2023
Gaps and complex structurally variant loci in phased genome assemblies
Porubsky D, Vollger M, Harvey W, Rozanski A, Ebert P, Hickey G, Hasenfeld P, Sanders A, Stober C, Consortium H, Korbel J, Paten B, Marschall T, Eichler E, Abel H, Antonacci-Fulton L, Asri M, Baid G, Baker C, Belyaeva A, Billis K, Bourque G, Buonaiuto S, Carroll A, Chaisson M, Chang P, Chang X, Cheng H, Chu J, Cody S, Colonna V, Cook D, Cook-Deegan R, Cornejo O, Diekhans M, Doerr D, Ebert P, Ebler J, Eichler E, Eizenga J, Fairley S, Fedrigo O, Felsenfeld A, Feng X, Fischer C, Flicek P, Formenti G, Frankish A, Fulton R, Gao Y, Garg S, Garrison E, Garrison N, Giron C, Green R, Groza C, Guarracino A, Haggerty L, Hall I, Harvey W, Haukness M, Haussler D, Heumos S, Hickey G, Hoekzema K, Hourlier T, Howe K, Jain M, Jarvis E, Ji H, Kenny E, Koenig B, Kolesnikov A, Korbel J, Kordosky J, Koren S, Lee H, Lewis A, Li H, Liao W, Lu S, Lu T, Lucas J, Magalhães H, Marco-Sola S, Marijon P, Markello C, Marschall T, Martin F, McCartney A, McDaniel J, Miga K, Mitchell M, Monlong J, Mountcastle J, Munson K, Mwaniki M, Nattestad M, Novak A, Nurk S, Olsen H, Olson N, Paten B, Pesout T, Phillippy A, Popejoy A, Porubsky D, Prins P, Puiu D, Rautiainen M, Regier A, Rhie A, Sacco S, Sanders A, Schneider V, Schultz B, Shafin K, Sibbesen J, Sirén J, Smith M, Sofia H, Tayoun A, Thibaud-Nissen F, Tomlinson C, Tricomi F, Villani F, Vollger M, Wagner J, Walenz B, Wang T, Wood J, Zimin A, Zook J. Gaps and complex structurally variant loci in phased genome assemblies. Genome Research 2023, 33: 496-510. PMID: 37164484, PMCID: PMC10234299, DOI: 10.1101/gr.277334.122.Peer-Reviewed Original ResearchConceptsProtein-coding genesGenome assemblyMbp of DNALinked-read dataLarge segmental duplicationsStrand-seqDiversity panelInversion polymorphismHaploid genomeSegmental duplicationsEuchromatic DNAMore haplotypesIdentical repeatsHaploid assembliesVariant lociDNAHaplotypesGenesFrequent expansionAssembly gapsImportant targetAssemblyHuman speciesHuman samplesMBP
2022
Semi-automated assembly of high-quality diploid human reference genomes
Jarvis E, Formenti G, Rhie A, Guarracino A, Yang C, Wood J, Tracey A, Thibaud-Nissen F, Vollger M, Porubsky D, Cheng H, Asri M, Logsdon G, Carnevali P, Chaisson M, Chin C, Cody S, Collins J, Ebert P, Escalona M, Fedrigo O, Fulton R, Fulton L, Garg S, Gerton J, Ghurye J, Granat A, Green R, Harvey W, Hasenfeld P, Hastie A, Haukness M, Jaeger E, Jain M, Kirsche M, Kolmogorov M, Korbel J, Koren S, Korlach J, Lee J, Li D, Lindsay T, Lucas J, Luo F, Marschall T, Mitchell M, McDaniel J, Nie F, Olsen H, Olson N, Pesout T, Potapova T, Puiu D, Regier A, Ruan J, Salzberg S, Sanders A, Schatz M, Schmitt A, Schneider V, Selvaraj S, Shafin K, Shumate A, Stitziel N, Stober C, Torrance J, Wagner J, Wang J, Wenger A, Xiao C, Zimin A, Zhang G, Wang T, Li H, Garrison E, Haussler D, Hall I, Zook J, Eichler E, Phillippy A, Paten B, Howe K, Miga K. Semi-automated assembly of high-quality diploid human reference genomes. Nature 2022, 611: 519-531. PMID: 36261518, PMCID: PMC9668749, DOI: 10.1038/s41586-022-05325-5.Peer-Reviewed Original ResearchConceptsDiploid genome assemblyGenome assemblyProtein-coding genesGlobal genetic variationCurrent human reference genomeDiploid human genomeHigh-quality assemblyAccurate long readsNon-synonymous amino acid changesHuman reference genomeAmino acid changesMost chromosomesReference assemblyReference genomeHuman genomeCentromeric regionsGenetic variationHigh diversityGenome sequencingLong readsSingle nucleotideGenomeAcid changesManual curationBiological genomes