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Publications by Natasha M. Nesbitt

Catabolism of the Cholesterol Side Chain in Mycobacterium Tuberculosis Is Controlled by a Redox-Sensitive Thiol Switch

ACS Infectious Diseases

Infectious Diseases

English

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Mycobacterium Tuberculosis Thioredoxin Reductase Is Essential for Thiol Redox Homeostasis but Plays a Minor Role in Antioxidant Defense

Molecular Biology

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Reengineering Redox Sensitive GFP to Measure Mycothiol Redox Potential of Mycobacterium Tuberculosis During Infection

Molecular Biology

English

Mycobacterium Tuberculosis Is Able to Accumulate and Utilize Cholesterol

Journal of Bacteriology

Molecular Biology

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Mycobacterium Tuberculosis Is Extraordinarily Sensitive to Killing by a Vitamin C-Induced Fenton Reaction

Nature Communications

Molecular Biology

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Virulence Factor SenX3 Is the Oxygen-Controlled Replication Switch ofMycobacterium Tuberculosis

Antioxidants and Redox Signaling

Molecular Biology

Clinical Biochemistry

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Redox Biology of Mycobacterium Tuberculosis H37Rv: Protein-Protein Interaction Between GlgB and WhiB1 Involves Exchange of Thiol-Disulfide

BMC Biochemistry

Molecular Biology

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Detection of Reactive Oxygen Species-Sensitive Thiol Proteins by Redox Difference Gel Electrophoresis

Journal of Biological Chemistry

Molecular Biology

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Redox Regulation of Rotation of the Cyanobacterial F1-ATPase Containing Thiol Regulation Switch

Journal of Biological Chemistry

Molecular Biology

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Cholesterol Is Not an Essential Source of Nutrition for Mycobacterium Tuberculosis During Infection

Journal of Bacteriology

Molecular Biology

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