Managing Global Resources for a Secure Future

2017 Annual Meeting | Oct. 22-25 | Tampa, FL

225-2 Editing the Complex Sugarcane Genome with Talen or CRISPR/Cas9.

See more from this Division: C07 Genomics, Molecular Genetics and Biotechnology
See more from this Session: Symposium--Genome Editing Technologies for Crop Improvement

Tuesday, October 24, 2017: 10:30 AM
Marriott Tampa Waterside, Florida Salon V

Fredy Altpeter1, Baskaran Kannan2, Tufan Mehmet Oz2, Ratna Karan1, Je Hyeong Jung1 and Aldo Merotto1, (1)Agronomy Department, University of Florida - IFAS, Gainesville, FL
(2)Agronomy Department, University of Florida, Gainesville, FL
Abstract:
Programmable endonucleases like RNA-guided nucleases (e.g.CRISPR/Cas9) or transcription activator-like effector nucleases (TALENs) enable precise genome modifications. Targeted mutagenesis for “loss of function” is typically more efficient than gene replacement for “gain of function” since it does not require template mediated homology directed repair (HDR) and instead relies on the more efficient but error prone non-homologous end joining (NHEJ) DNA-repair pathway. However, sugarcane is a highly polyploid species (x=10-13) which may require knock-out of a very large number of alleles/copies for “loss of function” mutants. Suppression of lignin biosynthesis is a prime target for mutagenesis in biofuel feedstocks like sugarcane. Recently we described TALEN induced mutagenesis to suppress one of the lignin biosynthetic genes, caffeic acid O-methyltransferase (COMT), resulting in low lignin and brown-midrib sugarcane phenotypes (Jung and Altpeter 2016, Plant Molecular Biology 92: 131-142). Here we will discuss sequencing results of long COMT-amplicons from brown-midrib sugarcane, which allowed us to precisely determine the number of copies/alleles which were co-mutated. Data describing the cell wall composition, agronomic and conversion performance of field grown COMT mutants will be presented. A precision gene-editing approach for allele re-placement conferring “gain of function” will also be discussed, involving a DNA repair template facilitating homology-directed repair (HDR) and CRISPR/Cas9 as programmable endonuclease.

See more from this Division: C07 Genomics, Molecular Genetics and Biotechnology
See more from this Session: Symposium--Genome Editing Technologies for Crop Improvement