- Main
Gaps and complex structurally variant loci in phased genome assemblies
- Porubsky, David;
- Vollger, Mitchell R;
- Harvey, William T;
- Rozanski, Allison N;
- Ebert, Peter;
- Hickey, Glenn;
- Hasenfeld, Patrick;
- Sanders, Ashley D;
- Stober, Catherine;
- Consortium, Human Pangenome Reference;
- Korbel, Jan O;
- Paten, Benedict;
- Marschall, Tobias;
- Eichler, Evan E;
- Abel, Haley J;
- Antonacci-Fulton, Lucinda L;
- Asri, Mobin;
- Baid, Gunjan;
- Baker, Carl A;
- Belyaeva, Anastasiya;
- Billis, Konstantinos;
- Bourque, Guillaume;
- Buonaiuto, Silvia;
- Carroll, Andrew;
- Chaisson, Mark JP;
- Chang, Pi-Chuan;
- Chang, Xian H;
- Cheng, Haoyu;
- Chu, Justin;
- Cody, Sarah;
- Colonna, Vincenza;
- Cook, Daniel E;
- Cook-Deegan, Robert M;
- Cornejo, Omar E;
- Diekhans, Mark;
- Doerr, Daniel;
- Ebert, Peter;
- Ebler, Jana;
- Eichler, Evan E;
- Eizenga, Jordan M;
- Fairley, Susan;
- Fedrigo, Olivier;
- Felsenfeld, Adam L;
- Feng, Xiaowen;
- Fischer, Christian;
- Flicek, Paul;
- Formenti, Giulio;
- Frankish, Adam;
- Fulton, Robert S;
- Gao, Yan;
- Garg, Shilpa;
- Garrison, Erik;
- Garrison, Nanibaa’ A;
- Giron, Carlos Garcia;
- Green, Richard E;
- Groza, Cristian;
- Guarracino, Andrea;
- Haggerty, Leanne;
- Hall, Ira M;
- Harvey, William T;
- Haukness, Marina;
- Haussler, David;
- Heumos, Simon;
- Hickey, Glenn;
- Hoekzema, Kendra;
- Hourlier, Thibaut;
- Howe, Kerstin;
- Jain, Miten;
- Jarvis, Erich D;
- Ji, Hanlee P;
- Kenny, Eimear E;
- Koenig, Barbara A;
- Kolesnikov, Alexey;
- Korbel, Jan O;
- Kordosky, Jennifer;
- Koren, Sergey;
- Lee, HoJoon;
- Lewis, Alexandra P;
- Li, Heng;
- Liao, Wen-Wei;
- Lu, Shuangjia;
- Lu, Tsung-Yu;
- Lucas, Julian K;
- Magalhães, Hugo;
- Marco-Sola, Santiago;
- Marijon, Pierre;
- Markello, Charles;
- Marschall, Tobias;
- Martin, Fergal J;
- McCartney, Ann;
- McDaniel, Jennifer;
- Miga, Karen H;
- Mitchell, Matthew W;
- Monlong, Jean;
- Mountcastle, Jacquelyn;
- Munson, Katherine M;
- Mwaniki, Moses Njagi;
- Nattestad, Maria;
- Novak, Adam M;
- Nurk, Sergey;
- Olsen, Hugh E;
- Olson, Nathan D;
- Paten, Benedict;
- Pesout, Trevor;
- Phillippy, Adam M;
- Popejoy, Alice B;
- Porubsky, David;
- Prins, Pjotr;
- Puiu, Daniela;
- Rautiainen, Mikko;
- Regier, Allison A;
- Rhie, Arang;
- Sacco, Samuel;
- Sanders, Ashley D;
- Schneider, Valerie A;
- Schultz, Baergen I;
- Shafin, Kishwar;
- Sibbesen, Jonas A;
- Sirén, Jouni;
- Smith, Michael W;
- Sofia, Heidi J;
- Tayoun, Ahmad N Abou;
- Thibaud-Nissen, Françoise;
- Tomlinson, Chad;
- Tricomi, Francesca Floriana;
- Villani, Flavia;
- Vollger, Mitchell R;
- Wagner, Justin;
- Walenz, Brian;
- Wang, Ting;
- Wood, Jonathan MD;
- Zimin, Aleksey V;
- Zook, Justin M
- et al.
Published Web Location
https://doi.org/10.1101/gr.277334.122Abstract
There has been tremendous progress in phased genome assembly production by combining long-read data with parental information or linked-read data. Nevertheless, a typical phased genome assembly generated by trio-hifiasm still generates more than 140 gaps. We perform a detailed analysis of gaps, assembly breaks, and misorientations from 182 haploid assemblies obtained from a diversity panel of 77 unique human samples. Although trio-based approaches using HiFi are the current gold standard, chromosome-wide phasing accuracy is comparable when using Strand-seq instead of parental data. Importantly, the majority of assembly gaps cluster near the largest and most identical repeats (including segmental duplications [35.4%], satellite DNA [22.3%], or regions enriched in GA/AT-rich DNA [27.4%]). Consequently, 1513 protein-coding genes overlap assembly gaps in at least one haplotype, and 231 are recurrently disrupted or missing from five or more haplotypes. Furthermore, we estimate that 6-7 Mbp of DNA are misorientated per haplotype irrespective of whether trio-free or trio-based approaches are used. Of these misorientations, 81% correspond to bona fide large inversion polymorphisms in the human species, most of which are flanked by large segmental duplications. We also identify large-scale alignment discontinuities consistent with 11.9 Mbp of deletions and 161.4 Mbp of insertions per haploid genome. Although 99% of this variation corresponds to satellite DNA, we identify 230 regions of euchromatic DNA with frequent expansions and contractions, nearly half of which overlap with 197 protein-coding genes. Such variable and incompletely assembled regions are important targets for future algorithmic development and pangenome representation.
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