Enzyme assay to study the influence of citalopram on the concentration of psychotropic comedication

<div>As a case study, we consider a coupled enzyme assay of sequential enzyme reactions obeying the Michaelis--Menten reaction mechanism. The sequential reaction consists of a single-substrate, single-enzyme non-observable reaction followed by another single-substrate, single-enzyme observable reaction (indicator reaction). In this assay, the product of the non-observable reaction becomes the substrate of the indicator reaction. A mathematical analysis of the reaction kinetics is performed, and it is found that after an initial fast transient, the sequential reaction is described by a pair of interacting Michaelis--Menten equations. Timescales that approximate the respective lengths of the indicator and non-observable reactions, as well as conditions for the validity of the Michaelis--Menten equations are derived. The theory can be extended to deal with more complex sequences of enzyme catalyzed reactions.</div>

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A kinetic analysis of coupled sequential enzyme reactions

10.26434/chemrxiv.5746065.v1 ◽

2018 ◽

Author(s):

Justin Eilertsen ◽

Santiago Schnell

Keyword(s):

Enzyme Assay ◽

Sequential Reaction ◽

Enzyme Reactions ◽

Indicator Reaction ◽

Single Substrate ◽

Complex Sequences ◽

Catalyzed Reactions ◽

Enzyme Catalyzed Reactions ◽

Single Enzyme

<div>As a case study, we consider a coupled enzyme assay of sequential enzyme reactions obeying the Michaelis-Menten reaction mechanism. The sequential reaction consists of a single-substrate, single enzyme non-observable reaction followed by another single-substrate, single enzyme observable reaction (indicator reaction). In this assay, the product of the non-observable reaction becomes the substrate of the indicator reaction. A mathematical analysis of the reaction kinetics is performed, and it is found that after an initial fast transient, the sequential reaction is described by a pair of interacting Michaelis-Menten equations. Timescales that approximate the respective lengths of the indicator and non-observable reactions, as well as conditions for the validity of the Michaelis-Menten equations are derived. The theory can be extended to deal with more complex sequences of enzyme catalyzed reactions.</div>

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A semiquantitative enzyme assay for corneal collagenase

Acta Ophthalmologica ◽

10.1111/j.1755-3768.1975.tb01234.x ◽

2009 ◽

Vol 53 (S125) ◽

pp. 46-47 ◽

Cited By ~ 1

Author(s):

J.U. Prause

Keyword(s):

Enzyme Assay

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A New Type of Fusion Analysis Applicable to Many Organisms: Protein Fusions to the URA3 Gene of Yeast

Genetics ◽

10.1093/genetics/117.1.5 ◽

1987 ◽

Vol 117 (1) ◽

pp. 5-12

Author(s):

Eric Alani ◽

Nancy Kleckner

Keyword(s):

Gene Fusion ◽

Enzyme Assay ◽

Decarboxylase Activity ◽

Lacz Gene ◽

Coding Region ◽

Ura3 Gene ◽

Promoter Sequences ◽

E Coli ◽

New Type ◽

Fusion Analysis

ABSTRACT We have made constructs that join the promoter sequences and a portion of the coding region of the Saccharomyces cerevisiae HIS4 and GAL1 genes and the E. coli lacZ gene to the sixth codon of the S. cerevisiae URA3 gene (encodes orotidine-5′-phosphate (OMP) decarboxylase) to form three in frame protein fusions. In each case the fusion protein has OMP decarboxylase activity as assayed by complementation tests and this activity is properly regulated. A convenient cassette consisting of the URA3 segment plus some immediately proximal amino acids of HIS4C is available for making URA3 fusions to other proteins of interest. URA3 fusions offer several advantages over other systems for gene fusion analysis: the URA3 specified protein is small and cytosolic; genetic selections exist to identify mutants with either increased or decreased URA3 function in both yeast (S. cerevisiae and Schizosaccharomyces pombe) and bacteria (Escherichia coli and Salmonella typhimurium); and a sensitive OMP decarboxylase enzyme assay is available. Also, OMP decarboxylase activity is present in mammals, Drosophila and plants, so URA3 fusions may eventually be applicable in these other organisms as well.

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