AI Article Synopsis
- Cyanophycin is a valuable nitrogen reserve biopolymer synthesized by the enzyme cyanophycin synthetase 1 (CphA1), which has various industrial applications.
- CphA1 typically requires existing cyanophycin segments as primers for polymerization, but this study reveals that most CphA1s can function without them due to a unique ability to produce small amounts of cyanophycin independently.
- The research also uncovers a cryptic metallopeptidase-like site in CphA1 that aids in generating primers from these small quantities, leading to more efficient cyanophycin production in organisms where it’s introduced.
Article Abstract
Cyanophycin is a nitrogen reserve biopolymer in many bacteria that has promising industrial applications. Made by cyanophycin synthetase 1 (CphA1), it has a poly-L-Asp backbone with L-Arg residues attached to each aspartate sidechain. CphA1s are thought to typically require existing segments of cyanophycin to act as primers for cyanophycin polymerization. In this study, we show that most CphA1s will not require exogenous primers and discover the surprising cause of primer independence: CphA1 can make minute quantities of cyanophycin without primer, and an unexpected, cryptic metallopeptidase-like active site in the N-terminal domain of many CphA1s digests these into primers, solving the problem of primer availability. We present co-complex cryo-EM structures, make mutations that transition CphA1s between primer dependence and independence, and demonstrate that primer dependence can be a limiting factor for cyanophycin production in heterologous hosts. In CphA1, domains with opposite catalytic activities combine into a remarkable, self-sufficient, biosynthetic nanomachine.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9262961 | PMC |
| http://dx.doi.org/10.1038/s41467-022-31542-7 | DOI Listing |
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