Relative quantification of BCL2 mRNA for diagnostic usage needs stable uncontrolled genes as reference.

Relative quantification of BCL2 mRNA for diagnostic usage needs stable uncontrolled genes as reference.

Dysregulation of BCL2 is a pathophysiology observed in haematological malignancies. For implementation of available treatment-options it is preferred to know the relative quantification of BCL2 mRNA with appropriate reference genes. For the choice of reference genes-(i) Reference Genes were selected...

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Main Authors: Nehanjali Dwivedi, Sreejeta Mondal, Smitha P K, Sowmya T, Kartik Sachdeva, Christopher Bathula, Vishnupriyan K, Nataraj K S, Sharat Damodar, Sujan K Dhar, Manjula Das
Format: Article
Language:English
Published: Public Library of Science (PLoS) 2020-01-01
Series:PLoS ONE
Online Access:https://doi.org/10.1371/journal.pone.0236338
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spelling doaj-f657a45c96ac4a52962725f018d0a7202021-03-03T21:58:46ZengPublic Library of Science (PLoS)PLoS ONE1932-62032020-01-01158e023633810.1371/journal.pone.0236338Relative quantification of BCL2 mRNA for diagnostic usage needs stable uncontrolled genes as reference.Nehanjali DwivediSreejeta MondalSmitha P KSowmya TKartik SachdevaChristopher BathulaVishnupriyan KNataraj K SSharat DamodarSujan K DharManjula DasDysregulation of BCL2 is a pathophysiology observed in haematological malignancies. For implementation of available treatment-options it is preferred to know the relative quantification of BCL2 mRNA with appropriate reference genes. For the choice of reference genes-(i) Reference Genes were selected by assessing variation of >60,000 genes from 4 RNA-seq datasets of haematological malignancies followed by filtering based on their GO biological process annotations and proximity of their chromosomal locations to known disease translocations. Selected genes were experimentally validated across various haematological malignancy samples followed by stability comparison using geNorm, NormFinder, BestKeeper and RefFinder. (ii) 43 commonly used Reference Genes were obtained from literature through extensive systematic review. Levels of BCL2 mRNA was assessed by qPCR normalized either by novel reference genes from this study or GAPDH, the most cited reference gene in literature and compared. The analysis showed PTCD2, PPP1R3B and FBXW9 to be the most unregulated genes across lymph-nodes, bone marrow and PBMC samples unlike the Reference Genes used in literature. BCL2 mRNA level shows a consistent higher expression in haematological malignancy patients when normalized by these novel Reference Genes as opposed to GAPDH, the most cited Reference Gene. These reference genes should also be applicable in qPCR platforms using Taqman probes and other model systems including cell lines and rodent models. Absence of sample from healthy-normal individual in diagnostic cases call for careful selection of Reference Genes for relative quantification of a biomarker by qPCR.BCL2 can be used as molecular diagnostics only if normalized with a set of reference genes with stable yet low levels of expression across different types of haematological malignancies.https://doi.org/10.1371/journal.pone.0236338
collection DOAJ
language English
format Article
sources DOAJ
author Nehanjali Dwivedi
Sreejeta Mondal
Smitha P K
Sowmya T
Kartik Sachdeva
Christopher Bathula
Vishnupriyan K
Nataraj K S
Sharat Damodar
Sujan K Dhar
Manjula Das
spellingShingle Nehanjali Dwivedi
Sreejeta Mondal
Smitha P K
Sowmya T
Kartik Sachdeva
Christopher Bathula
Vishnupriyan K
Nataraj K S
Sharat Damodar
Sujan K Dhar
Manjula Das
Relative quantification of BCL2 mRNA for diagnostic usage needs stable uncontrolled genes as reference.
PLoS ONE
author_facet Nehanjali Dwivedi
Sreejeta Mondal
Smitha P K
Sowmya T
Kartik Sachdeva
Christopher Bathula
Vishnupriyan K
Nataraj K S
Sharat Damodar
Sujan K Dhar
Manjula Das
author_sort Nehanjali Dwivedi
title Relative quantification of BCL2 mRNA for diagnostic usage needs stable uncontrolled genes as reference.
title_short Relative quantification of BCL2 mRNA for diagnostic usage needs stable uncontrolled genes as reference.
title_full Relative quantification of BCL2 mRNA for diagnostic usage needs stable uncontrolled genes as reference.
title_fullStr Relative quantification of BCL2 mRNA for diagnostic usage needs stable uncontrolled genes as reference.
title_full_unstemmed Relative quantification of BCL2 mRNA for diagnostic usage needs stable uncontrolled genes as reference.
title_sort relative quantification of bcl2 mrna for diagnostic usage needs stable uncontrolled genes as reference.
publisher Public Library of Science (PLoS)
series PLoS ONE
issn 1932-6203
publishDate 2020-01-01
description Dysregulation of BCL2 is a pathophysiology observed in haematological malignancies. For implementation of available treatment-options it is preferred to know the relative quantification of BCL2 mRNA with appropriate reference genes. For the choice of reference genes-(i) Reference Genes were selected by assessing variation of >60,000 genes from 4 RNA-seq datasets of haematological malignancies followed by filtering based on their GO biological process annotations and proximity of their chromosomal locations to known disease translocations. Selected genes were experimentally validated across various haematological malignancy samples followed by stability comparison using geNorm, NormFinder, BestKeeper and RefFinder. (ii) 43 commonly used Reference Genes were obtained from literature through extensive systematic review. Levels of BCL2 mRNA was assessed by qPCR normalized either by novel reference genes from this study or GAPDH, the most cited reference gene in literature and compared. The analysis showed PTCD2, PPP1R3B and FBXW9 to be the most unregulated genes across lymph-nodes, bone marrow and PBMC samples unlike the Reference Genes used in literature. BCL2 mRNA level shows a consistent higher expression in haematological malignancy patients when normalized by these novel Reference Genes as opposed to GAPDH, the most cited Reference Gene. These reference genes should also be applicable in qPCR platforms using Taqman probes and other model systems including cell lines and rodent models. Absence of sample from healthy-normal individual in diagnostic cases call for careful selection of Reference Genes for relative quantification of a biomarker by qPCR.BCL2 can be used as molecular diagnostics only if normalized with a set of reference genes with stable yet low levels of expression across different types of haematological malignancies.
url https://doi.org/10.1371/journal.pone.0236338
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