RNA Analysis Enables Resolution and Reclassification of Reportedly Benign Synonymous Variants

Adina Fuchs; Inbar Kobal; Dov Popper; Shay Porat; Joshua I. Rosenbloom; Mordechai Slae; Shira Yanovsky Dagan; Vardiella Meiner; Vered Molho-Pessach; Hagit Daum; Tamar Harel

doi:10.1111/cge.14772

RNA Analysis Enables Resolution and Reclassification of Reportedly Benign Synonymous Variants

Adina Fuchs
, Inbar Kobal
, Dov Popper
, Shay Porat
, Joshua I. Rosenbloom
, Mordechai Slae
, Shira Yanovsky Dagan
, Vardiella Meiner
, Vered Molho-Pessach
, Hagit Daum^*
, Tamar Harel^*

^*Corresponding author for this work

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

Abstract

Synonymous variants can significantly impact protein levels and function, particularly through alterations in RNA processing. Consequently, variant classification must consider the broader impact on RNA splicing. We present three cases where synonymous variants were detected through exome sequencing. The variants in LARS1 and POLE were located at the last nucleotide of the exon (i.e., splice donor site), while the COL2A1 variant was located three nucleotides downstream of the splice acceptor site. Two variants were previously classified in ClinVar as “likely benign.” Segregation analysis confirmed segregation of the variants with the phenotype in available family members, and RNA studies revealed exon skipping in conserved regions of the protein, leading to reclassification of these variants as “likely pathogenic” and ultimately improving clinical management. These findings highlight the importance of incorporating RNA-based testing to directly evaluate splicing effects and demonstrate the critical role of RNA analysis in the accurate interpretation of variants and their implications for diagnosis and treatment.

Original language	English
Pages (from-to)	599-603
Number of pages	5
Journal	Clinical Genetics
Volume	108
Issue number	5
DOIs	https://doi.org/10.1111/cge.14772
State	Published - Nov 2025

Bibliographical note

Publisher Copyright:
© 2025 The Author(s). Clinical Genetics published by John Wiley & Sons Ltd.

Keywords

COL2A1
LARS1
POLE
RNA analysis
exome sequencing
synonymous variants

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10.1111/cge.14772

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title = "RNA Analysis Enables Resolution and Reclassification of Reportedly Benign Synonymous Variants",

abstract = "Synonymous variants can significantly impact protein levels and function, particularly through alterations in RNA processing. Consequently, variant classification must consider the broader impact on RNA splicing. We present three cases where synonymous variants were detected through exome sequencing. The variants in LARS1 and POLE were located at the last nucleotide of the exon (i.e., splice donor site), while the COL2A1 variant was located three nucleotides downstream of the splice acceptor site. Two variants were previously classified in ClinVar as “likely benign.” Segregation analysis confirmed segregation of the variants with the phenotype in available family members, and RNA studies revealed exon skipping in conserved regions of the protein, leading to reclassification of these variants as “likely pathogenic” and ultimately improving clinical management. These findings highlight the importance of incorporating RNA-based testing to directly evaluate splicing effects and demonstrate the critical role of RNA analysis in the accurate interpretation of variants and their implications for diagnosis and treatment.",

keywords = "COL2A1, LARS1, POLE, RNA analysis, exome sequencing, synonymous variants",

author = "Adina Fuchs and Inbar Kobal and Dov Popper and Shay Porat and Rosenbloom, \{Joshua I.\} and Mordechai Slae and \{Yanovsky Dagan\}, Shira and Vardiella Meiner and Vered Molho-Pessach and Hagit Daum and Tamar Harel",

note = "Publisher Copyright: {\textcopyright} 2025 The Author(s). Clinical Genetics published by John Wiley \& Sons Ltd.",

year = "2025",

month = nov,

doi = "10.1111/cge.14772",

language = "אנגלית",

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AU - Kobal, Inbar

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AU - Porat, Shay

AU - Rosenbloom, Joshua I.

AU - Slae, Mordechai

AU - Yanovsky Dagan, Shira

AU - Meiner, Vardiella

AU - Molho-Pessach, Vered

AU - Daum, Hagit

AU - Harel, Tamar

PY - 2025/11

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N2 - Synonymous variants can significantly impact protein levels and function, particularly through alterations in RNA processing. Consequently, variant classification must consider the broader impact on RNA splicing. We present three cases where synonymous variants were detected through exome sequencing. The variants in LARS1 and POLE were located at the last nucleotide of the exon (i.e., splice donor site), while the COL2A1 variant was located three nucleotides downstream of the splice acceptor site. Two variants were previously classified in ClinVar as “likely benign.” Segregation analysis confirmed segregation of the variants with the phenotype in available family members, and RNA studies revealed exon skipping in conserved regions of the protein, leading to reclassification of these variants as “likely pathogenic” and ultimately improving clinical management. These findings highlight the importance of incorporating RNA-based testing to directly evaluate splicing effects and demonstrate the critical role of RNA analysis in the accurate interpretation of variants and their implications for diagnosis and treatment.

AB - Synonymous variants can significantly impact protein levels and function, particularly through alterations in RNA processing. Consequently, variant classification must consider the broader impact on RNA splicing. We present three cases where synonymous variants were detected through exome sequencing. The variants in LARS1 and POLE were located at the last nucleotide of the exon (i.e., splice donor site), while the COL2A1 variant was located three nucleotides downstream of the splice acceptor site. Two variants were previously classified in ClinVar as “likely benign.” Segregation analysis confirmed segregation of the variants with the phenotype in available family members, and RNA studies revealed exon skipping in conserved regions of the protein, leading to reclassification of these variants as “likely pathogenic” and ultimately improving clinical management. These findings highlight the importance of incorporating RNA-based testing to directly evaluate splicing effects and demonstrate the critical role of RNA analysis in the accurate interpretation of variants and their implications for diagnosis and treatment.

KW - COL2A1

KW - LARS1

KW - POLE

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KW - exome sequencing

KW - synonymous variants

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ER -

RNA Analysis Enables Resolution and Reclassification of Reportedly Benign Synonymous Variants

Abstract

Bibliographical note

Keywords

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