Ten site-directed mutations affecting the predicted 39-amino-acid signal peptide of the Streptomyces scabies esterase were used to examine start-codon usage and esterase secretion in S. lividans. The first of two in-frame AUG codons was preferred for translation initiation. Removal of 2 of the 4 positively charged amino acids at the amino terminus of the signal peptide reduced esterase expression more than 100-fold; however, deletion of all 4 charged residues reduced expression by only 2- to 5-fold. Deletion of 4 or 8 amino acids from the hydrophobic core of the signal peptide reduced esterase production more than 200-fold, and a signal peptide processing site deletion completely disrupted esterase expression. For all constructs in which a mutation in the signal sequence decreased esterase production, esterase mRNA levels were also reduced, suggesting that a defect in secretion or processing affected esterase transcript abundance.