As a step towards simplifying and reducing the cost of haplotype resolved de novo assembly, we describe new methods for accurately phasing nanopore data with the Shasta genome assembler and a modular tool for extending phasing to the chromosome scale called GFAse. We test using new variants of Oxford Nanopore Technologies' (ONT) PromethION sequencing, including those using proximity ligation and show that newer, higher accuracy ONT reads substantially improve assembly quality.
Phased nanopore assembly with Shasta and modular graph phasing with GFAse.
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作者:Lorig-Roach Ryan, Meredith Melissa, Monlong Jean, Jain Miten, Olsen Hugh, McNulty Brandy, Porubsky David, Montague Tessa, Lucas Julian, Condon Chris, Eizenga Jordan, Juul Sissel, McKenzie Sean, Simmonds Sara E, Park Jimin, Asri Mobin, Koren Sergey, Eichler Evan, Axel Richard, Martin Bruce, Carnevali Paolo, Miga Karen, Paten Benedict
| 期刊: | bioRxiv | 影响因子: | 0.000 |
| 时间: | 2023 | 起止号: | 2023 Feb 22 |
| doi: | 10.1101/2023.02.21.529152 | ||
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