A scalable and memory-efficient algorithm for de novo transcriptome assembly of non-model organisms | Zendy

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A scalable and memory-efficient algorithm for de novo transcriptome assembly of non-model organisms

Author(s) -

SingHoi Sze,

Meaghan L. Pimsler,

Jeffery K. Tomberlin,

Corbin D. Jones,

Aaron M. Tarone

Publication year - 2017

Publication title -

carolina digital repository (university of north carolina at chapel hill)

Language(s) - English

DOI - 10.17615/cecw-x521

Subject(s) - scalability , transcriptome , computer science , parallel computing , computational biology , sequence assembly , algorithm , de novo transcriptome assembly , biology , gene , genetics , database , gene expression

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