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Short amplicon reverse transcription-polymerase chain reaction detects aberrant splicing in genes with low expression in blood missed by ribonucleic acid sequencing analysis for clinical diagnosis

Short amplicon reverse transcription-polymerase chain reaction detects aberrant splicing in genes with low expression in blood missed by ribonucleic acid sequencing analysis for clinical diagnosis
Short amplicon reverse transcription-polymerase chain reaction detects aberrant splicing in genes with low expression in blood missed by ribonucleic acid sequencing analysis for clinical diagnosis
Use of blood RNA sequencing (RNA-seq) as a splicing analysis tool for clinical interpretation of variants of uncertain significance (VUSs) found via whole-genome and exome sequencing can be difficult for genes that have low expression in the blood due to insufficient read count coverage aligned to specific genes of interest. Here, we present a short amplicon reverse transcription-polymerase chain reaction(RT-PCR) for the detection of genes with low blood expression. Short amplicon RT-PCR, is designed to span three exons where an exon harboring a variant is flanked by one upstream and one downstream exon. We tested short amplicon RT-PCRs for genes that have median transcripts per million (TPM) values less than one according to the genotype-tissue expression database. Median TPM values of genes analyzed in this study are SYN1 = 0.8549, COL1A1 = 0.6275, TCF4 = 0.4009, DSP = .2894, TTN = 0.2851, COL5A2 = 0.1036, TERT = 0.04452, NTRK2 = 0.0344, ABCA4 = 0.00744, PRPH = 0, and WT1 = 0. All these genes show insufficient exon-spanning read coverage in our RNA-seq data to allow splicing analysis. We successfully detected all genes tested except PRPH and WT1. Aberrant splicing was detected in SYN1, TCF4, NTRK2, TTN, and TERT VUSs. Therefore, our results show short amplicon RT-PCR is a useful alternative for the analysis of splicing events in genes with low TPM in blood RNA for clinical diagnostics.
RNA-seq, RT-PCR, VUS, aberrant splicing, blood RNA
1059-7794
963-970
Wai, Htoo
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Constable, Matthew
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Drewes, Cosima
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Davies, Ian C
47e20a00-542c-4576-a6f2-f1da9a27e82d
Svobodova, Eliska
1d0d756c-8d1a-4800-814c-886a5d95344e
Dempsey, Esther
a6a2db92-825f-49c6-bbcc-b722db588c59
Saggar, Anand
8302bff6-76d7-4954-9115-bb0d8abb61ab
Mansour, Sahar
fcece354-b435-46fb-8acf-184dad0ed4c2
Douzgou, Sofia
5f39e97a-3015-4224-96d3-af0d085b6ddf
Barr, Kate
65a2fa45-dbd3-48e8-bab7-1d13f9d48ace
Scott, Stephanie
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Hunt, David
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Douglas, Andrew
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Baralle, Diana
faac16e5-7928-4801-9811-8b3a9ea4bb91
Wai, Htoo
4428517b-33b3-42cb-9818-ca64763ab7bc
Constable, Matthew
bb1e97f5-51e1-451f-b2da-410051c92f1c
Drewes, Cosima
65f18dc0-4442-448a-8af0-4221b688761c
Davies, Ian C
47e20a00-542c-4576-a6f2-f1da9a27e82d
Svobodova, Eliska
1d0d756c-8d1a-4800-814c-886a5d95344e
Dempsey, Esther
a6a2db92-825f-49c6-bbcc-b722db588c59
Saggar, Anand
8302bff6-76d7-4954-9115-bb0d8abb61ab
Mansour, Sahar
fcece354-b435-46fb-8acf-184dad0ed4c2
Douzgou, Sofia
5f39e97a-3015-4224-96d3-af0d085b6ddf
Barr, Kate
65a2fa45-dbd3-48e8-bab7-1d13f9d48ace
Scott, Stephanie
ef11fae5-ded0-4f76-8513-94e87f8c871f
Hunt, David
a744ddd0-df7d-44f7-bb9c-c91e188c3bb3
Douglas, Andrew
2c789ec4-a222-43bc-a040-522ca64fea42
Baralle, Diana
faac16e5-7928-4801-9811-8b3a9ea4bb91

Wai, Htoo, Constable, Matthew, Drewes, Cosima, Davies, Ian C, Svobodova, Eliska, Dempsey, Esther, Saggar, Anand, Mansour, Sahar, Douzgou, Sofia, Barr, Kate, Scott, Stephanie, Hunt, David, Douglas, Andrew and Baralle, Diana (2022) Short amplicon reverse transcription-polymerase chain reaction detects aberrant splicing in genes with low expression in blood missed by ribonucleic acid sequencing analysis for clinical diagnosis. Human Mutation, 43 (7), 963-970. (doi:10.1002/humu.24378).

Record type: Article

Abstract

Use of blood RNA sequencing (RNA-seq) as a splicing analysis tool for clinical interpretation of variants of uncertain significance (VUSs) found via whole-genome and exome sequencing can be difficult for genes that have low expression in the blood due to insufficient read count coverage aligned to specific genes of interest. Here, we present a short amplicon reverse transcription-polymerase chain reaction(RT-PCR) for the detection of genes with low blood expression. Short amplicon RT-PCR, is designed to span three exons where an exon harboring a variant is flanked by one upstream and one downstream exon. We tested short amplicon RT-PCRs for genes that have median transcripts per million (TPM) values less than one according to the genotype-tissue expression database. Median TPM values of genes analyzed in this study are SYN1 = 0.8549, COL1A1 = 0.6275, TCF4 = 0.4009, DSP = .2894, TTN = 0.2851, COL5A2 = 0.1036, TERT = 0.04452, NTRK2 = 0.0344, ABCA4 = 0.00744, PRPH = 0, and WT1 = 0. All these genes show insufficient exon-spanning read coverage in our RNA-seq data to allow splicing analysis. We successfully detected all genes tested except PRPH and WT1. Aberrant splicing was detected in SYN1, TCF4, NTRK2, TTN, and TERT VUSs. Therefore, our results show short amplicon RT-PCR is a useful alternative for the analysis of splicing events in genes with low TPM in blood RNA for clinical diagnostics.

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Accepted/In Press date: 31 March 2022
e-pub ahead of print date: 27 April 2022
Published date: July 2022
Additional Information: Funding Information: This study was supported by the National Institute for Health Research (RP-2016-07-011 research professorship awarded to Diana Baralle). The authors would like to thank all the patients recruited for this study and the CRN Musketeers' Memorandum. The authors acknowledge the IRIDIS 4 High Capacity Performance Computer and the supporting team at the University of Southampton. They would also like to thank the technical teams of Duthie and IDS buildings, University of Southampton, for their support in day-to-day lab work. Funding Information: This study was supported by the National Institute for Health Research (RP‐2016‐07‐011 research professorship awarded to Diana Baralle). The authors would like to thank all the patients recruited for this study and the CRN Musketeers' Memorandum. The authors acknowledge the IRIDIS 4 High Capacity Performance Computer and the supporting team at the University of Southampton. They would also like to thank the technical teams of Duthie and IDS buildings, University of Southampton, for their support in day‐to‐day lab work. Publisher Copyright: © 2022 The Authors. Human Mutation published by Wiley Periodicals LLC.
Keywords: RNA-seq, RT-PCR, VUS, aberrant splicing, blood RNA
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Identifiers

Local EPrints ID: 456497
URI: http://eprints.soton.ac.uk/id/eprint/456497
DOI: doi:10.1002/humu.24378
ISSN: 1059-7794
PURE UUID: a35eb732-f4c9-4905-b2ee-d8a3a899ca83
ORCID for Htoo Wai: ORCID iD orcid.org/0000-0002-3560-6980
ORCID for Andrew Douglas: ORCID iD orcid.org/0000-0001-5154-6714
ORCID for Diana Baralle: ORCID iD orcid.org/0000-0003-3217-4833

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Date deposited: 03 May 2022 16:57
Last modified: 17 Mar 2024 07:14

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Contributors

Author: Htoo Wai ORCID iD
Author: Matthew Constable
Author: Cosima Drewes
Author: Ian C Davies
Author: Eliska Svobodova
Author: Esther Dempsey
Author: Anand Saggar
Author: Sahar Mansour
Author: Sofia Douzgou
Author: Kate Barr
Author: Stephanie Scott
Author: David Hunt
Author: Andrew Douglas ORCID iD
Author: Diana Baralle ORCID iD

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