Abstract
A library of 75 different chimeric cellulosomes was constructed as an extension of our previously described approach for the production of model functional complexes (Fierobe, H.-P., Mechaly, A., Tardif, C., Bélaich, A., Lamed, R., Shoham, Y., Bélaich, J.-P., and Bayer, E. A. (2001) J. Biol. Chem. 276, 21257-21261), based on the high affinity species-specific cohesin-dockerin interaction. Each complex contained three protein components: (i) a chimeric scaffoldin possessing an optional cellulose-binding module and two cohesins of divergent specificity, and (ii) two cellulases, each bearing a dockerin complementary to one of the divergent cohesins. The activities of the resultant ternary complexes were assayed using different types of cellulose substrates. Organization of cellulolytic enzymes into cellulosome chimeras resulted in characteristically high activities on recalcitrant substrates, whereas the cellulosome chimeras showed little or no advantage over free enzyme systems on tractable substrates. On recalcitrant cellulose, the presence of a cellulose-binding domain on the scaffoldin and enzyme proximity on the resultant complex contributed almost equally to their elevated action on the substrate. For certain enzyme pairs, however, one effect appeared to predominate over the other. The results also indicate that substrate recalcitrance is not necessarily a function of its crystallinity but reflects the overall accessibility of reactive sites.
Highlights
A library of 75 different chimeric cellulosomes was constructed as an extension of our previously described approach for the production of model functional complexes
Based on data published earlier [20], which demonstrated that scaffoldins containing a single cellulose-binding domain (CBD) (Scaf1, -2, and -3) induced higher stimulation than those lacking a CBD (Scaf4), a fifth hybrid scaffoldin, derived from Scaf3, was designed and produced in E. coli
For the purposes of this study, the enzymes are given a descriptive notation, whereby the initial number designates the corresponding glycosylhydrolase family [36]; the capital letter refers to the original name of the C. cellulolyticum cellulase (i.e. CelE in this instance), and the lowercase letter indicates the origin of the dockerin domain
Summary
In a previous study [20], we exploited the species specificity of the cohesin-dockerin interaction to selectively incorporate desired enzymes into precise positions within chimeric cellulosome complexes. For this purpose, a chimeric scaffoldin containing an optional CBD and divergent cohesins from each species binds selectively the appropriate dockerin-containing enzymes. A chimeric scaffoldin containing an optional CBD and divergent cohesins from each species binds selectively the appropriate dockerin-containing enzymes In this manner, two cellulases from C. cellulolyticum, the family-5 CelA and the family-48 CelF, were engineered to bear the dockerin domain of CelS from C. thermocellum. The abbreviations used are: CBD, cellulose-binding domain; CBM, carbohydrate-binding module; BC, bacterial cellulose; BMCC, bacterial microcrystalline cellulose; PAS-cellulose, phosphoric acid swollen cellulose; DP, degree of polymerization
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
