Cellulose is the most abundant rene

Cellulose is the most abundant renewable biological
resource and a low-cost energy source based on energy
content ($3–4/GJ) ( Lynd et al., 2008 ; Zhang, 2009 ). The
production of bio-based products and bioenergy from
less costly renewable lignocellulosic materials would
bring benefi ts to the local economy, environment, and
national energy security ( Zhang, 2008 ).
High costs of cellulases are one of the largest obstacles
for commercialization of biomass biorefi neries
because a large amount of cellulase is consumed for
biomass saccharifi cation, for example, ∼ 100 g enzymes
per gallon of cellulosic ethanol produced ( Zhang et al.,
2006b ; Zhu et al., 2009 ). In order to decrease cellulase
use, increase volumetric productivity, and reduce capital
investment, consolidated bioprocessing ( CBP ) has been
proposed by integrating cellulase production, cellulose
hydrolysis, and ethanol fermentation in a single step
( Lynd et al., 2002, 2008 ).
Cellulases are the enzymes that hydrolyze β -1,4 linkages
in cellulose chains. They are produced by fungi,
bacteria, protozoans, plants, and animals. The catalytic
modules of cellulases have been classifi ed into numerous
families based on their amino acid sequences and
crystal structures ( Henrissat, 1991 ). Cellulases contain
noncatalytic carbohydrate-binding module s ( CBM s)
and/or other functionally known or unknown modules,
which may be located at the N- or C-terminus of a catalytic
module. In nature, complete cellulose hydrolysis is
mediated by a combination of three main types of cellulases