TY - JOUR
T1 - The genome and lifestage-specific transcriptomes of a plant-parasitic nematode and its host reveal susceptibility genes involved in trans-kingdom synthesis of vitamin B5
AU - Siddique, Shahid
AU - Radakovic, Zoran S.
AU - Hiltl, Clarissa
AU - Pellegrin, Clement
AU - Baum, Thomas J.
AU - Beasley, Helen
AU - Bent, Andrew F.
AU - Chitambo, Oliver
AU - Chopra, Divykriti
AU - Danchin, Etienne G.J.
AU - Grenier, Eric
AU - Habash, Samer S.
AU - Hasan, M.S.
AU - Helder, Johannes
AU - Hewezi, Tarek
AU - Holbein, Julia
AU - Holterman, Martijn
AU - Janakowski, Sławomir
AU - Koutsovoulos, Georgios D.
AU - Kranse, Olaf P.
AU - Lozano-Torres, Jose L.
AU - Maier, Tom R.
AU - Masonbrink, Rick E.
AU - Mendy, Badou
AU - Riemer, Esther
AU - Sobczak, Mirosław
AU - Sonawala, Unnati
AU - Sterken, Mark G.
AU - Thorpe, Peter
AU - van Steenbrugge, Joris J.M.
AU - Zahid, Nageena
AU - Grundler, Florian
AU - Eves-van den Akker, Sebastian
PY - 2022/10/19
Y1 - 2022/10/19
N2 - Plant-parasitic nematodes are a major threat to crop production in all agricultural systems. The scarcity of classical resistance genes highlights a pressing need to find new ways to develop nematode-resistant germplasm. Here, we sequence and assemble a high-quality phased genome of the model cyst nematode Heterodera schachtii to provide a platform for the first system-wide dual analysis of host and parasite gene expression over time, covering all major parasitism stages. Analysis of the hologenome of the plant-nematode infection site identified metabolic pathways that were incomplete in the parasite but complemented by the host. Using a combination of bioinformatic, genetic, and biochemical approaches, we show that a highly atypical completion of vitamin B5 biosynthesis by the parasitic animal, putatively enabled by a horizontal gene transfer from a bacterium, is required for full pathogenicity. Knockout of either plant-encoded or now nematode-encoded steps in the pathway significantly reduces parasitic success. Our experiments establish a reference for cyst nematodes, further our understanding of the evolution of plant-parasitism by nematodes, and show that congruent differential expression of metabolic pathways in the infection hologenome represents a new way to find nematode susceptibility genes. The approach identifies genome-editing-amenable targets for future development of nematode-resistant crops.
AB - Plant-parasitic nematodes are a major threat to crop production in all agricultural systems. The scarcity of classical resistance genes highlights a pressing need to find new ways to develop nematode-resistant germplasm. Here, we sequence and assemble a high-quality phased genome of the model cyst nematode Heterodera schachtii to provide a platform for the first system-wide dual analysis of host and parasite gene expression over time, covering all major parasitism stages. Analysis of the hologenome of the plant-nematode infection site identified metabolic pathways that were incomplete in the parasite but complemented by the host. Using a combination of bioinformatic, genetic, and biochemical approaches, we show that a highly atypical completion of vitamin B5 biosynthesis by the parasitic animal, putatively enabled by a horizontal gene transfer from a bacterium, is required for full pathogenicity. Knockout of either plant-encoded or now nematode-encoded steps in the pathway significantly reduces parasitic success. Our experiments establish a reference for cyst nematodes, further our understanding of the evolution of plant-parasitism by nematodes, and show that congruent differential expression of metabolic pathways in the infection hologenome represents a new way to find nematode susceptibility genes. The approach identifies genome-editing-amenable targets for future development of nematode-resistant crops.
U2 - 10.1038/s41467-022-33769-w
DO - 10.1038/s41467-022-33769-w
M3 - Article
C2 - 36261416
AN - SCOPUS:85140270723
SN - 2041-1723
VL - 13
JO - Nature Communications
JF - Nature Communications
M1 - 6190
ER -