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A higher plant FAD synthetase is fused to an inactivated FAD pyrophosphatase

Joseph H. Lynch, Sanja Roje

2022Journal of Biological Chemistry12 citationsDOIOpen Access PDF

Abstract

as the associated divalent metal cation. Like human FAD synthetase, AtFADS1 exists as an apparent fusion with an ancestral FAD pyrophosphatase, a feature that is conserved across plants. However, we detected no pyrophosphatase activity with AtFADS1, consistent with an observed loss of a key catalytic residue in higher plant evolutionary history. In contrast, we determined that algal FADS1 retains both FAD synthetase and pyrophosphatase activity. We discuss the implications, including the potential for yet-unstudied biologically relevant noncatalytic functions, and possible evolutionary pressures that have led to the loss of FAD pyrophosphatase activity, yet universal retention of an apparently nonfunctional domain in FADS of land plants.

Topics & Concepts

PyrophosphataseChemistryBiochemistryInorganic pyrophosphataseEnzymePyrophosphatePlant nutrient uptake and metabolismLipid metabolism and biosynthesisPancreatic function and diabetes
A higher plant FAD synthetase is fused to an inactivated FAD pyrophosphatase | Litcius