Christine M. Ladisch scite author profile

Cellulolytic enzymes consist of a catalytic domain, a linking peptide, and a binding domain. The paper describes research on carboxylic acids that have potential as catalytic domains for constructing organic macromolecules for use in cellulose hydrolysis that mimic the action of enzymes. The tested domains consist of the series of mono-, di-, and tricarboxylic acids with a range of pK(a)'s. This paper systematically characterizes the acids with respect to hydrolysis of cellobiose, cellulose in biomass, and degradation of glucose and compares these kinetics data to dilute sulfuric acid. Results show that acid catalyzed hydrolysis is proportional to H+ concentration. The tested carboxylic acids did not catalyze the degradation of glucose while sulfuric acid catalyzed the degradation of glucose above that of water alone. Consequently, overall yields of glucose obtained from cellobiose and cellulose are higher for the best carboxylic acid tested, maleic acid, when compared to sulfuric acid at equivalent solution pH.

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Characterization of Dicarboxylic Acids for Cellulose Hydrolysis

Mosier

Sarikaya

Ladisch

et al. 2001

Biotechnology Progress

139

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In this paper, we show that dilute maleic acid, a dicarboxylic acid, hydrolyzes cellobiose, the repeat unit of cellulose, and the microcrystalline cellulose Avicel as effectively as dilute sulfuric acid but with minimal glucose degradation. Maleic acid, superior to other carboxylic acids reported in this paper, gives higher yields of glucose that is more easily fermented as a result of lower concentrations of degradation products. These results are especially significant because maleic acid, in the form of maleic anhydride, is widely available and produced in large quantities annually.

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Reaction Kinetics, Molecular Action, and Mechanisms of Cellulolytic Proteins

Mosier

Hall

Ladisch

et al. 1999

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Protein chromatography using a continuous stationary phase

Yang

Velayudhan

Ladisch

et al. 1992

Journal of Chromatography A

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Pretreatment of yellow poplar sawdust by pressure cooking in water

Weil

Sarikaya

Rau

et al. 1997

Appl Biochem Biotechnol

131

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