EE Special Seminar

Monday March 17, 2014 4:00 PM

Optimal RNA Assembly: From Information Theory to Software

Speaker: Sreeram Kannan, U C Berkeley
Location: Moore B270

Abstract:  High throughput sequencing of RNA has emerged in the last few years as a powerful method that enables discovery of novel transcripts and alternatively spliced isoforms of genes, along with accurate estimates of gene expression. In this work, we study the fundamental limits of de novo transcriptome assembly using RNA shotgun-sequencing, where the sequencing technology extracts short reads from the RNA transcripts. We propose a new linear-time algorithm for transcriptome reconstruction and derive sufficient conditions on the length of reads under which the algorithm will succeed. We also derive fundamental information-theoretic conditions for reconstruction by any algorithm, and show that the proposed algorithm is near-optimal on a real data set. Along the way, we show that the NP-hard problem of decomposing a flow into the fewest number of paths can be solved in linear time for a family of instances, and biologically relevant instances tend to fall in this family. We also describe the construction of a software package for RNA assembly based on this theory and show that it obtains significant improvements in reconstruction accuracy over state-of-the-art software.  

Bio: Sreeram Kannan is currently a postdoctoral researcher at the University of California, Berkeley. He received his Ph.D. in Electrical Engineering and M.S. in Mathematics from the University of Illinois Urbana- Champaign. He is a co-recipient of the Van Valkenburg research award from UIUC,  Qualcomm Roberto Padovani Scholarship for outstanding interns, the Qualcomm Cognitive Radio Contest first prize, the S.V.C. Aiya medal from the Indian Institute of Science, and Intel India Student Research Contest first prize. His research interests include applications of information theory and approximation algorithms to wireless networks and computational biology.

Series Electrical Engineering Special Seminar Series

Contact: Shirley Slattery at x4715