Haplotype-aware Inference of Human Chromosome Abnormalities

Overview

Journal Proc Natl Acad Sci U S A

Specialty Science

Date 2021 Nov 13

PMID 34772814

Citations 11

Authors

Daniel Ariad

Stephanie M Yan

Andrea R Victor

Frank L Barnes

Christo G Zouves

Manuel Viotti

Rajiv C McCoy

Affiliations

Soon will be listed here.

Abstract

Extra or missing chromosomes-a phenomenon termed aneuploidy-frequently arise during human meiosis and embryonic mitosis and are the leading cause of pregnancy loss, including in the context of in vitro fertilization (IVF). While meiotic aneuploidies affect all cells and are deleterious, mitotic errors generate mosaicism, which may be compatible with healthy live birth. Large-scale abnormalities such as triploidy and haploidy also contribute to adverse pregnancy outcomes, but remain hidden from standard sequencing-based approaches to preimplantation genetic testing for aneuploidy (PGT-A). The ability to reliably distinguish meiotic and mitotic aneuploidies, as well as abnormalities in genome-wide ploidy, may thus prove valuable for enhancing IVF outcomes. Here, we describe a statistical method for distinguishing these forms of aneuploidy based on analysis of low-coverage whole-genome sequencing data, which is the current standard in the field. Our approach overcomes the sparse nature of the data by leveraging allele frequencies and linkage disequilibrium (LD) measured in a population reference panel. The method, which we term LD-informed PGT-A (LD-PGTA), retains high accuracy down to coverage as low as 0.05 × and at higher coverage can also distinguish between meiosis I and meiosis II errors based on signatures spanning the centromeres. LD-PGTA provides fundamental insight into the origins of human chromosome abnormalities, as well as a practical tool with the potential to improve genetic testing during IVF.

Citing Articles

A method for determining potential parental contamination: linkage disequilibrium-based log-likelihood ratio analysis for IVF-PGT.

Bo L, Dong F, Wu Z, Zhou A, Zhang Y, Kong L Reprod Biol Endocrinol. 2024; 22(1):129.

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Aligning genotyping and copy number data in single trophectoderm biopsies for aneuploidy prediction: uncovering incomplete concordance.

De Witte L, Baetens M, Tilleman K, Vanden Meerschaut F, Janssens S, Van Tongerloo A Hum Reprod Open. 2024; 2024(4):hoae056.

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A single-cell transcriptome atlas of human euploid and aneuploid blastocysts.

Wang S, Leng L, Wang Q, Gu Y, Li J, An Y Nat Genet. 2024; 56(7):1468-1481.

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Recurrent neural network for predicting absence of heterozygosity from low pass WGS with ultra-low depth.

Tang F, Wang Z, Sun Y, Fan L, Yang Y, Guo X BMC Genomics. 2024; 25(1):470.

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A comprehensive preimplantation genetic testing approach for SEA-type α-thalassemia by fluorescent gap-polymerase chain reaction combined with haplotype analysis.

Wang J, Ma Y, Guo J, Li R, Zhou C, Xu Y Front Genet. 2023; 14:1248358.

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