AI Article Synopsis
- Guanine nucleotides can change their shape between North (N) and South (S) conformations, which can affect their interaction with proteins like GTPases.
- Researchers created two types of guanine nucleotide analogues, (N)-GTP and (S)-GTP, to investigate their impact on dynamin, a protein involved in membrane constriction essential for endocytosis.
- The study found that (N)-GTP facilitates dynamin's ability to constrict lipid tubules, while (S)-GTP does not, indicating that the conformation of the guanine nucleotide significantly influences dynamin's function, despite the natural prevalence of (S)-conformation in related structures.
Article Abstract
Guanine nucleotides can flip between a North and South conformation in the ribose moiety. To test the enzymatic activity of GTPases bound to nucleotides in the two conformations, we generated methanocarba guanine nucleotides in the North or South envelope conformations, i.e., (N)-GTP and (S)-GTP, respectively. With dynamin as a model system, we examined the effects of (N)-GTP and (S)-GTP on dynamin-mediated membrane constriction, an activity essential for endocytosis. Dynamin membrane constriction and fission activity are dependent on GTP binding and hydrolysis, but the effect of the conformational state of the GTP nucleotide on dynamin activity is not known. After reconstituting dynamin-mediated lipid tubulation and membrane constriction in vitro, we observed via cryo-electron microscopy (cryo-EM) that (N)-GTP, but not (S)-GTP, enables the constriction of dynamin-decorated lipid tubules. These findings suggest that the activity of dynamin is dependent on the conformational state of the GTP nucleotide. However, a survey of nucleotide ribose conformations associated with dynamin structures in nature shows almost exclusively the (S)-conformation. The explanation for this mismatch of (N) vs. (S) required for GTP analogues in a dynamin-mediated process will be addressed in future studies.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9031165 | PMC |
| http://dx.doi.org/10.3390/biom12040584 | DOI Listing |
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