Raymond E. Andreotti scite author profile

This article sets forth a simple cellulase assay procedure. Cellulose is variable in nature, insoluble and resistant to enzymatic attack. As a result there have been a bevy of bewildering cellulase assays published that yielded irrational results. Certain protocols focused on the rapidity of the assay while ignoring that only the most readily susceptible cellulose regions were being hydrolyzed. Other assays simplified the system by using modified soluble substrates and yielded results that bore no relationship to the real world hydrolysis of insoluble cellulose. In this study Mandels, Andreotti and Roche utilized a common substrate, Whatman filter paper. Hydrolysis of a 50 mg sample of the paper was followed to roughly 4% degradation, which circumvented the problems of attack of only the most susceptible zones. This common hydrolysis target range also resulted in some balance with regard to the interaction of the several cellulase components. The method was subsequently widely adopted.

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Inter- and Intramolecular Interactions of α-Lactalbumin. I. The Apparent Heterogeneity at Acid pH^*

Kronman¹,

Andreotti²

1964

Biochemistry

155

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Inter- and Intramolecular Interactions of α-Lactalbumin. II. Aggregation Reactions at Acid pH^*

Kronman¹,

Andreotti²,

Vitols³

1964

Biochemistry

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Lactalbumin in acid pH exhibits a time-dependent aggregation, the characteristics of which have been studied using sedimentation and solubility methods. Exposure of the protein to pH values below the region of its isoelectric point yields a component having a sedimentation constant of 10-14 S (infinite dilution) in contrast with the value of 1.93 S obtained for the monomeric molecule. The rate of formation of the heavy component decreases with decreasing temperature and decreasing pH and ionic strength. Similarly, reduction of the net molecular charge through binding of anions such as nitrate dramatically increases the rate of aggregation.

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Enzymatic hydrolysis of cellulose: Evaluation of cellulase culture filtrates under use conditions

Mandels

Medeiros

Andreotti

et al. 1981

Biotech & Bioengineering

126

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SummaryCulture filtrates from three mutant strains of Trichoderma reesei grown on lactose and on cellulose were compared under use conditions on four cellulose substrates. Cellulose culture filtrates contained five to six times as much cellulase as lactose culture filtrates. Unconcentrated cellulose culture filtrates produced up to 10% sugar solutions from 1570 cellulose in 24 h. Specific activity in enzyme assays and efficiency in saccharification tests were low for enzymes from all the mutants. Over a wide range the percent saccharification of a substrate in a given time was directly proportional to the logarithm of the ratio of initial concentrations of enzyme and substrate. As a result of this, dilute enzyme is more efficient than concentrated enzyme, but if high sugar concentrations are desired, very large quantities of enzyme are required. Since the slopes of these plots varied, the relative activity of cellulase on different substrates may be affected by enzyme concentration.

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Inter- and intramolecular interactions of α-lactalbumin VII. The hydrogen ion titration curve of α-lactalbumin

Robbins

Andreotti

Holmes

et al. 1967

Biochimica et Biophysica Acta (BBA) - Protein Structure

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