Chromosomal mutations of the celZ and celY genes which encode two different endoglucanases in Erwinia chrysanthemi 3937 were obtained by a three-step procedure: (i) in Escherichia coli, insertions of lacZ fusion-forming mini-Mu bacteriophages in the cel genes cloned on plasmids and screening of cel-lac fusions, (ii) Mu-mediated transduction in E. chrysanthemi of the plasmids carrying the fusions, (iii) recombinational exchange between the plasmidic mutated and the wild-type chromosomal alleles. These mutations allowed mapping of celZ between ura and pan and celY between xyl and met on the linkage map of E. chrysanthemi. The beta-galactosidase activity of these strains indicated that celZ is expressed in the late exponential and stationary growth phases, while celY expression is almost undetectable.