AI Article Synopsis
- Doublet microtubules (DMTs) are essential for the protist's ability to swim and cause trichomoniasis, which is the most common non-viral sexually transmitted infection.
- Researchers used cryo-electron microscopy to reveal the structure of DMTs and identified 29 unique proteins, some of which are specific to the parasite and crucial for stabilizing DMTs and locomotion.
- The study also discovered a small molecule, IP6, that may have drug-like properties and could aid in the development of new therapeutics against this infection.
Article Abstract
Doublet microtubules (DMTs) are flagellar components required for the protist () to swim through the human genitourinary tract to cause trichomoniasis, the most common non-viral sexually transmitted disease. Lack of DMT structures has prevented structure-guided drug design to manage infection. Here, we determined the cryo-EM structure of native DMTs, identifying 29 unique proteins, including 18 microtubule inner proteins and 9 microtubule outer proteins. While the A-tubule is simplistic compared to DMTs of other organisms, the B-tubule features specialized, parasite-specific proteins, such as FAP40 and FAP35 that form filaments near the inner and outer junctions, respectively, to stabilize DMTs and enable locomotion. Notably, a small molecule, assigned as IP6, is coordinated within a pocket of FAP40 and has characteristics of a drug molecule. This first atomic model of the DMT highlights the diversity of eukaryotic motility machinery and provides a structural framework to inform rational design of therapeutics.
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Source |
|---|---|
| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11398567 | PMC |
| http://dx.doi.org/10.21203/rs.3.rs-4632384/v1 | DOI Listing |
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