RT Journal Article SR Electronic T1 Genomic signatures of host-specific selection in a parasitic plant JF bioRxiv FD Cold Spring Harbor Laboratory SP 2022.02.01.478712 DO 10.1101/2022.02.01.478712 A1 Emily S. Bellis A1 Clara S. von Münchow A1 Calvins O. Odero A1 Alan Kronberger A1 Elizabeth Kelly A1 Tian Xia A1 Xiuzhen Huang A1 Susann Wicke A1 Steven M. Runo A1 Claude W. dePamphilis A1 Jesse R. Lasky YR 2022 UL http://biorxiv.org/content/early/2022/02/04/2022.02.01.478712.abstract AB Premise Parasitic plants and their hosts are emerging model systems for studying genetic variation in species interactions across environments. The parasitic plant Striga hermonthica (witchweed) attacks a range of cereal crop hosts in Africa. Striga hermonthica exhibits substantial genetic variation in host preference and in specificity versus generalism. Some of this variation is locally adapted, but the genetic basis of specialization on certain hosts is unknown.Methods We present an alignment-free analysis of population diversity in S. hermonthica using whole genome sequencing (WGS) data for 68 individuals from western Kenya. We validate our reference-free approach with germination experiments and a de novo assembled draft genome.Results K-mer based analyses reveal high genome-wide diversity within a single field, similar to values between individuals collected 100 km apart or farther. Analysis of host-associated k-mers implicated genes involved in development of the parasite haustorium (a specialized structure used to establish vascular connections with host roots) and a potential role of chemocyanins in molecular host-parasitic plant interactions. Conversely, no phenotypic or genomic evidence was observed suggesting host-specific selection on parasite response to strigolactones, hormones exuded by host roots and required for parasite germination.Conclusions This study demonstrates the utility of WGS for plant species with large, complex genomes and no available reference. Contrasting with theory emphasizing the role of early recognition loci for genotype specificity, our findings support host-specific selection on later interaction stages, suggesting recurring host-specific selection each generation alternating with homogenizing gene flow.Competing Interest StatementThe authors have declared no competing interest.