Abstract
Adenylation enzymes transfer acyl substrates selectively onto carrier proteins (CPs) in natural product biosynthesis. Despite the importance of adenylation enzyme-CP interactions, structural information on these transient complexes remains limited. Previously, we developed a pantetheine cross-linking probe (named C2Br), which contains an ethylenediamine linker with a reactive bromoacetamide group, and determined the structure of the cross-linked complex of the adenylation enzyme HitB with the CP HitD. Here, we investigated the linker-length effects of pantetheine probes in the cross-linking reactions of two adenylation enzymes, HitB and EntE, with CPs using probes with different diamine linkers, such as C2Br and C4Br, the latter containing a longer butanediamine linker moiety. Both adenylation enzymes formed cross-linked complexes with CPs irrespective of the probe used, but the reaction efficiencies depended on the linker length. Crystal structural analysis showed that the HitB-HitD interface interactions in the HitB-C4Br-HitD complex are essentially identical to those in the HitB-C2Br-HitD complex. In contrast, the diamine moieties of probes adopt different interaction modes, accounting for the observed variations in cross-linking efficiencies. A repertoire of pantetheine probes with varying linker lengths will facilitate structural studies on adenylation enzyme-CP interactions by enabling optimization for each adenylation enzyme.