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Publications by Denice C. Bay

NarJ Subfamily System Specific Chaperone Diversity and Evolution Is Directed by Respiratory Enzyme Associations

BMC Evolutionary Biology

English

Diversity and Evolution of Bacterial Twin Arginine Translocase Protein, TatC, Reveals a Protein Secretion System That Is Evolving to Fit Its Environmental Niche

PLoS ONE

Multidisciplinary

2013

English

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The Evolution of Enzyme Mechanisms and Functional Diversity

Biophysical Journal

Biophysics

2015

English

The Ordered and Compartment-Specific Autoproteolytic Removal of the Furin Intramolecular Chaperone Is Required for Enzyme Activation

Journal of Biological Chemistry

English

Expanding the Enzyme Universe: Accessing Non-Natural Reactions by Mechanism-Guided Directed Evolution

Angewandte Chemie - International Edition

Catalysis

Chemistry

2015

English

Extensive Diversity of Prion Strains Is Defined by Differential Chaperone Interactions and Distinct Amyloidogenic Regions

English

Directed Evolution of New and Improved Enzyme Functions Using an Evolutionary Intermediate and Multidirectional Search

English

Diversifying Carotenoid Biosynthetic Pathways by Directed Evolution

Microbiology and Molecular Biology Reviews

English

Isobutene Formation From 3-Hydroxy-3-Methylbutyrate (3-Hmb) by the Saccharomyces Cerevisiae Diphosphomevalonate Decarboxylase (ScMDD) and Directed Enzyme Evolution to Improve Enzyme Function

English

Cryo-Em and Directed Evolution Reveal How Arabidopsis Nitrilase Specificity Is Influenced by Its Quaternary Structure

Communications Biology

English

The Subfamily-Specific Assembly of Eag and Erg K+ Channels Is Determined by Both the Amino and the Carboxyl Recognition Domains

Biophysical Journal

Biophysics

2015

English

Amanote Research

Discover open access scientific publications

Search, annotate, share and cite publications

Publications by Denice C. Bay

NarJ Subfamily System Specific Chaperone Diversity and Evolution Is Directed by Respiratory Enzyme Associations

Diversity and Evolution of Bacterial Twin Arginine Translocase Protein, TatC, Reveals a Protein Secretion System That Is Evolving to Fit Its Environmental Niche

Related publications

The Evolution of Enzyme Mechanisms and Functional Diversity

The Ordered and Compartment-Specific Autoproteolytic Removal of the Furin Intramolecular Chaperone Is Required for Enzyme Activation

Expanding the Enzyme Universe: Accessing Non-Natural Reactions by Mechanism-Guided Directed Evolution

Extensive Diversity of Prion Strains Is Defined by Differential Chaperone Interactions and Distinct Amyloidogenic Regions

Directed Evolution of New and Improved Enzyme Functions Using an Evolutionary Intermediate and Multidirectional Search

Diversifying Carotenoid Biosynthetic Pathways by Directed Evolution

Isobutene Formation From 3-Hydroxy-3-Methylbutyrate (3-Hmb) by the Saccharomyces Cerevisiae Diphosphomevalonate Decarboxylase (ScMDD) and Directed Enzyme Evolution to Improve Enzyme Function

Cryo-Em and Directed Evolution Reveal How Arabidopsis Nitrilase Specificity Is Influenced by Its Quaternary Structure

The Subfamily-Specific Assembly of Eag and Erg K+ Channels Is Determined by Both the Amino and the Carboxyl Recognition Domains