AI Article Synopsis
- 2-Phosphoglycolate (PGA) significantly inhibits triosephosphate isomerase (TIM), leading to a slower rate of protein unfolding.
- The analysis of rate constants indicates that both monomeric and dimeric transition states can explain the observations, but thermodynamic data favors the dimeric transition state as the more accurate model.
- The study suggests that the transition states for the forward and backward reactions have similar PGA-binding affinities, hinting at comparable active site structures, while leaving open the possibility of an unstable partially folded monomeric intermediate.
Article Abstract
2-Phosphoglycolate (PGA), a strong competitive inhibitor of the dimeric enzyme triosephosphate isomerase (TIM), brings about a large decrease in the unfolding rate constant of the protein. The data set of rate constants versus ligand concentration may be equally well explained by regarding either a monomeric or a dimeric transition state (TS). However, if the thermodynamics for binding of PGA to native TIM is taken into account, it becomes clear that a dimeric TS is the right assumption. Furthermore, by studying the effect of the ligand on the second-order refolding reaction, we found results indicating similar PGA-binding affinities to be present in the transition states for the rate-limiting steps of the forward and backward reactions. Most likely, therefore, both TS resemble each other in respect to the active site architecture. It should be mentioned, however, that our data do not rule out the possible occurrence of an unstable, (partially) folded monomeric intermediate, which would rapidly interconvert with the unfolded monomer.
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| http://dx.doi.org/10.1016/j.bpc.2006.07.007 | DOI Listing |
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