Abstract
Management of the agricultural pathogen soybean cyst nematode (SCN) relies on the use of SCN-resistant soybean cultivars, a strategy that has been failing in recent years. An underutilized source of resistance in the soybean genotype Peking is linked to two polymorphisms in serine hydroxy-methyltransferase 8 (SHMT8). SHMT is a pyridoxal 5'-phosphate-dependent enzyme that converts l-serine and (6S)-tetrahydrofolate to glycine and 5,10-methylenetetrahydrofolate. Here, we determined five crystal structures of the 1884-residue SHMT8 tetramers from the SCN-susceptible cultivar (cv.) Essex and the SCN-resistant cv. Forrest (whose resistance is derived from the SHMT8 polymorphisms in Peking); the crystal structures were determined in complex with various ligands at 1.4-2.35 Å resolutions. We find that the two Forrest-specific polymorphic substitutions (P130R and N358Y) impact the mobility of a loop near the entrance of the (6S)-tetrahydrofolate-binding site. Ligand-binding and kinetic studies indicate severely reduced affinity for folate and dramatically impaired enzyme activity in Forrest SHMT8. These findings imply widespread effects on folate metabolism in soybean cv. Forrest that have implications for combating the widespread increase in virulent SCN.
Highlights
Management of the agricultural pathogen soybean cyst nematode (SCN) relies on the use of SCN-resistant soybean cultivars, a strategy that has been failing in recent years
Forrest; the crystal structures were determined in complex with various ligands at 1.4 –2.35 Å resolutions
We present a detailed biochemical and structural analysis of soybean serine hydroxy-methyltransferase 8 (SHMT8), one of only a few from the plant kingdom and the first from an agriculturally relevant species to be so characterized
Summary
Management of the agricultural pathogen soybean cyst nematode (SCN) relies on the use of SCN-resistant soybean cultivars, a strategy that has been failing in recent years. Ligandbinding and kinetic studies indicate severely reduced affinity for folate and dramatically impaired enzyme activity in Forrest SHMT8 These findings imply widespread effects on folate metabolism in soybean cv. Management of SCN infection relies almost exclusively on the use of SCN-resistant soybean cultivars (1). This approach has become less effective over time (2) as nematodes have adapted to the current source of resistance derived from plant introduction (PI) 88788, which is present in more than 95% of commercially available resistant cultivars (cvs.). Because all but one soybeanproducing state in the United States have reported SCN infestations, there is an urgent agricultural need for new sources of SCN resistance
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