Identifying Virulence Determinants In Pathogenic Mycobacteria Via Changes In Host Cell Mitochondrial Morphology

Identifying Virulence Determinants In Pathogenic Mycobacteria Via Changes In Host Cell Mitochondrial Morphology

Publication date: Nov 08, 2024

The goal of this study is to develop a computational model of the progression of changes in mitochondrial phenotype resulting from infection with pathogenic mycobacteria. This ultimately will enable a large-scale virulence screen of mutant bacterial libraries. Mycobacterium tuberculosis (Mtb) is an intracellular pathogen, but only a small number of its genes have been studied for roles in intracellular host cell survival and replication. Mitochondria are the powerhouse of the host cell and play critical roles in cell survival when attacked by certain pathogens. When Mtb bacteria invade host cells, they induce changes in mitochondrial morphology, making mitochondria a novel target for image processing and machine learning to determine virulence associations of genes in Mtb and potentially other related intracellular pathogens. By hypothesizing mitochondria as an instance of a dynamic and interconnected graph, we demonstrate a statistical approach for quantitatively recognizing novel mitochondrial phenotypes induced by invading pathogens.

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Concepts Keywords
5r21ai151453 Esat
Biochemistry Fig
Eclipse Host
Hacker Infected
Pathogenic Infection
Mitochondria
Mitochondrial
Mmar
Morphology
Mtb
Mutant
Pathogens
Pp
Virulence
Vol

Semantics

Type Source Name
disease IDO virulence
disease MESH infection
disease IDO pathogen
disease IDO replication
disease IDO cell
disease IDO bacteria
disease IDO host
disease MESH Infectious Diseases
disease MESH death
drug DRUGBANK Aspartame
drug DRUGBANK Indoleacetic acid
drug DRUGBANK Kanamycin
drug DRUGBANK Geneticin
drug DRUGBANK Amikacin
drug DRUGBANK Pidolic Acid
drug DRUGBANK Esomeprazole
disease IDO process
drug DRUGBANK Ranitidine
drug DRUGBANK Coenzyme M
disease MESH tuberculosis
pathway KEGG Tuberculosis
drug DRUGBANK BCG vaccine

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