Identification of β-Glucosidase Aggregating Factor (BGAF) and Mapping of BGAF Binding Regions on Maize β-Glucosidase

Abstract In certain maize genotypes (nulls), β-glucosidase does not enter the gel and therefore cannot be detected on zymograms. Such genotypes were initially thought to be homozygous for a null allele at the glu1 gene. We have shown that a β-glucosidase aggregating factor (BGAF) is responsible for the null phenotype, and it specifically interacts with maize β-glucosidases and forms large insoluble aggregates. To understand the mechanism of the β-glucosidase-BGAF interaction, we constructed chimeric enzymes by domain swapping between the maize β-glucosidase isozymes Glu1 and Gu2, to which BGAF binds, and the sorghum β-glucosidase (dhurrinase) isozyme Dhr1, to which BGAF does not bind. The results of binding assays with 12 different chimeric enzymes showed that an N-terminal region (Glu50-Val145) and an extreme C-terminal region (Phe466-Ala512) together form the BGAF binding site on the enzyme surface. In addition, we purified BGAF, determined its N-terminal sequence, amplified the BGAF cDNA by reverse transcriptase-polymerase chain reaction, expressed it inEscherichia coli, and showed that it encodes a protein whose binding and immunological properties are identical to the native BGAF isolated from maize tissues. A data base search revealed that BGAF is a member of the jasmonite-induced protein family. Interestingly, the deduced BGAF sequence contained an octapeptide sequence (G(P/R)WGGSGG) repeated twice. Each of these repeat units is postulated to be involved in forming a site for binding to maize β-glucosidases and thus provides a plausible explanation for the divalent function of BGAF predicted from binding assays.