Brucella Melitensis: Identification and Characterization of Potential Drug Targets - Softcover

About the Authors

Jangampalli Adi Pradeepkiran is Post-Doctoral Research Associate in Internal Medicine at the Texas Tech University Health Sciences Center, USA. He has over a decade’s experience in designing and executing bioactive molecules, and in computational biology reaction mechanisms. His research interests include microbiology, immunology, therapeutics, and process research in cell cultures and animal models, among other areas. He has published over 30 research papers.

S.B. Sainath is Assistant Professor in the Biotechnology Department at Vikrama Simhapuri University in the Nellore district of Andhra Pradesh, India. He obtained his PhD from Sri Venhateswara University in India, and has held positions at DST-SERB, and a Post-Doctoral Fellowship from the Foundation of Science and Technology, at the University or Porto in Portugal. His research focuses on nuclear signaling mechanisms across metazoan phyla. He has published four books, and over 30 articles.

From the Back Cover

Brucella melitensis is a bacteria widely characterized as a biological warfare pathogen. Systems biology and bioinformatics provide new methods and insights into Brucella pathogenesis, host–pathogen interactions, and for the rapid development of new potential drug targets. Brucella Miletensis: Identification and Characterization of Potential Drug Targets presents a systematic approach to identifying and characterizing drug targets using bioinformatics. The book shows the potential of bioinformatic tools in the identification of virulence targets in pathogenic bacteria and viruses in general, and B. militensis 16M in particular. The title first demonstrates the identification of putative genes as potential drug targets, employing a subtractive genomic approach. It considers the virulent genes of this bacteria that negatively affect humans, and lists twelve potential virulence genes as drug targets. Secondly, the title considers the screening of potential drugs against the bacteria’s virulence genes, through molecular modeling, computational screening, drug discovery and molecular docking studies. The book demonstrates in silico approaches that offer insight into the identification of drug targets in B.melitensis 16M.

The title employs a step-by-step approach to identify drug targets, namely: Identifying and characterizing Vaccine targets for Brucella melitensis; in silico screening and identification of novel drug targets from the total Brucella melitensis proteome; computational modeling and evaluation of the best potential drug targets through comparative modeling; molecular docking and dynamics simulations of novel drug targets and; in silico validation and ADMET analysis for best lead molecules. Researchers will find in this book a focused solution on using bioinformatic tools to find virulence targets.