Three new dominant C1 suppressor alleles in Zea mays

Abstract

Three new dominant suppressor mutations of the C1 transcription regulator gene in maize – C1-IΔ1, C1-IΔ2 and C1-IΔ3 – are described that suppress anthocyanin colouration in kernels similar to the function of the C1-I standard inhibitor. The C1-IΔ mutations were induced by imprecise excision of an En/Spm transposon in the third exon of the C1 gene. These transposon footprints cause a frameshift in the C1 open reading frame that leads to truncated proteins due to an early stop codon 30 amino acids upstream of the wild-type C1 protein. Therefore, the C1-IΔ gene products lack the carboxy-terminal transcriptional activation domain of C1. The C1-I standard allele also lacks this domain and in addition differs in 17 amino acids from the wild-type C1 allele. The new C1-IΔ alleles provide evidence that deletion of the carboxy-terminal activation domain alone is sufficient to generate a dominant suppressive effect on the function of wild-type C1.