Expression Profiling of Candidate Genes in Sugar Beet Leaves Treated with Leonardite-Based Biostimulant

Q2 Biochemistry, Genetics and Molecular Biology

High-Throughput Pub Date : 2019-10-11 DOI:10.3390/ht8040018

H. S. Hajizadeh, B. Heidari, G. Bertoldo, M. Della Lucia, Francesco Magro, C. Broccanello, A. Baglieri, I. Puglisi, A. Squartini, G. Campagna, G. Concheri, S. Nardi, P. Stevanato

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引用次数: 7

Abstract

Leonardite-based biostimulants are a large class of compounds, including humic acid substances. Foliar application of biostimulants at field level improves plant growth, yield and quality through metabolic changes and stimulation of plant proton pumps. The present study aimed at identifying optimum dosage of BLACKJAK, a humic acid-based substance, which is able to modify genes involved in sugar beet growth. Thirty-three genes belonging to various biochemical pathway categories were tested in leaves of treated sugar beet (Beta vulgaris L.) samples to assess gene expression profiling in response to BLACKJAK. Seedlings of a diploid and multigerm variety were grown in plastic pots and sprayed with two dilutions of BLACKJAK (dilution 1:500–1.0 mg C L−1 and dilution 1:1000–0.5 mg C L−1). Leaf samples were collected after 24, 48, and 72 h treatment with BLACKJAK for each dilution. RNA was extracted and the quantification of gene expression was performed while using an OpenArray platform. Results of analysis of variance demonstrated that, 15 genes out of a total of 33 genes tested with OpenArray qPCR were significantly affected by treatment and exposure time. Analysis for annotation of gene products and pathways revealed that genes belonging to the mitochondrial respiratory pathways, nitrogen and hormone metabolisms, and nutrient uptake were up-regulated in the BLACKJAK treated samples. Among the up-regulated genes, Bv_PHT2;1 and Bv_GLN1 expression exerted a 2-fold change in 1:1000 and 1:500 BLACKJAK concentrations. Overall, the gene expression data in the BLACKJAK treated leaves demonstrated the induction of plant growth–related genes that were contributed almost to amino acid and nitrogen metabolism, plant defense system, and plant growth.

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基于Leonardite的生物刺激剂处理甜菜叶片中候选基因的表达谱

Leonardite基生物刺激剂是一大类化合物，包括腐殖酸物质。在田间水平上叶面施用生物刺激剂通过代谢变化和刺激植物质子泵来提高植物生长、产量和质量。本研究旨在确定BLACKJAK的最佳剂量，它是一种基于腐殖酸的物质，能够修饰与甜菜生长有关的基因。在处理过的甜菜（Beta vulgaris L.）样品的叶片中测试了属于各种生化途径类别的33个基因，以评估对BLACKJAK的基因表达谱。二倍体和多代品种的幼苗在塑料盆中生长，并喷洒两种稀释液BLACKJAK（稀释液1:500–1.0 mg C L−1和稀释液1:1000–0.5 mg C L–1）。每次稀释用BLACKJAK处理24、48和72小时后收集叶片样品。提取RNA并在使用OpenArray平台的同时进行基因表达的定量。方差分析结果表明，在用OpenArray qPCR测试的总共33个基因中，有15个基因受到治疗和暴露时间的显著影响。对基因产物和途径的注释分析显示，在BLACKJAK处理的样本中，属于线粒体呼吸途径、氮和激素代谢以及营养吸收的基因上调。在上调的基因中，Bv_PHT2；1和Bv_ GLN1的表达在1:1000和1:500 BLACKJAK浓度下产生2倍的变化。总之，BLACKJAK处理的叶片中的基因表达数据表明，植物生长相关基因的诱导几乎对氨基酸和氮代谢、植物防御系统和植物生长有贡献。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

High-Throughput Biochemistry, Genetics and Molecular Biology-Biotechnology

CiteScore

3.60

自引率

0.00%

发文量

审稿时长

9 weeks

期刊介绍： High-Throughput (formerly Microarrays, ISSN 2076-3905) is a multidisciplinary peer-reviewed scientific journal that provides an advanced forum for the publication of studies reporting high-dimensional approaches and developments in Life Sciences, Chemistry and related fields. Our aim is to encourage scientists to publish their experimental and theoretical results based on high-throughput techniques as well as computational and statistical tools for data analysis and interpretation. The full experimental or methodological details must be provided so that the results can be reproduced. There is no restriction on the length of the papers. High-Throughput invites submissions covering several topics, including, but not limited to: -Microarrays -DNA Sequencing -RNA Sequencing -Protein Identification and Quantification -Cell-based Approaches -Omics Technologies -Imaging -Bioinformatics -Computational Biology/Chemistry -Statistics -Integrative Omics -Drug Discovery and Development -Microfluidics -Lab-on-a-chip -Data Mining -Databases -Multiplex Assays