Michael A DeJesus

Overview

Explore the profile of Michael A DeJesus including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 23

Citations 1516

Followers 0

Related Specialties

Biology

Microbiology

Science

Top 10 Co-Authors

Thomas R Ioerger

Dirk Schnappinger

Jeremy M Rock

Barbara Bosch

Christopher M Sassetti

Nicholas C Poulton

Sabine Ehrt

Zachary A Azadian

Shuqi Li

Nadine Ruecker

Published In

PLoS Pathog

BMC Bioinformatics

Antimicrob Agents Chemother

mBio

bioRxiv

Affiliations

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Recent Articles

Candidate transmission survival genome of

Mishra S, Singh P, Hu X, Lopez-Quezada L, Jinich A, Jahn R, et al.

Proc Natl Acad Sci U S A . 2025 Mar; 122(10):e2425981122. PMID: 40053362

(Mtb), a leading cause of death from infection, completes its life cycle entirely in humans except for transmission through the air. To begin to understand how Mtb survives aerosolization, we...

A dose-response model for statistical analysis of chemical genetic interactions in CRISPRi screens

Choudhery S, DeJesus M, Srinivasan A, Rock J, Schnappinger D, Ioerger T

PLoS Comput Biol . 2024 May; 20(5):e1011408. PMID: 38768228

An important application of CRISPR interference (CRISPRi) technology is for identifying chemical-genetic interactions (CGIs). Discovery of genes that interact with exposure to antibiotics can yield insights to drug targets and...

Weak links: Advancing target-based drug discovery by identifying the most vulnerable targets

Bosch B, DeJesus M, Schnappinger D, Rock J

Ann N Y Acad Sci . 2024 Apr; 1535(1):10-19. PMID: 38595325

Mycobacterium tuberculosis remains the most common infectious killer worldwide despite decades of antitubercular drug development. Effectively controlling the tuberculosis (TB) pandemic will require innovation in drug discovery. In this review,...

Compensatory evolution in NusG improves fitness of drug-resistant M. tuberculosis

Eckartt K, Delbeau M, Munsamy-Govender V, DeJesus M, Azadian Z, Reddy A, et al.

Nature . 2024 Mar; 628(8006):186-194. PMID: 38509362

Drug-resistant bacteria are emerging as a global threat, despite frequently being less fit than their drug-susceptible ancestors. Here we sought to define the mechanisms that drive or buffer the fitness...

Beyond antibiotic resistance: The whiB7 transcription factor coordinates an adaptive response to alanine starvation in mycobacteria

Poulton N, DeJesus M, Munsamy-Govender V, Kanai M, Roberts C, Azadian Z, et al.

Cell Chem Biol . 2024 Jan; 31(4):669-682.e7. PMID: 38266648

Pathogenic mycobacteria are a significant cause of morbidity and mortality worldwide. The conserved whiB7 stress response reduces the effectiveness of antibiotic therapy by activating several intrinsic antibiotic resistance mechanisms. Despite...

A dose-response model for statistical analysis of chemical genetic interactions in CRISPRi screens

Choudhery S, DeJesus M, Srinivasan A, Rock J, Schnappinger D, Ioerger T

bioRxiv . 2023 Aug; PMID: 37577548

Beyond antibiotic resistance: the transcription factor coordinates an adaptive response to alanine starvation in mycobacteria

Poulton N, DeJesus M, Munsamy-Govender V, Roberts C, Azadian Z, Bosch B, et al.

bioRxiv . 2023 Jun; PMID: 37333137

Pathogenic mycobacteria are a significant cause of morbidity and mortality worldwide. These bacteria are highly intrinsically drug resistant, making infections challenging to treat. The conserved stress response is a key...

Mutations in Confer Low-Level Resistance to Benzothiazinone DprE1 Inhibitors in Mycobacterium tuberculosis

Poulton N, Azadian Z, DeJesus M, Rock J

Antimicrob Agents Chemother . 2022 Aug; 66(9):e0090422. PMID: 35920665

Tuberculosis (TB) is the leading cause of death from any bacterial infection, causing 1.5 million deaths worldwide each year. Due to the emergence of drug-resistant strains of Mycobacterium tuberculosis (Mtb)...

CRISPRi chemical genetics and comparative genomics identify genes mediating drug potency in Mycobacterium tuberculosis

Li S, Poulton N, Chang J, Azadian Z, DeJesus M, Ruecker N, et al.

Nat Microbiol . 2022 May; 7(6):766-779. PMID: 35637331

Mycobacterium tuberculosis (Mtb) infection is notoriously difficult to treat. Treatment efficacy is limited by Mtb's intrinsic drug resistance, as well as its ability to evolve acquired resistance to all antituberculars...

10.

CRISPR Interference Reveals That All--Retinoic Acid Promotes Macrophage Control of Mycobacterium tuberculosis by Limiting Bacterial Access to Cholesterol and Propionyl Coenzyme A

Babunovic G, DeJesus M, Bosch B, Chase M, Barbier T, Dickey A, et al.

mBio . 2022 Jan; 13(1):e0368321. PMID: 35038923

Macrophages are a protective replicative niche for Mycobacterium tuberculosis (Mtb) but can kill the infecting bacterium when appropriately activated. To identify mechanisms of clearance, we compared levels of bacterial restriction...