Your search keyword '"Rosleff Soerensen, T"' showing total 2 results

1. A Partially Phase-Separated Genome Sequence Assembly of the Vitis Rootstock 'Börner' ( Vitis riparia × Vitis cinerea ) and Its Exploitation for Marker Development and Targeted Mapping.

Author

Holtgräwe D, Rosleff Soerensen T, Hausmann L, Pucker B, Viehöver P, Töpfer R, and Weisshaar B

Abstract

Grapevine breeding has become highly relevant due to upcoming challenges like climate change, a decrease in the number of available fungicides, increasing public concern about plant protection, and the demand for a sustainable production. Downy mildew caused by Plasmopara viticola is one of the most devastating diseases worldwide of cultivated Vitis vinifera . In modern breeding programs, therefore, genetic marker technologies and genomic data are used to develop new cultivars with defined and stacked resistance loci. Potential sources of resistance are wild species of American or Asian origin. The interspecific hybrid of Vitis riparia Gm 183 x Vitis cinerea Arnold, available as the rootstock cultivar 'Börner,' carries several relevant resistance loci. We applied next-generation sequencing to enable the reliable identification of simple sequence repeats (SSR), and we also generated a draft genome sequence assembly of 'Börner' to access genome-wide sequence variations in a comprehensive and highly reliable way. These data were used to cover the 'Börner' genome with genetic marker positions. A subset of these marker positions was used for targeted mapping of the P. viticola resistance locus, Rpv14 , to validate the marker position list. Based on the reference genome sequence PN40024, the position of this resistance locus can be narrowed down to less than 0.5 Mbp on chromosome 5., (Copyright © 2020 Holtgräwe, Rosleff Soerensen, Hausmann, Pucker, Viehöver, Töpfer and Weisshaar.)

Published

2020

2. Crop wild relative populations of Beta vulgaris allow direct mapping of agronomically important genes.

Author

Capistrano-Gossmann GG, Ries D, Holtgräwe D, Minoche A, Kraft T, Frerichmann SLM, Rosleff Soerensen T, Dohm JC, González I, Schilhabel M, Varrelmann M, Tschoep H, Uphoff H, Schütze K, Borchardt D, Toerjek O, Mechelke W, Lein JC, Schechert AW, Frese L, Himmelbauer H, Weisshaar B, and Kopisch-Obuch FJ

Subjects

Alleles, Crops, Agricultural genetics, Disease Resistance genetics, Ecosystem, Genetic Association Studies, Genetic Variation, Genome, Plant, Geography, Hybridization, Genetic, Open Reading Frames, Phenotype, Plant Breeding, Plant Diseases genetics, Polymorphism, Single Nucleotide, RNA Interference, Beta vulgaris genetics, Contig Mapping, Gene Editing, Genes, Plant

Abstract

Rapid identification of agronomically important genes is of pivotal interest for crop breeding. One source of such genes are crop wild relative (CWR) populations. Here we used a CWR population of <200 wild beets (B. vulgaris ssp. maritima), sampled in their natural habitat, to identify the sugar beet (Beta vulgaris ssp. vulgaris) resistance gene Rz2 with a modified version of mapping-by-sequencing (MBS). For that, we generated a draft genome sequence of the wild beet. Our results show the importance of preserving CWR in situ and demonstrate the great potential of CWR for rapid discovery of causal genes relevant for crop improvement. The candidate gene for Rz2 was identified by MBS and subsequently corroborated via RNA interference (RNAi). Rz2 encodes a CC-NB-LRR protein. Access to the DNA sequence of Rz2 opens the path to improvement of resistance towards rhizomania not only by marker-assisted breeding but also by genome editing.

Published

2017