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Complex Trait Loci in Maize Enabled by CRISPR-Cas9 Mediated Gene Insertion.

Frontiers in plant science (2020-05-21)
Huirong Gao, Jasdeep Mutti, Joshua K Young, Meizhu Yang, Megan Schroder, Brian Lenderts, Lijuan Wang, Dave Peterson, Grace St Clair, Spencer Jones, Lanie Feigenbutz, Wally Marsh, Min Zeng, Susan Wagner, Jeffry Farrell, Kay Snopek, Chris Scelonge, Xiaoyi Sopko, Jeffry D Sander, Scott Betts, A Mark Cigan, N Doane Chilcoat
RESUMO

Modern maize hybrids often contain biotech and native traits. To-date all biotech traits have been randomly inserted in the genome. Consequently, developing hybrids with multiple traits is expensive, time-consuming, and complex. Here we report using CRISPR-Cas9 to generate a complex trait locus (CTL) to facilitate trait stacking. A CTL consists of multiple preselected sites positioned within a small well-characterized chromosomal region where trait genes are inserted. We generated individual lines, each carrying a site-specific insertion landing pad (SSILP) that was targeted to a preselected site and capable of efficiently receiving a transgene via recombinase-mediated cassette exchange. The selected sites supported consistent transgene expression and the SSILP insertion had no effect on grain yield. We demonstrated that two traits residing at different sites within a CTL can be combined via genetic recombination. CTL technology is a major step forward in the development of multi-trait maize hybrids.

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REDExtract-N-Amp PCR ReadyMix, Amplifications to support Extract-N-Amp Plant and Extract-N-Amp Tissue