Characterisation of the complete chloroplast genome of Solanum tuberosum cv. White Lady

IF 1.8 4区 生物学 Q3 BIOLOGY Biologia futura Pub Date : 2024-09-09 DOI:10.1007/s42977-024-00240-4
Krisztián Frank, Erzsébet Nagy, János Taller, István Wolf, Zsolt Polgár
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Abstract

Potato (Solanum tuberosum) is considered worldwide as one of the most important non-cereal food crops. As a result of its adaptability and worldwide production area, potato displays a vast phenotypical variability as well as genomic diversity. Chloroplast genomes have long been a core issue in plant molecular evolution and phylogenetic studies, and have an important role in revealing photosynthetic mechanisms, metabolic regulations and the adaptive evolution of plants. We sequenced the complete chloroplast genome of the Hungarian cultivar White Lady, which is 155 549 base pairs (bp) in length and is characterised by the typical quadripartite structure composed of a large- and small single-copy region (85 991 bp and 18 374 bp, respectively) interspersed by two identical inverted repeats (25 592 bp). The genome consists of 127 genes of which 82 are protein-coding, eight are ribosomal RNAs and 37 are transfer RNAs. The overall gene content and distribution of the genes on the White Lady chloroplast was the same as found in other potato chloroplasts. The alignment of S. tuberosum chloroplast genome sequences resulted in a highly resolved tree, with 10 out of the 13 nodes recovered having bootstrap values over 90%. By comparing the White Lady chloroplast genome with available S. tuberosum sequences we found that gene content and synteny are highly conserved. The new chloroplast sequence can support further studies of genetic diversity, resource conservation, evolution and applied agricultural research. The new sequence can support further potato genetic diversity and evolutionary studies, resource conservation, and also applied agricultural research.

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茄科植物 "白娘子 "完整叶绿体基因组的特征描述
马铃薯(Solanum tuberosum)在全世界被视为最重要的非谷类粮食作物之一。由于马铃薯的适应性强且产地遍布全球,因此其表型变异性和基因组多样性都非常大。长期以来,叶绿体基因组一直是植物分子进化和系统发育研究的核心问题,在揭示植物的光合机制、代谢调控和适应性进化方面发挥着重要作用。我们测序了匈牙利栽培品种 "白夫人"(White Lady)的完整叶绿体基因组,该基因组全长 155 549 碱基对(bp),具有典型的四方结构,由一大一小两个单拷贝区(分别为 85 991 bp 和 18 374 bp)和两个相同的倒置重复区(25 592 bp)穿插组成。基因组由 127 个基因组成,其中 82 个是编码蛋白质的基因,8 个是核糖体 RNA,37 个是转移 RNA。白小姐叶绿体上基因的总体含量和分布与其他马铃薯叶绿体相同。S. tuberosum叶绿体基因组序列的比对结果是一棵高度解析的树,13个节点中有10个节点的引导值超过90%。通过比较 "白衣天使 "叶绿体基因组与现有的 S. tuberosum 序列,我们发现基因内容和同源关系高度保守。新的叶绿体序列有助于进一步研究遗传多样性、资源保护、进化和农业应用研究。新序列可进一步支持马铃薯遗传多样性和进化研究、资源保护以及农业应用研究。
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来源期刊
Biologia futura
Biologia futura Agricultural and Biological Sciences-Agricultural and Biological Sciences (all)
CiteScore
3.50
自引率
0.00%
发文量
27
期刊介绍: How can the scientific knowledge we possess now influence that future? That is, the FUTURE of Earth and life − of humankind. Can we make choices in the present to change our future? How can 21st century biological research ask proper scientific questions and find solid answers? Addressing these questions is the main goal of Biologia Futura (formerly Acta Biologica Hungarica). In keeping with the name, the new mission is to focus on areas of biology where major advances are to be expected, areas of biology with strong inter-disciplinary connection and to provide new avenues for future research in biology. Biologia Futura aims to publish articles from all fields of biology.
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