Clostridium thermocellum, an anaerobic, thermophilic, and ethanogenic bacterium produces a large cellulase complex termed the cellulosome and many free glycosyl hydrolases. Most cellulase genes scatter around the genome. We mapped the transcripts of the six-gene cluster celC-glyR3-licA-orf4-manB-celT and determined their transcription initiation sites by primer extension. Northern blot showed that celC-glyR3-licA were co-transcribed into a polycistronic messenger with the transcription initiation site at -20 bp. Furthermore, RT-PCR mapping showed that manB and celT, two cellulosomal genes immediately downstream, were co-transcribed into a bicistronic messenger with the initiation site at -233 bp. In contrast, rf4 was transcribed alone with the two initiation sites at -130 and -138 bp, respectively. Finally, quantitative RT-PCR analysis showed that celC, glyR3, and licA were coordinately induced by growing on laminarin, a beta-1,3 glucan. Gene expression peaked at the late exponential phase. Taking together with our previous report that GlyR3 binds to the celC promoter in the absence of laminaribiose, a beta-1,3 glucose dimer, these results indicate that celC, glyR3, and licA form an operon repressible by GlyR3 and inducible by laminaribiose, signaling the availability of beta-1,3 glucan. The celC operon is the first glycosyl hydrolase operon reported in this bacterium.