Quantum chemical studies of biochemical reaction mechanisms
Title: |
Quantum chemical studies of biochemical reaction mechanisms |
DNr: |
SNIC 2018/3-632 |
Project Type: |
SNIC Medium Compute |
Principal Investigator: |
Margareta Blomberg <margareta.blomberg@su.se> |
Affiliation: |
Stockholms universitet |
Duration: |
2019-01-01 – 2020-01-01 |
Classification: |
10407 |
Keywords: |
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Abstract
The general goal of my research is to elucidate enzyme mechanisms, in
particular for redox active enzymes containing transition metals. For
this purpose quantum chemical methods (Density Functional Theory, DFT)
are used to study biochemical model systems. My main project concerns mechanisms for enzymes involved in cellular respiration. This means to study the
reduction of
molecular oxygen and proton pumping in cytochrome c oxidase (CcO), the
terminal enzyme in the respiratory chain where oxygen is reduced to
water. Another enzyme of
particular interest in this context is nitric oxide reductase (NOR), which belongs to the same family as cytochrome c oxidase, and which reduces nitric oxide to nitrous oxide and water. The basic mechanisms for both these enzymes have been studied, and several new mechanistic aspects have been established in several publications. Furthermore, certain species of CcO and NOR can use both substrates, molecular oxygen and nitric oxide as substrate. An important approach to learn more about the reaction mechanisms is to make comparisons between the two enzymes for both substrates. We have recently published mechanisms both for oxygen reduction in NOR, and for NO reduction in CcO. During the last couple of years I have developed closer collaborations with the experimental groups working on these enzymes at Stockholm University, which has turned out to be very fruitful.