Chemical Master Equation for Large Biological Networks

Don Kulasiri holds a chaired professorship in computational modelling and systems biology at Lincoln University, New Zealand, during the last 21 years, and he has been an academic over 30 years. He obtained his B.Sc. (Honours) in mechanical engineering at the University of Peradeniya, Sri Lanka, in 1980, and MS and Ph.D. in bio-engineering at Virginia Tech, USA, in 1988 and 1990, respectively. He has been a visiting professor in Princeton University, Stanford University, USA, and Oxford University, UK. His research has been ranked A (world-class) by the New Zealand government panels for the last 16 years, and he has graduated over 55 Ph.D. and 15 master’s students, and authored more than 180 publications including 3 research monographs. He founded and directs C-fACS. Rahul Kosarwal has a PhD in Computer Science from Lincoln University, New Zealand, and his Masters and Bachelors of Engineering in IT and Electronics Communication, respectively from RGPV University, India. Since 2008, he has initiated and led several industrial projects in the field of Artificial intelligence, Big data Analytics, and Algorithms and has expertise in creating cloud-based solution architectures. He holds one patent on simulation technology and has a book published on this technology in Germany. He has served as an editorial board/program committee member of various journals and conferences held and conducted by various universities in the UK, Australia, Dubai, Poland, India, Canada, etc. He is also a recipient of India's Promising Young Professional Award 2011: Best Entrepreneur of the Country (Knowledge partners: NASSCOM, The Indus Entrepreneurs, Columbia Engineering).

1. Introduction.- 2. A Review and Challenges in Chemical Master Equation.- 3. Visualizing Markov Process through Graphs and Trees.- 4. Intelligent State Projection.- 5. Comparative Study And Analysis of Methods and Models.- 6. A Large Model Case Study: Solving CME for G1/S Checkpoint Involving the DNA-damage Signal Transduction Pathway.- 7. An Integrated Large Model Case Study: Solving CME for Oxidative Stress Adaptation in the Fungal Pathogen Candida Albicans.