background information on proteins and their representation levels, including a formal model of a 3D protein structure used in computational processes, and a brief overview of the technologies used in the solutions presented in the book. The second part of the book discusses Cloud services that are utilized in the development of scalable and reliable cloud applications for 3D protein structure similarity searching and protein structure prediction. The third part of the book shows the utilization of scalable Big Data computational frameworks, like Hadoop and Spark, in massive 3D protein structure alignments and identification of intrinsically disordered regions in protein structures. The fourth part of the book focuses on finding 3D protein structure similarities, accelerated with the use of GPUs and the use of multithreading and relational databases for efficient approximate searching on protein secondary structures. The book introduces advanced techniques and computational architectures that benefit from recent achievements in the field of computing and parallelism. Recent developments in computer science have allowed algorithms previously considered too time-consuming to now be efficiently used for applications in bioinformatics and the life sciences. Given its depth of coverage, the book will be of interest to researchers and software developers working in the fields of structural bioinformatics and biomedical databases