Mohammad Hassan Qureshi scite author profile

The strong biotin-streptavidin interaction limits the application of streptavidin as a reversible affinity matrix for purification of biotinylated biomolecules. To address this concern, a series of single, double, and triple streptavidin muteins with different affinities to biotin were designed. The strategy involves mutating one to three strategically positioned residues (Ser-45, Thr-90, and Asp-128) that interact with biotin and other framework structure-maintaining residues of streptavidin. The muteins were produced in soluble forms via secretion from Bacillus subtilis. The impact of individual residues on the overall structure of streptavidin is reflected by the formation of monomeric streptavidin to different extents. Of the three targeted residues, Asp-128 has the most dramatic effect (Asp-128 > Thr-90 > Ser-45). Conversion of all three targeted residues to alanine results in a soluble biotin binding mutein that exists 100% in the monomeric state. Both wild-type and mutated (monomeric and tetrameric) streptavidin proteins were purified, and their kinetic parameters (on- and off-rates) were determined using a BIAcore biosensor with biotin-conjugated bovine serum albumin immobilized to the sensor chip. This series of muteins shows a wide spectrum of affinity toward biotin (K(d) from 10(-6) to 10(-11) m). Some of them have the potential to serve as reversible biotin binding agents.

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Design, production, and characterization of a monomeric streptavidin and its application for affinity purification of biotinylated proteins

Qureshi

Wong

2002

Protein Expression and Purification

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A Novel aco-Type Cytochrome-c Oxidase from a Facultative Alkalophilic Bacillus: Purification, and Some Molecular and Enzymatic Features1

Qureshi

Yumoto

Fujiwara

et al. 1990

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A novel aco-type cytochrome-c oxidase was highly purified from the facultative alkalophilic bacterium, Bacillus YN-2000, grown at pH 10. The enzyme contained 9.0 nmol heme a/mg protein. It contained 1.23 mol of protoheme, 1.06 mol of heme c, 2.0 g atoms of copper, 2.5 g atoms of iron, and 1.8 g atoms of magnesium per mol of heme a. The enzyme molecule seemed to be composed of two subunits with Mrs of 52,000 and 41,600. On the basis of these results, the enzyme seemed to contain one molecule each of heme a, protoheme, and heme c per minimal structural unit (Mr, 93,600). Only protoheme among the three kinds of hemes in the enzyme reacted with CO and CN-. Heme a did not react with CO; cytochrome a3 did not seem to be present in the enzyme. The enzyme oxidized 314 mol of horse ferrocytochrome c per heme a per sec at pH 6.5 and the catalytic activity was 50% inhibited by 7.65 microM KCN. The enzymatic activity was found to be optimal at pH 6.0.

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Secretory Production and Purification of Functional Full-Length Streptavidin from Bacillus subtilis

Qureshi

Wong

2002

Protein Expression and Purification

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Purification of a ccb -type quinol oxidase specifically induced in a deep-sea barophilic bacterium, Shewanella sp. strain DB-172F

1998

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We investigated for the first time the respiratory chain system of a deep-sea barophilic bacterium, Shewanella sp. strain DB-172F. A membrane-bound ccb-type quinol oxidase, from cells grown at 60 MPa pressure, was purified to an electrophoretically homogeneous state. The purified enzyme complex consisted of four kinds of subunits with molecular masses of 98, 66, 18.5, and 15kDa, and it contained 0.96 mol of protoheme and 1.95mol of covalently bound heme c per mol of enzyme. Only protoheme in the enzyme reacted with CO and CN-, and the catalytic activity of the enzyme was 50% inhibited by 4 microM CN-. The isoelectric point of the native enzyme complex was determined to be 5.0. This enzyme was specifically induced only under conditions of elevated hydrostatic pressure, and high levels were expressed in cells grown at 60 MPa. The membranes isolated from cells grown at atmospheric pressure (0.1 MPa) exhibited high levels of both cytochrome c oxidase and N,N,N',N'-tetramethyl-p-phenylenediamine (TMPDH2)-oxidase activity. These results suggest the presence of two kinds of respiratory chains regulated in response to pressure in the deep-sea bacterium DB-172F.

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