Geobacter sulfurreducens PCA plays an important role in electricity production and bioremediation, as it can
reduce uranium to an insoluble form, and uses organic compounds as electron donors. ATP-binding cassette (ABC)
transporters are important as they regulate respiration and biofilm formation, which in turn affect the rate of electricity
production and bioremediation. Thus we focused on identifying ABC transporters by functional genomic re-annotation,
KEGG pathway analysis, and phylogenetic analysis of hypothetical proteins of G. sulfurreducens PCA. Our prediction is
based on five 1-dimensional tools including BLAST, family, domain, orthologous groups and signature recognition
search. We define a prediction of gene function with high confidence, when 3 or more functional prediction tools
indicated the same function for a given hypothetical gene. From our integrated re-annotation approach, we predicted
eleven new ABC transporters and phylogenetically sub-classified these genes based on sequence similarity with known
sub-classes of ABC transporters. These eleven new ABC transporters were also identified by KEGG pathway analysis.
Overall, these 11 newly predicted ABC proteins can be sub-classified as five ABC transporter substrate binding proteins,
three ABC-2 type transporters, 2 permeases, and 1 phosphate transporter.