Primers used in this study.

Primers used in this study.

<div><p>CwlM, identified as an N-acetylmuramoyl-l-alanine amidase, plays crucial roles in the synthesis and remodeling of peptidoglycan in mycobacteria. This protein also appears to participate in both drug susceptibility and tolerance mechanisms within these organisms. In our study, we...

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Bibliographic Details
Main Author: Shufeng Yang (401264) (author)
Other Authors: Yuzhao Ren (22493234) (author), Yu Wu (54264) (author), Xinyang Li (1543561) (author), Xin Liu (43569) (author), Guoying Deng (583775) (author)
Published: 2025
Subjects:
Biophysics
Biochemistry
Microbiology
Cell Biology
Genetics
Pharmacology
Science Policy
Infectious Diseases
Biological Sciences not elsewhere classified
several genes associated
protein also appears
plays crucial roles
employed crispr interference
bacterial cell wall
increased expression levels
towards certain anti
mycobacterium smegmatis </
enhanced antibiotic susceptibility
div >< p
tolerance mechanisms within
rif ), pyrazinamide
inh ), rifampicin
cwlm depletion increased
peptidoglycan synthesis appeared
smegmatis </
increased permeability
tolerance mechanisms
elevated expression
cwlm depletion
type regulator
tuberculosis drugs
resulting effects
pza ),
observed tolerance
line anti
inh might
including isoniazid
hydrazidase along
findings revealed
findings indicate
emb ),
either hydrazidase
drug susceptibility
deplete cwlm
amidase known
alanine amidase
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Summary:<div><p>CwlM, identified as an N-acetylmuramoyl-l-alanine amidase, plays crucial roles in the synthesis and remodeling of peptidoglycan in mycobacteria. This protein also appears to participate in both drug susceptibility and tolerance mechanisms within these organisms. In our study, we employed CRISPR interference (CRISPRi) to deplete CwlM in <i><i>Mycobacterium smegmatis</i></i> (<i><i>M. smegmatis</i></i>) and examined the resulting effects on the susceptibility of mycobacteria to first-line anti-tuberculosis drugs, including isoniazid (INH), rifampicin (RIF), pyrazinamide (PZA), and ethambutol (EMB), as well as the β-lactams cefoxitin and imipenem. Our findings revealed that CwlM depletion increased the susceptibility of the bacterium to RIF, EMB, cefoxitin, and imipenem, while tolerance was heightened against INH and PZA. The enhanced antibiotic susceptibility can primarily be attributed to increased permeability of the bacterial cell wall. Conversely, the observed tolerance to INH might be ascribed to elevated expression of the amidase known as hydrazidase along with its LuxR-type regulator. Furthermore, several genes associated with peptidoglycan synthesis appeared to correlate with increased expression levels of either hydrazidase or its LuxR-type regulator. Collectively, these findings indicate that CwlM depletion significantly influences the susceptibility of <i><i>M. smegmatis</i></i> towards certain anti-tuberculosis drugs and may be implicated in drug susceptibility and tolerance mechanisms in <i><i>M. smegmatis</i></i>.</p></div>

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