RNA‐seq‐based selection of reference genes for RT‐qPCR analysis of pitaya

RNA‐seq‐based selection of reference genes for RT‐qPCR analysis of pitaya

Reverse‐transcription quantitative real‐time PCR (RT‐qPCR) is a primary tool for measuring gene expression levels, and selection of appropriate reference genes is crucial for accurate and reproducible results of gene expression under various experimental conditions. However, no systematic evaluation...

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Main Authors: Quandong Nong, Yongchao Yang, Mingyong Zhang, Mei Zhang, Jiantong Chen, Shuguang Jian, Hongfang Lu, Kuaifei Xia
Format: Article
Language:English
Published: Wiley 2019-08-01
Series:FEBS Open Bio
Subjects:
gene expression
pitaya
reference gene
RNA‐seq
RT‐qPCR
Online Access:https://doi.org/10.1002/2211-5463.12678
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spelling doaj-508ff80f2e2a464d882c24b9aaa622a52020-11-25T03:26:57ZengWileyFEBS Open Bio2211-54632019-08-01981403141210.1002/2211-5463.12678RNA‐seq‐based selection of reference genes for RT‐qPCR analysis of pitayaQuandong Nong0Yongchao Yang1Mingyong Zhang2Mei Zhang3Jiantong Chen4Shuguang Jian5Hongfang Lu6Kuaifei Xia7Key Laboratory of South China Agricultural Plant Molecular Analysis and Genetic Improvement South China Botanical Garden Chinese Academy of Sciences Guangzhou ChinaWenshan Academy of Agricultural Sciences ChinaKey Laboratory of South China Agricultural Plant Molecular Analysis and Genetic Improvement South China Botanical Garden Chinese Academy of Sciences Guangzhou ChinaGuangdong Provincial Key laboratory of Applied Botany South China Botanical Garden Chinese Academy of Sciences Guangzhou ChinaKey Laboratory of South China Agricultural Plant Molecular Analysis and Genetic Improvement South China Botanical Garden Chinese Academy of Sciences Guangzhou ChinaGuangdong Provincial Key laboratory of Applied Botany South China Botanical Garden Chinese Academy of Sciences Guangzhou ChinaGuangdong Provincial Key laboratory of Applied Botany South China Botanical Garden Chinese Academy of Sciences Guangzhou ChinaKey Laboratory of South China Agricultural Plant Molecular Analysis and Genetic Improvement South China Botanical Garden Chinese Academy of Sciences Guangzhou ChinaReverse‐transcription quantitative real‐time PCR (RT‐qPCR) is a primary tool for measuring gene expression levels, and selection of appropriate reference genes is crucial for accurate and reproducible results of gene expression under various experimental conditions. However, no systematic evaluation of reference genes in pitaya (Hylocereus undatus Britt.) has been performed. Here, we examined the expression of five candidate reference genes, namely elongation factor 1‐alpha (HuEF1‐α), 18S ribosomal RNA (Hu18S rRNA), ubiquitin (HuUBQ), actin (HuACT), and ubiquitin‐conjugating enzyme (HuUQT), under different conditions in pitaya. The expression stabilities of these five genes were evaluated using two computation programs: geNorm and NormFinder. The results were further validated by normalizing the expression of the phosphoglycerate kinase (HuPGK) and ethylene‐responsive transcription factor (HuERF) genes. Our results indicate that combined use of HuUBQ and HuUQT is the most stable reference under all of the experimental conditions examined. HuEF1‐α, HuUBQ, and HuUQT are the top three most stable reference genes under salt stress, drought stress, and heat stress, and across different cultivars. HuEF1‐α, HuACT, and HuUQT exhibited the most stable expression patterns across different tissues. Our results will allow researchers to select the most appropriate reference genes for gene expression studies of pitaya under different conditions.https://doi.org/10.1002/2211-5463.12678gene expressionpitayareference geneRNA‐seqRT‐qPCR
collection DOAJ
language English
format Article
sources DOAJ
author Quandong Nong
Yongchao Yang
Mingyong Zhang
Mei Zhang
Jiantong Chen
Shuguang Jian
Hongfang Lu
Kuaifei Xia
spellingShingle Quandong Nong
Yongchao Yang
Mingyong Zhang
Mei Zhang
Jiantong Chen
Shuguang Jian
Hongfang Lu
Kuaifei Xia
RNA‐seq‐based selection of reference genes for RT‐qPCR analysis of pitaya
FEBS Open Bio
gene expression
pitaya
reference gene
RNA‐seq
RT‐qPCR
author_facet Quandong Nong
Yongchao Yang
Mingyong Zhang
Mei Zhang
Jiantong Chen
Shuguang Jian
Hongfang Lu
Kuaifei Xia
author_sort Quandong Nong
title RNA‐seq‐based selection of reference genes for RT‐qPCR analysis of pitaya
title_short RNA‐seq‐based selection of reference genes for RT‐qPCR analysis of pitaya
title_full RNA‐seq‐based selection of reference genes for RT‐qPCR analysis of pitaya
title_fullStr RNA‐seq‐based selection of reference genes for RT‐qPCR analysis of pitaya
title_full_unstemmed RNA‐seq‐based selection of reference genes for RT‐qPCR analysis of pitaya
title_sort rna‐seq‐based selection of reference genes for rt‐qpcr analysis of pitaya
publisher Wiley
series FEBS Open Bio
issn 2211-5463
publishDate 2019-08-01
description Reverse‐transcription quantitative real‐time PCR (RT‐qPCR) is a primary tool for measuring gene expression levels, and selection of appropriate reference genes is crucial for accurate and reproducible results of gene expression under various experimental conditions. However, no systematic evaluation of reference genes in pitaya (Hylocereus undatus Britt.) has been performed. Here, we examined the expression of five candidate reference genes, namely elongation factor 1‐alpha (HuEF1‐α), 18S ribosomal RNA (Hu18S rRNA), ubiquitin (HuUBQ), actin (HuACT), and ubiquitin‐conjugating enzyme (HuUQT), under different conditions in pitaya. The expression stabilities of these five genes were evaluated using two computation programs: geNorm and NormFinder. The results were further validated by normalizing the expression of the phosphoglycerate kinase (HuPGK) and ethylene‐responsive transcription factor (HuERF) genes. Our results indicate that combined use of HuUBQ and HuUQT is the most stable reference under all of the experimental conditions examined. HuEF1‐α, HuUBQ, and HuUQT are the top three most stable reference genes under salt stress, drought stress, and heat stress, and across different cultivars. HuEF1‐α, HuACT, and HuUQT exhibited the most stable expression patterns across different tissues. Our results will allow researchers to select the most appropriate reference genes for gene expression studies of pitaya under different conditions.
topic gene expression
pitaya
reference gene
RNA‐seq
RT‐qPCR
url https://doi.org/10.1002/2211-5463.12678
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