Identifying similar transcripts in a related organism from de Bruijn graphs of RNA-Seq data, with applications to the study of salt and waterlogging tolerance in Melilotus Conference Paper uri icon

abstract

  • 2019 The Author(s). Background: A popular strategy to study alternative splicing in non-model organisms starts from sequencing the entire transcriptome, then assembling the reads by using de novo transcriptome assembly algorithms to obtain predicted transcripts. A similarity search algorithm is then applied to a related organism to infer possible function of these predicted transcripts. While some of these predictions may be inaccurate and transcripts with low coverage are often missed, we observe that it is possible to obtain a more complete set of transcripts to facilitate possible functional assignments by starting the search from the intermediate de Bruijn graph that contains all branching possibilities. Results: We develop an algorithm to extract similar transcripts in a related organism by starting the search from the de Bruijn graph that represents the transcriptome instead of from predicted transcripts. We show that our algorithm is able to recover more similar transcripts than existing algorithms, with large improvements in obtaining longer transcripts and a finer resolution of isoforms. We apply our algorithm to study salt and waterlogging tolerance in two Melilotus species by constructing new RNA-Seq libraries. Conclusions: We have developed an algorithm to identify paths in the de Bruijn graph that correspond to similar transcripts in a related organism directly. Our strategy bypasses the transcript prediction step in RNA-Seq data and makes use of support from evolutionary information.

published proceedings

  • BMC GENOMICS

altmetric score

  • 1.25

author list (cited authors)

  • Fu, S., Chang, P. L., Friesen, M. L., Teakle, N. L., Tarone, A. M., & Sze, S.

citation count

  • 0

complete list of authors

  • Fu, Shuhua||Chang, Peter L||Friesen, Maren L||Teakle, Natasha L||Tarone, Aaron M||Sze, Sing-Hoi

publication date

  • January 2019