Next-generation sequencing technological advances,affording high-throughput,scalable,and fast assemblies,have enabled genome editing techniques that allow us to remove,insert,and modify genes for rapid and precise fun...Next-generation sequencing technological advances,affording high-throughput,scalable,and fast assemblies,have enabled genome editing techniques that allow us to remove,insert,and modify genes for rapid and precise functional investigations.展开更多
基金supported by a Science Foundation Ireland Principal Investigator Grant(13/IAV/1820)to C.S.F.L.is supported by the Irish Research Council Postgraduate Fellowship GOIPG/2018/1960.F.L.and this work were partially funded by Cost Action CA16212“lmpacts of Chromatin Domains on Plant Phenotypes(INDEPTH)”(F.L.,F.P.,and A.V.P.are members of INDEPTH).F.L.was partly supported by EMBO Short Term Fellowship 8312.No conflict of interest is declared.
文摘Next-generation sequencing technological advances,affording high-throughput,scalable,and fast assemblies,have enabled genome editing techniques that allow us to remove,insert,and modify genes for rapid and precise functional investigations.