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A Hitchhiker's Guide to Supplying Enzymatic Reducing Power into Synthetic Cells. | LitMetric

A Hitchhiker's Guide to Supplying Enzymatic Reducing Power into Synthetic Cells.

ACS Synth Biol

Department of Biochemistry, Groningen Institute of Biomolecular Sciences & Biotechnology, University of Groningen, Nijenborgh 4, 9747 AG Groningen, The Netherlands.

Published: April 2023

AI Article Synopsis

  • The construction of synthetic cells aims to mimic life by assembling molecular building blocks and requires minimal enzymatic modules to manage energy and metabolic processes.* -
  • Essential to this process are nicotinamide cofactors NAD(H) and NADP(H), which act as electron carriers in metabolic redox reactions.* -
  • The text outlines guidelines for creating enzymatic modules that oxidize external electron donors to produce reduced nicotinamide cofactors, while also highlighting the need for specific enzymes to optimize function and reduce interference among metabolic processes.*

Article Abstract

The construction from scratch of synthetic cells by assembling molecular building blocks is unquestionably an ambitious goal from a scientific and technological point of view. To realize functional life-like systems, minimal enzymatic modules are required to sustain the processes underlying the out-of-equilibrium thermodynamic status hallmarking life, including the essential supply of energy in the form of electrons. The nicotinamide cofactors NAD(H) and NADP(H) are the main electron carriers fueling reductive redox reactions of the metabolic network of living cells. One way to ensure the continuous availability of reduced nicotinamide cofactors in a synthetic cell is to build a minimal enzymatic module that can oxidize an external electron donor and reduce NAD(P). In the diverse world of metabolism there is a plethora of potential electron donors and enzymes known from living organisms to provide reducing power to NAD(P) coenzymes. This perspective proposes guidelines to enable the reduction of nicotinamide cofactors enclosed in phospholipid vesicles, while avoiding high burdens of or cross-talk with other encapsulated metabolic modules. By determining key requirements, such as the feasibility of the reaction and transport of the electron donor into the cell-like compartment, we select a shortlist of potentially suitable electron donors. We review the most convenient proteins for the use of these reducing agents, highlighting their main biochemical and structural features. Noting that specificity toward either NAD(H) or NADP(H) imposes a limitation common to most of the analyzed enzymes, we discuss the need for specific enzymes─transhydrogenases─to overcome this potential bottleneck.

Download full-text PDF

Source
http://www.ncbi.nlm.nih.gov/pmc/articles/PMC10127272PMC
http://dx.doi.org/10.1021/acssynbio.3c00070DOI Listing

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