Your search keyword '"Finkers, R."' showing total 3 results

1. De novo whole-genome assembly of Chrysanthemum makinoi, a key wild chrysanthemum.

Author

van Lieshout N, van Kaauwen M, Kodde L, Arens P, Smulders MJM, Visser RGF, and Finkers R

Subjects

Diploidy, Genome, High-Throughput Nucleotide Sequencing, Molecular Sequence Annotation, Chrysanthemum genetics

Abstract

Chrysanthemum is among the top 10 cut, potted, and perennial garden flowers in the world. Despite this, to date, only the genomes of two wild diploid chrysanthemums have been sequenced and assembled. Here, we present the most complete and contiguous chrysanthemum de novo assembly published so far, as well as a corresponding ab initio annotation. The cultivated hexaploid varieties are thought to originate from a hybrid of wild chrysanthemums, among which the diploid Chrysanthemum makinoi has been mentioned. Using a combination of Oxford Nanopore long reads, Pacific Biosciences long reads, Illumina short reads, Dovetail sequences, and a genetic map, we assembled 3.1 Gb of its sequence into nine pseudochromosomes, with an N50 of 330 Mb and a BUSCO complete score of 92.1%. Our ab initio annotation pipeline predicted 95,074 genes and marked 80.0% of the genome as repetitive. This genome assembly of C. makinoi provides an important step forward in understanding the chrysanthemum genome, evolution, and history., (© The Author(s) 2021. Published by Oxford University Press on behalf of Genetics Society of America.)

Published

2022

2. Insights from the first genome assembly of Onion (Allium cepa).

Author

Finkers R, van Kaauwen M, Ament K, Burger-Meijer K, Egging R, Huits H, Kodde L, Kroon L, Shigyo M, Sato S, Vosman B, van Workum W, and Scholten O

Subjects

Genome Size, Onions genetics, Repetitive Sequences, Nucleic Acid

Abstract

Onion is an important vegetable crop with an estimated genome size of 16 Gb. We describe the de novo assembly and ab initio annotation of the genome of a doubled haploid onion line DHCU066619, which resulted in a final assembly of 14.9 Gb with an N50 of 464 Kb. Of this, 2.4 Gb was ordered into eight pseudomolecules using four genetic linkage maps. The remainder of the genome is available in 89.6 K scaffolds. Only 72.4% of the genome could be identified as repetitive sequences and consist, to a large extent, of (retro) transposons. In addition, an estimated 20% of the putative (retro) transposons had accumulated a large number of mutations, hampering their identification, but facilitating their assembly. These elements are probably already quite old. The ab initio gene prediction indicated 540,925 putative gene models, which is far more than expected, possibly due to the presence of pseudogenes. Of these models, 47,066 showed RNASeq support. No gene rich regions were found, genes are uniformly distributed over the genome. Analysis of synteny with Allium sativum (garlic) showed collinearity but also major rearrangements between both species. This assembly is the first high-quality genome sequence available for the study of onion and will be a valuable resource for further research., (© The Author(s) 2021. Published by Oxford University Press on behalf of Genetics Society of America.)

Published

2021

3. Solyntus, the New Highly Contiguous Reference Genome for Potato ( Solanum tuberosum ).

Author

van Lieshout N, van der Burgt A, de Vries ME, Ter Maat M, Eickholt D, Esselink D, van Kaauwen MPW, Kodde LP, Visser RGF, Lindhout P, and Finkers R

Subjects

Base Sequence, Genome, Plant, Plant Breeding, Solanum genetics, Solanum tuberosum genetics

Abstract

With the rapid expansion of the application of genomics and sequencing in plant breeding, there is a constant drive for better reference genomes. In potato ( Solanum tuberosum ), the third largest food crop in the world, the related species S. phureja , designated "DM", has been used as the most popular reference genome for the last 10 years. Here, we introduce the de novo sequenced genome of Solyntus as the next standard reference in potato genome studies. A true Solanum tuberosum made up of 116 contigs that is also highly homozygous, diploid, vigorous and self-compatible, Solyntus provides a more direct and contiguous reference then ever before available. It was constructed by sequencing with state-of-the-art long and short read technology and assembled with Canu. The 116 contigs were assembled into scaffolds to form each pseudochromosome, with three contigs to 17 contigs per chromosome. This assembly contains 93.7% of the single-copy gene orthologs from the Solanaceae set and has an N50 of 63.7 Mbp. The genome and related files can be found at https://www.plantbreeding.wur.nl/Solyntus/ With the release of this research line and its draft genome we anticipate many exciting developments in (diploid) potato research., (Copyright © 2020 van Lieshout et al.)

Published

2020