Abstract
Advances in DNA sequencing have made it easier to sequence and assemble plant genomes. Here, we extend an earlier study, and compare recent methods for long read sequencing and assembly. Updated Oxford Nanopore Technology software improved assemblies. Using more accurate sequences produced by repeated sequencing of the same molecule (Pacific Biosciences HiFi) resulted in less fragmented assembly of sequencing reads. Using data for increased genome coverage resulted in longer contigs, but reduced total assembly length and improved genome completeness. The original model species, Macadamia jansenii, was also compared with three other Macadamia species, as well as avocado (Persea americana) and jojoba (Simmondsia chinensis). In these angiosperms, increasing sequence data volumes caused a linear increase in contig size, decreased assembly length and further improved already high completeness. Differences in genome size and sequence complexity influenced the success of assembly. Advances in long read sequencing technology continue to improve plant genome sequencing and assembly. However, results were improved by greater genome coverage, with the amount needed to achieve a particular level of assembly being species dependent.
Highlights
Priyanka Sharma1, Othman Al-Dossary1,2, Bader Alsubaie1,2, Ibrahim Al-Mssallem2, Onkar Nath1, Neena Mitter1, Gabriel Rodrigues Alves Margarido1,4, Bruce Topp1, Valentine Murigneux3, Ardashir Kharabian Masouleh1, Agnelo Furtado1 and Robert J
Results were improved by greater genome coverage, with the amount needed to achieve a particular level of assembly being species dependent
Three other Macadamia species (M. tetraphylla [NCBI:txid512563], M. ternifolia [NCBI:txid4330] and M. integrifolia [NCBI:txid60698]) and jojoba (Simmondsia chinensis [NCBI:txid3999]) were extracted using this method, with minor modifications [6]
Summary
Priyanka Sharma1, Othman Al-Dossary1,2, Bader Alsubaie1,2, Ibrahim Al-Mssallem2, Onkar Nath1, Neena Mitter1, Gabriel Rodrigues Alves Margarido1,4, Bruce Topp1, Valentine Murigneux3, Ardashir Kharabian Masouleh1, Agnelo Furtado1 and Robert J. Using data for increased genome coverage resulted in longer contigs, but reduced total assembly length and improved genome completeness. Advances in long read sequencing technology continue to improve plant genome sequencing and assembly.
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
