Abstract
The acquisition of CoIIby the corrin component of vitamin B12follows one of two distinct pathways, referred to as early or late CoIIinsertion. The late insertion pathway exploits a CoIImetallochaperone (CobW) from the COG0523 family of G3E GTPases, while the early insertion pathway does not. This provides an opportunity to contrast the thermodynamics of metalation in a metallochaperone-requiring and a metallochaperone-independent pathway. In the metallochaperone-independent route, sirohydrochlorin (SHC) associates with the CbiK chelatase to form CoII-SHC. CoII-buffered enzymatic assays indicate that SHC binding enhances the thermodynamic gradient for CoIItransfer from the cytosol to CbiK. In the metallochaperone-dependent pathway, hydrogenobyrinic acid a,c-diamide (HBAD) associates with the CobNST chelatase to form CoII-HBAD. Here, CoII-buffered enzymatic assays indicate that CoIItransfer from the cytosol to HBAD-CobNST must somehow traverse a highly unfavorable thermodynamic gradient for CoIIbinding. Notably, there is a favorable gradient for CoIItransfer from the cytosol to the MgIIGTP-CobW metallochaperone, but further transfer of CoIIfrom the GTP-bound metallochaperone to the HBAD-CobNST chelatase complex is thermodynamically unfavorable. However, after nucleotide hydrolysis, CoIItransfer from the chaperone to the chelatase complex is calculated to become favorable. These data reveal that the CobW metallochaperone can overcome an unfavorable thermodynamic gradient for CoIItransfer from the cytosol to the chelatase by coupling this process to GTP hydrolysis.
Original language | English |
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Pages (from-to) | 1472-1483 |
Number of pages | 12 |
Journal | JACS Au |
Volume | 3 |
Issue number | 5 |
Early online date | 10 May 2023 |
DOIs | |
Publication status | Published - 22 May 2023 |
Keywords
- bioinorganic chemistry
- chelatase
- GTPase
- metalation
- metallochaperone
- metalloprotein
- vitamin B