Domain exchanges between KNAT3 and KNAT1 suggest specificity of the kn1‐like homeodomains requires sequences outside of the third helix and N‐terminal arm of the homeodomain

Domain exchange constructs that traded regions surrounding the homeodomain were constructed for two kn1 ‐like genes, KNAT1 and KNAT3, and introduced into Arabidopsis thaliana under the control of the 35S CaMV promoter. The kn1‐like homeodomain proteins all have the homeodomain located near the C‐terminus of the protein, and also share a second conserved domain (the ELK domain) immediately N‐terminal to the homeodomain. Progeny were scored for the appearance of the KNAT1 overexpression phenotype. A construct containing the KNAT3 N‐terminus and the KNAT1 ELK‐ and homeodomain resulted in a KNAT1 overexpression phenotype, indicating that specificity mainly resides within the ELK‐ and homeodomain region. Further exchanges demonstrated that specificity probably does not arise from a single region within the ELK and/or homeodomain but rather requires sequences both N‐terminal and C‐terminal to residue 23 of the homeodomain. Further, in contrast to some animal homeodomains, KNAT1 does not utilize the residues of the N‐terminal arm of the homeodomain for specificity.