Efficient Editing of SoCSLD2 by CRISPR/Cas9 Affects Morphogenesis of Root Hair in Spinach

CRISPR/Cas9 is a valuable tool and has been extensively employed to perform gene editing in plants. However, CRISPR/Cas9 has not been successfully used in spinach, an important leafy vegetable crop. Here, we established a CRISPR/Cas9-based gene-editing system for spinach hairy roots and edited two cellulose synthase-like D (CSLD) genes (SoCSLD2 and SoCSLD3) that were involved in root-hair formation of spinach hairy roots. Four mutation types (i.e., replacement, insertion, deletion, and combined mutations) were observed, among which the replacement accounted for the vast majority (about 64.1%). Mutation rate differed largely among different targets. Seven homozygous/bi-allelic and eight heterozygous/chimeric mutants of SoCSLD2 were obtained from 15 independent transgenic hairy root lines. All of the seven homozygous/bi-allelic mutant lines displayed bulking and short root hairs, which resembled the characteristics of Arabidopsis atcsld2 mutants. The transcriptomic analysis further revealed that multiple gene expressions for cell-wall modulation and membrane trafficking were disturbed, which might result in the inhibition of root hair growth in socsld2 mutants. This indicates that SoCSLD2 was successfully knocked out in spinach root hairs using the CRISPR/Cas9-based gene editing system.

Automated summary

CRISPR/Cas9-based gene editing system was successfully used to edit two CSLD genes involved in root hair formation in spinach hairy roots. Different mutation types and mutation rates were observed, and the homozygous/bi-allelic mutants showed changes in the root hair characteristics. Transcriptomic analysis revealed disruption of multiple gene expressions related to cell-wall modulation and membrane trafficking in the mutants.