Mark F. Mohamed scite author profile

Unculturable bacterial communities provide a rich source of biocatalysts, but their experimental discovery by functional metagenomics is difficult, because the odds are stacked against the experimentor. Here we demonstrate functional screening of a million-membered metagenomic library in microfluidic picolitre droplet compartments. Using bait substrates, new hydrolases for sulfate monoesters and phosphotriesters were identified, mostly based on promiscuous activities presumed not to be under selection pressure. Spanning three protein superfamilies, these break new ground in sequence space: promiscuity now connects enzymes with only distantly related sequences. Most hits could not have been predicted by sequence analysis, because the desired activities have never been ascribed to similar sequences, showing how this approach complements bioinformatic harvesting of metagenomic sequencing data. Functional screening of a library of unprecedented size with excellent assay sensitivity has been instrumental in identifying rare genes constituting catalytically versatile hubs in sequence space as potential starting points for the acquisition of new functions.

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Picoliter Cell Lysate Assays in Microfluidic Droplet Compartments for Directed Enzyme Evolution

Kintses

Hein

Mohamed

et al. 2012

Chemistry & Biology

209

238

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We demonstrate the utility of a microfluidic platform in which water-in-oil droplet compartments serve to miniaturize cell lysate assays by a million-fold for directed enzyme evolution. Screening hydrolytic activities of a promiscuous sulfatase demonstrates that this extreme miniaturization to the single-cell level does not come at a high price in signal quality. Moreover, the quantitative readout delivers a level of precision previously limited to screening methodologies with restricted throughput. The sorting of 3 × 10(7) monodisperse droplets per round of evolution leads to the enrichment of clones with improvements in activity (6-fold) and expression (6-fold). The detection of subtle differences in a larger number of screened clones provides the combination of high sensitivity and high-throughput needed to rescue a stalled directed evolution experiment and make it viable.

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Evolution of enzyme catalysts caged in biomimetic gel-shell beads

et al. 2014

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Natural evolution relies on the improvement of biological entities by rounds of diversification and selection. In the laboratory, directed evolution has emerged as a powerful tool for the development of new and improved biomolecules, but it is limited by the enormous workload and cost of screening sufficiently large combinatorial libraries. Here we describe the production of gel-shell beads (GSBs) with the help of a microfluidic device. These hydrogel beads are surrounded with a polyelectrolyte shell that encloses an enzyme, its encoding DNA and the fluorescent reaction product. Active clones in these manmade compartments can be identified readily by fluorescence-activated sorting at rates >107 GSBs per hour. We use this system to perform the directed evolution of a phosphotriesterase (a bioremediation catalyst) caged in GSBs and isolate a 20-fold faster mutant in less than one hour. We thus establish a practically undemanding method for ultrahigh-throughput screening that results in functional hybrid composites endowed with evolvable protein components. Evolution of Catalysts Caged in Biomimetic Gel-Shell Beads AbstractNatural evolution relies on improvement of biological entities by rounds of

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Combination of a Dinuclear Zn²⁺Complex and a Medium Effect Exerts a 10¹²-Fold Rate Enhancement of Cleavage of an RNA and DNA Model System

Neverov

Maxwell

et al. 2006

J. Am. Chem. Soc.

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The catalytic ability of a dinuclear Zn2+ complex of 1,3-bis-N1-(1,5,9-triazacyclododecyl)propane (3) in promoting the cleavage of an RNA model, 2-hydroxypropyl-p-nitrophenyl phosphate (HPNPP, 1), and a DNA model, methyl p-nitrophenyl phosphate (MNPP, 4), was studied in methanol solution in the presence of added CH3O- at 25 degrees C. The di-Zn2+ complex (Zn2 :3), in the presence of 1 equiv of added methoxide, exhibits a second-order rate constant of (2.75 +/- 0.10) x 10(5) M(-1) s(-1) for the reaction with 1 at s(s)pH 9.5, this being 10(8)-fold larger than the k2 value for the CH3O- promoted reaction (kOCH3 = (2.56 +/- 0.16) x 10(-3) M(-1) s(-1)). The complex is also active toward the DNA model 4, exhibiting Michaelis-Menten kinetics with a KM and kmax of 0.37 +/- 0.07 mM and (4.1 +/- 0.3) x 10(-2) s(-1), respectively. Relative to the background reactions at s(s)pH 9.5, Zn2 :3 accelerates cleavage of each phosphate diester by a remarkable factor of 1012-fold. A kinetic scheme common to both substrates is discussed. The study shows that a simple model system comprising a dinuclear Zn2+ complex and a medium effect of the alcohol solvent achieves a catalytic reactivity that approaches enzymatic rates and is well beyond anything seen to date in water for the cleavage of these phosphate diesters.

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Efficient, crosswise catalytic promiscuity among enzymes that catalyze phosphoryl transfer

Mohamed

Hollfelder

2013

Biochimica et Biophysica Acta (BBA) - Proteins and Proteomics

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Mark F. Mohamed

Ultrahigh-throughput discovery of promiscuous enzymes by picodroplet functional metagenomics

Picoliter Cell Lysate Assays in Microfluidic Droplet Compartments for Directed Enzyme Evolution

Evolution of enzyme catalysts caged in biomimetic gel-shell beads

Combination of a Dinuclear Zn²⁺Complex and a Medium Effect Exerts a 10¹²-Fold Rate Enhancement of Cleavage of an RNA and DNA Model System

Efficient, crosswise catalytic promiscuity among enzymes that catalyze phosphoryl transfer

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About

Mark F. Mohamed

Ultrahigh-throughput discovery of promiscuous enzymes by picodroplet functional metagenomics

Picoliter Cell Lysate Assays in Microfluidic Droplet Compartments for Directed Enzyme Evolution

Evolution of enzyme catalysts caged in biomimetic gel-shell beads

Combination of a Dinuclear Zn2+Complex and a Medium Effect Exerts a 1012-Fold Rate Enhancement of Cleavage of an RNA and DNA Model System

Efficient, crosswise catalytic promiscuity among enzymes that catalyze phosphoryl transfer

Contact Info

Product

Resources

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Combination of a Dinuclear Zn²⁺Complex and a Medium Effect Exerts a 10¹²-Fold Rate Enhancement of Cleavage of an RNA and DNA Model System