AI Article Synopsis
- - Polyketide synthases (PKSs) typically produce a variety of natural products but rarely include sulfur-containing compounds, leading to an investigation of thiocysteine lyase (SH) domains involved in biosynthesizing the leinamycin family, like LnmJ-SH and GnmT-SH.
- - A detailed study was conducted using a 1.8 Å resolution crystal structure of GnmT-SH, alongside synthesized substrate mimics and various techniques such as bioinformatics and mutagenesis, to understand the acyl carrier protein (ACP)-tethered substrate interactions and specificity of the SH domains.
- - The research highlights evolutionary modifications in protein structures that allow for the accommodation of larger ACP-t
Article Abstract
Polyketide synthases (PKSs) are renowned for the structural diversity of the polyketide natural products they produce, but sulfur-containing functionalities are rarely installed by PKSs. We previously characterized thiocysteine lyase (SH) domains involved in the biosynthesis of the leinamycin (LNM) family of natural products, exemplified by LnmJ-SH and guangnanmycin (GnmT-SH). Here we report a detailed investigation into the PLP-dependent reaction catalyzed by the SH domains, guided by a 1.8 Å resolution crystal structure of GnmT-SH. A series of elaborate substrate mimics were synthesized to answer specific questions garnered from the crystal structure and from the biosynthetic logic of the LNM family of natural products. Through a combination of bioinformatics, molecular modeling, in vitro assays, and mutagenesis, we have developed a detailed model of acyl carrier protein (ACP)-tethered substrate-SH, and interdomain interactions, that contribute to the observed substrate specificity. Comparison of the GnmT-SH structure with archetypical PLP-dependent enzyme structures revealed how Nature, via evolution, has modified a common protein structural motif to accommodate an ACP-tethered substrate, which is significantly larger than any of those previously characterized. Overall, this study demonstrates how PLP-dependent chemistry can be incorporated into the context of PKS assembly lines and sets the stage for engineering PKSs to produce sulfur-containing polyketides.
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| http://dx.doi.org/10.1021/jacs.4c11656 | DOI Listing |
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