Computational Identification and Characterization of Putative miRNAs in Nasonia Species

G. Sathyamurthy, N. Swamy
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引用次数: 1

Abstract

MicroRNAs are important at post transcriptional regulation in eukaryotes. Nasonia genus is becoming increasingly popular model in present days due to genetic advantages it possesses over Drosophila. Nasonia species are found distributed throughout the world, expect for N. longicornis, and N. giraulti. In this study, we use the sequential method of blasting all known invertebrate miRNA genes against the Nasonia vitripennis, Nasonia longicornis, and Nasonia giraulti genomes. We identify 40, 31 and 29 putative pre-miRNAs and mature sequences in N. vitripennis, N. giraulti and N. longicornis respectively. A cross species comparison of putative miRNA sequences and their statistical characteristics reveals that there are no huge differences between the species, except for few miRNAs which are reported. We also find that the minimal folding energy index for three Nasonia species pre-miRNA's average is around -0.85 ± 0.11. Further, we report that U is predominant at the 5‘ end of mature sequence, which being a typical characteristic of plant miRNAs. Using MiRanda, we predict nearly 471 potential sites in the N. vitripennis genome. Thus concluding our study to be the beginning of understanding the Nasonia's non coding RNAs and may play an important role in effective pest management in near future.
纳索尼亚种推测mirna的计算鉴定和表征
microrna在真核生物的转录后调控中起着重要作用。由于其具有优于果蝇的遗传优势,鼻索蝇属正成为当今日益流行的模式。除了长角鼻蛛和giraulti外,鼻蛛的种类分布在世界各地。在这项研究中,我们使用序列方法对所有已知的无脊椎动物的miRNA基因针对镜翅Nasonia、长角Nasonia和giraulti基因组进行blast。我们分别鉴定出40个、31个和29个推测的前mirna和成熟序列。对推测的miRNA序列及其统计特征进行跨物种比较发现,除了少数已报道的miRNA外,物种之间没有太大差异。我们还发现,三种纳索尼亚种pre-miRNA的最小折叠能量指数平均值约为-0.85±0.11。此外,我们报道U在成熟序列的5 '端占主导地位,这是植物mirna的典型特征。使用米兰达,我们预测了近471个潜在位点的n.s vitripennis基因组。因此,本研究为了解纳索尼亚的非编码rna奠定了基础,并为今后有效防治纳索尼亚害虫发挥了重要作用。
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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