A complete reference genome improves analysis of human genetic variation

Sergey Aganezov; Stephanie M. Yan; Daniela C. Soto; Melanie Kirsche; Samantha Zarate; Pavel Avdeyev; Dylan J. Taylor; Kishwar Shafin; Alaina Shumate; Chunlin Xiao; Justin Wagner; Jennifer McDaniel; Nathan D. Olson; Michael E.G. Sauria; Mitchell R. Vollger; Arang Rhie; Melissa Meredith; Skylar Martin; Joyce Lee; Sergey Koren; Jeffrey A. Rosenfeld; Benedict Paten; Ryan Layer; Chen Shan Chin; Fritz J. Sedlazeck; Nancy F. Hansen; Danny E. Miller; Adam M. Phillippy; Karen H. Miga; Rajiv C. McCoy; Megan Y. Dennis; Justin M. Zook; Michael C. Schatz

doi:10.1126/science.abl3533

A complete reference genome improves analysis of human genetic variation

Sergey Aganezov, Stephanie M. Yan, Daniela C. Soto, Melanie Kirsche, Samantha Zarate, Pavel Avdeyev, Dylan J. Taylor, Kishwar Shafin, Alaina Shumate, Chunlin Xiao, Justin Wagner, Jennifer McDaniel, Nathan D. Olson, Michael E.G. Sauria, Mitchell R. Vollger, Arang Rhie, Melissa Meredith, Skylar Martin, Joyce Lee, Sergey KorenJeffrey A. Rosenfeld, Benedict Paten, Ryan Layer, Chen Shan Chin, Fritz J. Sedlazeck, Nancy F. Hansen, Danny E. Miller, Adam M. Phillippy, Karen H. Miga, Rajiv C. McCoy, Megan Y. Dennis, Justin M. Zook, Michael C. Schatz

Whiting School of Engineering

Research output: Contribution to journal › Article › peer-review

Abstract

Compared to its predecessors, the Telomere-to-Telomere CHM13 genome adds nearly 200 million base pairs of sequence, corrects thousands of structural errors, and unlocks the most complex regions of the human genome for clinical and functional study. We show how this reference universally improves read mapping and variant calling for 3202 and 17 globally diverse samples sequenced with short and long reads, respectively. We identify hundreds of thousands of variants per sample in previously unresolved regions, showcasing the promise of the T2T-CHM13 reference for evolutionary and biomedical discovery. Simultaneously, this reference eliminates tens of thousands of spurious variants per sample, including reduction of false positives in 269 medically relevant genes by up to a factor of 12. Because of these improvements in variant discovery coupled with population and functional genomic resources, T2T-CHM13 is positioned to replace GRCh38 as the prevailing reference for human genetics.

Original language	English (US)
Article number	eabl3533
Journal	Science
Volume	376
Issue number	6588
DOIs	https://doi.org/10.1126/science.abl3533
State	Published - Apr 1 2022

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Aganezov, S., Yan, S. M., Soto, D. C., Kirsche, M., Zarate, S., Avdeyev, P., Taylor, D. J., Shafin, K., Shumate, A., Xiao, C., Wagner, J., McDaniel, J., Olson, N. D., Sauria, M. E. G., Vollger, M. R., Rhie, A., Meredith, M., Martin, S., Lee, J., ... Schatz, M. C. (2022). A complete reference genome improves analysis of human genetic variation. Science, 376(6588), Article eabl3533. https://doi.org/10.1126/science.abl3533

Aganezov, S, Yan, SM, Soto, DC, Kirsche, M, Zarate, S, Avdeyev, P, Taylor, DJ, Shafin, K, Shumate, A, Xiao, C, Wagner, J, McDaniel, J, Olson, ND, Sauria, MEG, Vollger, MR, Rhie, A, Meredith, M, Martin, S, Lee, J, Koren, S, Rosenfeld, JA, Paten, B, Layer, R, Chin, CS, Sedlazeck, FJ, Hansen, NF, Miller, DE, Phillippy, AM, Miga, KH, McCoy, RC, Dennis, MY, Zook, JM & Schatz, MC 2022, 'A complete reference genome improves analysis of human genetic variation', Science, vol. 376, no. 6588, eabl3533. https://doi.org/10.1126/science.abl3533

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title = "A complete reference genome improves analysis of human genetic variation",

abstract = "Compared to its predecessors, the Telomere-to-Telomere CHM13 genome adds nearly 200 million base pairs of sequence, corrects thousands of structural errors, and unlocks the most complex regions of the human genome for clinical and functional study. We show how this reference universally improves read mapping and variant calling for 3202 and 17 globally diverse samples sequenced with short and long reads, respectively. We identify hundreds of thousands of variants per sample in previously unresolved regions, showcasing the promise of the T2T-CHM13 reference for evolutionary and biomedical discovery. Simultaneously, this reference eliminates tens of thousands of spurious variants per sample, including reduction of false positives in 269 medically relevant genes by up to a factor of 12. Because of these improvements in variant discovery coupled with population and functional genomic resources, T2T-CHM13 is positioned to replace GRCh38 as the prevailing reference for human genetics.",

author = "Sergey Aganezov and Yan, {Stephanie M.} and Soto, {Daniela C.} and Melanie Kirsche and Samantha Zarate and Pavel Avdeyev and Taylor, {Dylan J.} and Kishwar Shafin and Alaina Shumate and Chunlin Xiao and Justin Wagner and Jennifer McDaniel and Olson, {Nathan D.} and Sauria, {Michael E.G.} and Vollger, {Mitchell R.} and Arang Rhie and Melissa Meredith and Skylar Martin and Joyce Lee and Sergey Koren and Rosenfeld, {Jeffrey A.} and Benedict Paten and Ryan Layer and Chin, {Chen Shan} and Sedlazeck, {Fritz J.} and Hansen, {Nancy F.} and Miller, {Danny E.} and Phillippy, {Adam M.} and Miga, {Karen H.} and McCoy, {Rajiv C.} and Dennis, {Megan Y.} and Zook, {Justin M.} and Schatz, {Michael C.}",

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doi = "10.1126/science.abl3533",

language = "English (US)",

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AU - Aganezov, Sergey

AU - Yan, Stephanie M.

AU - Soto, Daniela C.

AU - Kirsche, Melanie

AU - Zarate, Samantha

AU - Avdeyev, Pavel

AU - Taylor, Dylan J.

AU - Shafin, Kishwar

AU - Shumate, Alaina

AU - Xiao, Chunlin

AU - Wagner, Justin

AU - McDaniel, Jennifer

AU - Olson, Nathan D.

AU - Sauria, Michael E.G.

AU - Vollger, Mitchell R.

AU - Rhie, Arang

AU - Meredith, Melissa

AU - Martin, Skylar

AU - Lee, Joyce

AU - Koren, Sergey

AU - Rosenfeld, Jeffrey A.

AU - Paten, Benedict

AU - Layer, Ryan

AU - Chin, Chen Shan

AU - Sedlazeck, Fritz J.

AU - Hansen, Nancy F.

AU - Miller, Danny E.

AU - Phillippy, Adam M.

AU - Miga, Karen H.

AU - McCoy, Rajiv C.

AU - Dennis, Megan Y.

AU - Zook, Justin M.

AU - Schatz, Michael C.

PY - 2022/4/1

Y1 - 2022/4/1

N2 - Compared to its predecessors, the Telomere-to-Telomere CHM13 genome adds nearly 200 million base pairs of sequence, corrects thousands of structural errors, and unlocks the most complex regions of the human genome for clinical and functional study. We show how this reference universally improves read mapping and variant calling for 3202 and 17 globally diverse samples sequenced with short and long reads, respectively. We identify hundreds of thousands of variants per sample in previously unresolved regions, showcasing the promise of the T2T-CHM13 reference for evolutionary and biomedical discovery. Simultaneously, this reference eliminates tens of thousands of spurious variants per sample, including reduction of false positives in 269 medically relevant genes by up to a factor of 12. Because of these improvements in variant discovery coupled with population and functional genomic resources, T2T-CHM13 is positioned to replace GRCh38 as the prevailing reference for human genetics.

AB - Compared to its predecessors, the Telomere-to-Telomere CHM13 genome adds nearly 200 million base pairs of sequence, corrects thousands of structural errors, and unlocks the most complex regions of the human genome for clinical and functional study. We show how this reference universally improves read mapping and variant calling for 3202 and 17 globally diverse samples sequenced with short and long reads, respectively. We identify hundreds of thousands of variants per sample in previously unresolved regions, showcasing the promise of the T2T-CHM13 reference for evolutionary and biomedical discovery. Simultaneously, this reference eliminates tens of thousands of spurious variants per sample, including reduction of false positives in 269 medically relevant genes by up to a factor of 12. Because of these improvements in variant discovery coupled with population and functional genomic resources, T2T-CHM13 is positioned to replace GRCh38 as the prevailing reference for human genetics.

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A complete reference genome improves analysis of human genetic variation

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