Identification of chloroplast envelope proteins in close physical proximity to a partially translocated chimeric precursor protein.

Translocation intermediates of the chimeric protein precursor Oee1-Dhfr were generated and used to identify envelope components in close proximity to the arrested precursor. The translocation of Oee1-Dhfr across the chloroplast envelope can be arrested at low ATP levels or by prebinding the fusion precursor with anti-Dhfr IgGs. The arrested Oee1-Dhfr precursor appears to span both the outer and inner envelope membranes. Translocational arrest of Oee1-Dhfr by low ATP levels was reversible, and import was restored upon resupplementation with higher ATP levels. Chemical cross-linking and co-immunoprecipitation with monospecific antibodies indicate that two outer envelope membrane proteins (Com44 and Com70) and at least one inner envelope protein (Cim44 and Cim97) were found to be in close proximity to Oee1-Dhfr during translocation. The Com70 protein was further studied and additional evidence for its role in chloroplast protein import is presented.