Characterisation of tomato short RNAs involved in fruit development

参与果实发育的番茄短RNA的表征

• 批准号: BB/G008078/1
• 负责人: Tamas Dalmay
• 金额: $ 78.07万
• 依托单位: University of East Anglia
• 依托单位国家: 英国
• 项目类别: Research Grant
• 财政年份: 2009
• 资助国家: 英国
• 起止时间: 2009 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=BB%2FG008078%2F1
• 关键词: Characterisation; tomato; short; RNAs; involved

Most of the RNA molecules in cells are involved in protein production (ribosomal, transfer or messenger RNAs), however there are RNA molecules with other functions. A very recently discovered class of non-coding RNAs have been called microRNAs (miRNAs) because they are very short (19-24 nucleotides). These miRNAs can recognise specific mRNAs because they have partially complementary sequences to them. As a result of this interaction between miRNAs and mRNAs, the expression of the targeted mRNAs is significantly reduced. Most plant miRNAs regulate the production of transcription factors required for normal development of plants. Many miRNAs have been identified in arabidopsis and rice and several miRNAs found in one species were absent from the other suggesting that there are miRNAs which are present only in a certain group of plants. We hypothesized that miRNAs could regulate the development of different plant characteristics that are missing from arabidopsis and rice. If this was true, novel miRNAs regulating valuable plant traits could be discovered in other species. We tested this hypothesis on fleshy fruit development because of its agronomic importance. Tomato is the model plant for fleshy fruit development and ripening; therefore we sequenced more than half a million short RNAs from tomato fruit and leaf. We have demonstrated that conserved miRNAs are present in fruit and that one of them targeted a known transcription factor required for fruit ripening. We also identified four novel miRNAs, which are absent from arabidopsis and other plant genomes and showed that one of them targeted a CTR family (genes that are involved in fruit ripening) member. In addition we identified novel candidates of another class of short RNA that are produced through a different biogenesis pathway than miRNAs. These are called ta-siRNAs and are produced in a phased manner from precursor non-coding RNAs. Our preliminary work demonstrated that the process of fleshy fruit development is regulated by miRNAs and we would like to establish the biological role of the two miRNAs we showed to target ripening genes through transgenic tomato plants that produce more miRNAs or target genes that are resistant to miRNA targeting. We also propose to validate and characterise the ta-siRNA candidates. Further deep sequencing work will establish the expression profile of short RNAs during fruit development and ripening and also identify short RNAs that are regulated by known transcription factors involved in fruit development. Finally, we developed a novel technique to generate a library of mRNAs that are cleaved by short RNAs and we will apply this protocol for tomato fruit tissue. This tool will help target prediction and will have a big impact for crop research. Most crop species' genome is not known and this tool will enable researchers to investigate short RNA targets in these species. Understanding this layer of regulation in fruit development and ripening may lead to the improvement of key characteristics of fleshy fruits.

细胞中的大多数RNA分子都参与蛋白质的产生（核糖体，转移或信使RNA），但也有其他功能的RNA分子。最近发现的一类非编码RNA被称为microRNA（miRNA），因为它们非常短（19-24个核苷酸）。这些miRNAs可以识别特定的mRNAs，因为它们具有与它们部分互补的序列。由于miRNA和mRNA之间的这种相互作用，靶向mRNA的表达显著降低。大多数植物miRNA调节植物正常发育所需的转录因子的产生。在拟南芥和水稻中已经鉴定出许多miRNAs，并且在一个物种中发现的几种miRNAs在另一个物种中不存在，这表明存在仅存在于某一组植物中的miRNAs。我们假设miRNAs可以调节拟南芥和水稻中缺失的不同植物特征的发育。如果这是真的，那么就可以在其他物种中发现调节有价值的植物性状的新型miRNA。我们测试了这一假说的肉质果实的发展，因为它的农学的重要性。番茄是肉质果实发育和成熟的模式植物;因此，我们从番茄果实和叶子中测序了超过50万个短RNA。我们已经证明，保守的miRNA存在于水果中，其中之一靶向水果成熟所需的已知转录因子。我们还鉴定了四种新的miRNAs，它们在拟南芥和其他植物基因组中不存在，并表明其中一种靶向CTR家族（参与果实成熟的基因）成员。此外，我们还发现了另一类短RNA的新候选者，它们是通过与miRNA不同的生物合成途径产生的。这些被称为ta-siRNA，并且以分阶段的方式从前体非编码RNA产生。我们的初步工作表明，肉质果实发育的过程是由miRNAs调控的，我们希望通过产生更多miRNAs或靶基因的转基因番茄植物来确定我们所展示的两种miRNAs靶向成熟基因的生物学作用。我们还建议验证和验证ta-siRNA候选物。进一步的深度测序工作将建立短RNA在果实发育和成熟过程中的表达谱，并鉴定由参与果实发育的已知转录因子调控的短RNA。最后，我们开发了一种新的技术来产生一个由短RNA切割的mRNA库，我们将把这种方法应用于番茄果实组织。该工具将有助于目标预测，并将对作物研究产生重大影响。大多数作物物种的基因组是未知的，这一工具将使研究人员能够研究这些物种中的短RNA靶标。了解这一层在果实发育和成熟中的调节可能会导致肉质果实关键特征的改善。

项目成果

Deciphering the diversity of small RNAs in plants: the long and short of it.

• DOI: 10.1093/bfgp/elp024
• 发表时间: 2009-11
• 期刊: Briefings in functional genomics & proteomics
• 作者: F. Schwach;Simon Moxon;V. Moulton;T. Dalmay

Transcriptional regulation of male-sterility in 7B-1 male-sterile tomato mutant.

• DOI: 10.1371/journal.pone.0170715
• 发表时间: 2017
• 期刊: PloS one
• 影响因子: 3.7
• 作者: Omidvar V;Mohorianu I;Dalmay T;Zheng Y;Fei Z;Pucci A;Mazzucato A;Večeřová V;Sedlářova M;Fellner M
• 通讯作者: Fellner M

PAREsnip: a tool for rapid genome-wide discovery of small RNA/target interactions evidenced through degradome sequencing.

• DOI: 10.1093/nar/gks277
• 发表时间: 2012-07
• 期刊: Nucleic acids research
• 影响因子: 14.9
• 作者: Folkes L;Moxon S;Woolfenden HC;Stocks MB;Szittya G;Dalmay T;Moulton V
• 通讯作者: Moulton V

Reducing ligation bias of small RNAs in libraries for next generation sequencing.

• DOI: 10.1186/1758-907x-3-4
• 发表时间: 2012-05-30
• 期刊: Silence
• 作者: Sorefan K;Pais H;Hall AE;Kozomara A;Griffiths-Jones S;Moulton V;Dalmay T
• 通讯作者: Dalmay T