AI Article Synopsis
- The HUP is an ancient enzyme lineage that includes important aminoacyl tRNA synthetases and enzymes involved in the biosynthesis of key molecules like NAD, FAD, and CoA.
- The evolution of HUP showcases significant structural and functional diversity, particularly in how it catalyzes adenylation through unique ribose binding strategies rather than traditional phosphate binding.
- The study proposes that the HUP evolved from a simpler βαβ fragment, highlighting its ability to adapt and innovate over time while existing independently from other similar enzyme families like the Rossmann fold.
Article Abstract
Among the enzyme lineages that undoubtedly emerged prior to the last universal common ancestor is the so-called HUP, which includes Class I aminoacyl tRNA synthetases (AARSs) as well as enzymes mediating NAD, FAD, and CoA biosynthesis. Here, we provide a detailed analysis of HUP evolution, from emergence to structural and functional diversification. The HUP is a nucleotide binding domain that uniquely catalyzes adenylation via the release of pyrophosphate. In contrast to other ancient nucleotide binding domains with the αβα sandwich architecture, such as P-loop NTPases, the HUP's most conserved feature is not phosphate binding, but rather ribose binding by backbone interactions to the tips of β1 and/or β4. Indeed, the HUP exhibits unusual evolutionary plasticity and, while ribose binding is conserved, the location and mode of binding to the base and phosphate moieties of the nucleotide, and to the substrate(s) reacting with it, have diverged with time, foremost along the emergence of the AARSs. The HUP also beautifully demonstrates how a well-packed scaffold combined with evolvable surface elements promotes evolutionary innovation. Finally, we offer a scenario for the emergence of the HUP from a seed βαβ fragment, and suggest that despite an identical architecture, the HUP and the Rossmann represent independent emergences.
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| http://dx.doi.org/10.1080/10409238.2021.1957764 | DOI Listing |
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