2021
DOI: 10.1002/cctc.202100688
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Recent Developments and Challenges for the Industrial Implementation of Polyphosphate Kinases

Abstract: Polyphosphate kinases (PPKs) have emerged as valuable candidates to address the unmet need for scalable recycling of the common enzyme cofactor adenosine‐5’‐triphosphate (ATP) because they use cheap, freely available and stable polyphosphate (polyP) salts as the phosphate donor. The aim of this review is not only to present recent efforts in the characterisation of PPKs but also to provide an overview of the challenges associated with their implementation in chemical manufacturing. In assessing the current sta… Show more

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Cited by 20 publications
(18 citation statements)
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References 99 publications
(199 reference statements)
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“…Uniquely, the class II P. aeruginosa PPK2C has two fused PPK2 domains: a catalytically inactive N-terminal and an active C-terminal [ 36 ]. A comparison of the above crystal structures revealed a class-specific signature residue located after the Walker B motif: class I is asparagine (N153 in S. meliloti PPK2), class II is glycine (G367 in PA3455), and class III is glutamate (E137 in C. hutchinsonii PPK2) [ 46 , 63 ].…”
Section: Ppk2 Enzymologymentioning
confidence: 99%
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“…Uniquely, the class II P. aeruginosa PPK2C has two fused PPK2 domains: a catalytically inactive N-terminal and an active C-terminal [ 36 ]. A comparison of the above crystal structures revealed a class-specific signature residue located after the Walker B motif: class I is asparagine (N153 in S. meliloti PPK2), class II is glycine (G367 in PA3455), and class III is glutamate (E137 in C. hutchinsonii PPK2) [ 46 , 63 ].…”
Section: Ppk2 Enzymologymentioning
confidence: 99%
“…This marks the first time PPK2s have been shown to use all the natural nucleotides—including thymidine—as substrates, highlighting the potential of these so-called universal PPK2s as tools for biotechnological NTP regeneration [ 66 ]. Specifically, universal PPK2s could be a boon for the regeneration of UTP and CTP required for the enzymatic synthesis of complex glycans [ 59 , 67 , 68 ], in addition to more traditional ATP regeneration systems (reviewed in [ 63 ]).…”
Section: Ppk2 Enzymologymentioning
confidence: 99%
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“…, acetyl phosphate or polyphosphate) , (Figure B). These approaches not only compromise the cost, and atom economy, but also potentially impact the enzyme performance. , Given that electricity is the cheapest alternative energy source and the lowest carbon footprint when produced from renewable sources, here, we report a robust and scalable method to drive the recycling of the ubiquitous cofactor ATP electrochemically (Figure C). In this system, pyruvate is oxidized to CO 2 to produce ATP, effectively providing a simplified electrochemical mimic of the cellular respiration process.…”
Section: Introductionmentioning
confidence: 99%