三个高丛蓝莓(Vaccinium corymbosum L.)栽培品种的叶片和微茎的自多倍体化和离体再生

IF 2.3 3区 生物学 Q3 BIOTECHNOLOGY & APPLIED MICROBIOLOGY
Gabriela Jarpa-Tauler, Vera Martínez-Barradas, Jesús Lucina Romero-Romero, Patricio Arce-Johnson
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引用次数: 0

摘要

摘要 蓝莓因其含有植物化学成分和生物活性化合物而成为全球需求量不断增加的水果。蓝莓对健康有益,因此在全球范围内得到推广。为了获得最佳的生长和产量,蓝莓作物需要酸性土壤 pH 值、特定的冷藏时间和充足的大气温度。这种微妙的生产平衡正受到气候变化的严重威胁,除非针对每个气候区开发出新的栽培品种,否则可能会导致产量降低和种植成本增加。因此,当务之急是考虑用更高产、更优质、更能适应当地条件的栽培品种来替代品种。在本研究中,我们采用了多倍体化和体外组织培养的方法来促进变异,为新栽培品种的开发奠定基础。我们报告了通过全基因组复制成功诱导出三个蓝莓栽培品种(即 "Biloxi"、"Legacy "和 "Duke")的八倍体。叶片和微茎外植体在离体培养中分别暴露于 0.1% 秋水仙碱 24 小时和 48 小时。利用 DNA 流式细胞仪分析了 160 个再生芽的多倍体水平后,我们共获得了 18 个突变体,其中包括 8 个混倍体和 10 个八倍体。通过荧光显微镜分析气孔中叶绿体的数量,发现在诱导的八倍体植株中这些细胞器出现了重复。据我们所知,这是首次在三个蓝莓栽培品种--"Biloxi"、"Legacy "和 "Duke"--中成功诱导八倍体,方法是在体外培养中将叶片和微茎外植体暴露于秋水仙素。这项技术有望成为开发改良蓝莓栽培品种的重要工具。主要信息这项研究首次成功诱导了三个蓝莓栽培品种'Biloxi'、'Legacy'和'Duke'的八倍体,其方法是在离体培养中将叶片和微茎外植体暴露于秋水仙素中诱导多倍体化。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Autopolyploidization and in vitro regeneration of three highbush blueberry (Vaccinium corymbosum L.) cultivars from leaves and microstems

Autopolyploidization and in vitro regeneration of three highbush blueberry (Vaccinium corymbosum L.) cultivars from leaves and microstems

Abstract

Blueberries are a fruit with an increasing global demand due to their phytochemical and bioactive compounds content. They are promoted worldwide because of their health benefits. For optimal growth and productivity, blueberry crops need acidic soil pH, specific chilling hours, and an adequate atmospheric temperature. This delicate production equilibrium is under severe threat from climate change, potentially leading to reduced yields and increased cultivation costs unless new cultivars are developed for each edafoclimatic zone. Therefore, considering varietal replacements with more productive cultivars offering higher quality and better adaptability to local conditions is imperative. In this study, we employ polyploidization and in vitro tissue culture to promote variability and lay the foundation for new cultivar development. We report the successful induction of octoploids in three blueberry cultivars, namely ‘Biloxi’, ‘Legacy’, and ‘Duke’, through whole-genome duplication. Leaves and microstem explants were exposed to 0.1% colchicine for 24 and 48 hours in in vitro culture. After analyzing the polyploid level of 160 regenerated shoots using DNA flow cytometry, we obtained a total of 18 mutants, consisting of 8 mixoploids and 10 octoploids. The number of chloroplasts in the stomata was analyzed by fluorescence microscopy, revealing the duplication of these organelles in the induced octoploid plants. To our knowledge, this represents the first successful induction of octoploids in three blueberry cultivars -‘Biloxi,’ ‘Legacy,’ and ‘Duke’- achieved by exposing leaves and microstem explants to colchicine in in vitro culture. This technique holds promise as a valuable tool for the development of improved blueberry cultivars.

Key message

This study presents the first successful induction of octoploids of three blueberry cultivars ‘Biloxi’, ‘Legacy’, and ‘Duke’ by inducing polyploidization exposing leaves and microstems explants to colchicine in in vitro culture.

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来源期刊
Plant Cell, Tissue and Organ Culture
Plant Cell, Tissue and Organ Culture 生物-生物工程与应用微生物
CiteScore
5.40
自引率
13.30%
发文量
203
审稿时长
3.3 months
期刊介绍: This journal highlights the myriad breakthrough technologies and discoveries in plant biology and biotechnology. Plant Cell, Tissue and Organ Culture (PCTOC: Journal of Plant Biotechnology) details high-throughput analysis of gene function and expression, gene silencing and overexpression analyses, RNAi, siRNA, and miRNA studies, and much more. It examines the transcriptional and/or translational events involved in gene regulation as well as those molecular controls involved in morphogenesis of plant cells and tissues. The journal also covers practical and applied plant biotechnology, including regeneration, organogenesis and somatic embryogenesis, gene transfer, gene flow, secondary metabolites, metabolic engineering, and impact of transgene(s) dissemination into managed and unmanaged plant systems.
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