Enzyme‐Substrate Complex Formation and Electron Transfer in Nitrogenase‐Like Dark‐Operative Protochlorophyllide Oxidoreductase (DPOR)
Giada Bedendi, Plinio Maroni, Ross D. Milton

TL;DR
This paper studies how a key enzyme in photosynthesis, DPOR, forms a complex with its substrate and transfers electrons during a critical reaction.
Contribution
The study reveals the formation of the enzyme–substrate complex and identifies cooperative behavior in DPOR's mechanism.
Findings
The enzyme–substrate complex forms before electron transfer and MgATP hydrolysis.
Rate constants for complex formation and electron transfer show a rate-limiting interplay.
Cooperativity in enzyme–substrate complex formation is observed, potentially influencing enzymatic turnover.
Abstract
Nitrogenase‐like dark‐operative protochlorophyllide oxidoreductase (DPOR) is a two‐component metalloenzyme involved in (bacterio)chlorophyll biosynthesis. DPOR enables photosynthesis in photosynthetic bacteria by catalyzing the MgATP hydrolysis‐dependent, stereoselective two‐electron reduction of protochlorophyllide (Pchlide) to chlorophyllide (Chlide). This requires the repeated transient association of DPOR's two component proteins (BchL and BchNB), and involves a series of individual and unresolved sequence of events (including MgATP‐hydrolysis, electron transfer, protein association/dissociation, substrate binding, etc.). DPOR shares structural and mechanistic similarities with nitrogenase, although the spectroscopic properties of Pchlide and Chlide permit the reaction to be followed in situ with visible spectroscopy. Here, we investigate DPOR's mechanism through vis‐spectroscopy in…
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Taxonomy
TopicsPhotosynthetic Processes and Mechanisms · Metalloenzymes and iron-sulfur proteins · Metal-Catalyzed Oxygenation Mechanisms
