Whole-Genome Assembly of Atriplex hortensis L. Using OxfordNanopore Technology with Chromatin-Contact Mapping

Hunt, Spencer Philip

01 July 2019

Atriplex hortensis (2n = 2x = 18, 1C genome size ~1.1 gigabases), also known as garden orach, is a highly nutritious, broadleaf annual of the Amaranthaceae-Chenopodiaceae family that has spread from its native Eurasia to other temperate and subtropical environments worldwide. Atriplex is a highly complex and polyphyletic genus of generally halophytic and/or xerophytic plants, some of which have been used as food sources for humans and animals alike. Although there is some literature describing the taxonomy and ecology of orach, there is a lack of genetic and genomic data that would otherwise help elucidate the genetic variation, phylogenetic position, and future potential of this species. Here, we report the assembly of the first highquality, chromosome-scale reference genome for orach cv. ‘Golden’. Sequence data was produced using Oxford Nanopore’s MinION sequencing technology in conjunction with Illumina short-reads and chromatin-contact mapping. Genome assembly was accomplished using the high-noise, single-molecule sequencing assembler, Canu. The genome is enriched for highly repetitive DNA (68%). The Canu assembly combined with the Hi-C chromatin-proximity data yielded a final assembly containing 1,325 scaffolds with a contig N50 of 98.9 Mb and with 94.7% of the assembly represented in the nine largest, chromosome-scale scaffolds. Sixty-eight percent of the genome was classified as highly repetitive DNA, with the most common repetitive elements being Gypsy and Copia-like LTRs. The annotation was completed using MAKER which identified 31,010 gene models and 2,555 tRNA genes. Completeness of the genome was assessed using the Benchmarking Universal Single Copy Orthologs (BUSCO) platform, which quantifies functional gene content using a large core set of highly conserved orthologous genes (COGs). Of the 1,375 plant-specific COGs in the Embryophyta database, 1,330 (96.7%) were identified in the Atriplex assembly. We also report the results of a resequencing panel consisting of 21 accessions which illustrates a high degree of genetic similarity among cultivars and wild material from various locations in North America and Europe. These genome resources provide vital information to better understand orach and facilitate future study and comparison.

Atriplex hortensis

orach

Oxford Nanopore

DNA sequencing

proximity-guided assembly

genome assembly

Life Sciences

Plant Sciences

The Genome Sequence of Gossypium herbaceum (A1), a Domesticated Diploid Cotton

Freeman, Alex J

01 April 2018

Gossypium herbaceum is a species of cotton native to Africa and Asia. As part of a larger effort to investigate structural variation in assorted diploid and polyploid cotton genomes we have sequenced and assembled the genome of G. herbaceum. Cultivated G. herbaceum is an A1-genome diploid from the Old World (Africa) with a genome size of approximately 1.7 Gb. Long range information is essential in constructing a high-quality assembly, especially when the genome is expected to be highly repetitive. Here we present a quality draft genome of G. herbaceum (cv. Wagad) using a multi-platform sequencing strategy (PacBio RS II, Dovetail Genomics, Phase Genomics, BioNano Genomics). PacBio RS II (60X) long reads were de novo assembled using the CANU assembler. Illumina sequence reads generated from the PROXIMO library method from Phase Genomics, and BioNano high-fidelity whole genome maps were used to further scaffolding. Finally, the assembly was polished using PILON. This multi-platform long range sequencing strategy will help greatly in attaining high quality de novo reconstructions of genomes. This assembly will be used towards comparative analysis with G. arboreum, which is also a domesticated A2-genome diploid. Not only will this provide a quality reference genome for G. herbaceum, it also provides an opportunity to assess recent technologies such as Dovetail Genomics, Phase Genomics, and Bionano Genomics. The G. herbaceum genome sequence serves as an example to the plant genomics community for those who have an interest in using multi-platform sequencing technologies for de novo genome sequencing.

Gossypium

G. herbaceum

cotton

Pacific Biosciences

draft sequence assembly

proximity guided assembly

Life Sciences

Plant Sciences

The Genome of Cañahua: An Emerging Andean Super Grain

Mangelson, Hayley Jennifer

01 May 2019

Chenopodium pallidicaule, known commonly as cañahua, is a semi-domesticated crop grown in high-altitude regions of the Andes. It is an A-genome diploid (2n = 2x = 18) relative of the allotetraploid (AABB) Chenopodium quinoa and shares many of its nutritional benefits. Both species contain a complete protein, a low glycemic index, and offer a wide variety of nutritionally important vitamins and minerals. Due to its minor crop status, few genomic resources for its improvement have been developed. Here we present a fully annotated, reference-quality assembly of cañahua. The reference assembly was developed using a combination of established techniques, including multiple rounds of Hi-C based proximity-guided assembly. The final assembly consists of 4,633 scaffolds with 96.6% of the assembly contained in nine scaffolds representing the nine haploid chromosomes of the species. Repetitive element analysis classified 52.3% of the assembly as repetitive, with the most common (27.3% of assembly) identified as LTR retrotransposons. MAKER annotation of the assembly yielded 22,832 putative genes with an average length of 4.6 Kb. When compared with quinoa, strong patterns of synteny support the hypothesis that cañahua is a close A-genome diploid relative, and thus potentially a model diploid species for genetic analysis and improvement of quinoa. Resequencing and phylogenetic analysis of a diversity panel of 30 cañahua accessions collected from across the Altiplano suggests that coordinated efforts are needed to enhance genetic diversity conservation within ex situ germplasm collections.

Chenopodium pallidicaule

proximity-guided assembly

in vivo Hi-C

Andean crops

genome assembly

Genetics and Genomics

Life Sciences

Plant Sciences