Selection and validation of suitable reference genes for gene expression studies in Callerya speciosa (Champ. ex Benth.) Schot under different experimental conditions

ACS Agricultural Science & Technology Pub Date : 2022-02-03 DOI:10.21203/rs.3.rs-1291888/v1

Linchan Yu, R. Ming, Ding Huang, Chunmei Qin, Liangbo Li, Y. Tan, Rongshao Huang, S. Yao

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Abstract

The accuracy of reverse transcription quantitative real-time PCR (RT-qPCR) is strongly depended on the stability of reference gene. Callerya speciosa, as a traditionally Chinese medicine, has a long cultivation history in south China. It is essential to select the suitable reference gene to obtain reliable RT-qPCR results when gene expression changes were evaluated. However, suitable reference genes in C. speciosa have not yet been investigated for accurate gene expression quantification under different experimental conditions. In this study, eight candidate reference genes (GAPDH, 60S, ACTIN, TUA2, TUB1, TIF5, UBQ, EF2) were selected from the transcriptome databases, and their expression stability under six experimental conditions (developmental stages, tissues, MeJA treatment, GA3 treatment, CPPU and PP333 treatment) was evaluated using ΔCT, geNorm, NormFinder, BestKeeper, RefFinder programs. The results showed that GAPDH was the optimal reference gene for all different experimental conditions, whereas ACTIN showed the most stability under the hormone treatments in C. speciosa. GAPDH and EF2 were proved to be the most stable genes for developmental stages, while different genes (GAPDH and TUB1) were stable reference genes for tissues. For treatments, ACTIN was identified as the most stable gene under most of hormone treatments. TUBI and ACTIN were at the beginning of the ranking order in PP333 treatment, while GAPDH and ACTIN were adequate for normalization in MeJA and GA3 treatments. TUBI and GAPDH were the most stable genes for CPPU treatment, while ACTIN was proved to be the most stable gene for three different treatments (MeJA, GA3 and PP333). Validation of reference genes was carried out by the target gene CsMYB36, which further confirmed their reliability. These results provided a theoretical basis for subsequent research on the regulation of functional gene expression in C. speciosa.

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芥蓝基因表达研究合适内参基因的选择与验证。Benth交货)。在不同的实验条件下

逆转录实时定量PCR (RT-qPCR)的准确性很大程度上取决于内参基因的稳定性。木参是一种传统中药，在中国南方有着悠久的栽培历史。在评估基因表达变化时，选择合适的内参基因以获得可靠的RT-qPCR结果至关重要。然而，在不同的实验条件下，尚没有合适的参比基因用于准确的基因表达定量研究。本研究从转录组数据库中选取8个候选内参基因(GAPDH、60S、ACTIN、TUA2、TUB1、TIF5、UBQ、EF2)，利用ΔCT、geNorm、NormFinder、BestKeeper、RefFinder等程序评估其在6个实验条件(发育阶段、组织、MeJA处理、GA3处理、CPPU和PP333处理)下的表达稳定性。结果表明，GAPDH在不同实验条件下均为最佳内参基因，而ACTIN在激素处理下稳定性最强。GAPDH和EF2是发育阶段最稳定的基因，而GAPDH和TUB1是组织稳定的内参基因。对于治疗，在大多数激素治疗中，ACTIN被认为是最稳定的基因。在PP333治疗中，TUBI和ACTIN排在首位，而在MeJA和GA3治疗中，GAPDH和ACTIN足以达到正常化。TUBI和GAPDH是CPPU治疗中最稳定的基因，而ACTIN是MeJA、GA3和PP333三种不同治疗中最稳定的基因。通过目的基因CsMYB36对内参基因进行验证，进一步证实了内参基因的可靠性。这些结果为后续研究C. speciosa功能性基因表达调控提供了理论基础。

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ACS Agricultural Science & Technology

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