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Open Access Research article

Characterisation and expression of microRNAs in developing wings of the neotropical butterfly Heliconius melpomene

Alison K Surridge1, Sara Lopez-Gomollon2, Simon Moxon3, Luana S Maroja14, Tina Rathjen2, Nicola J Nadeau1, Tamas Dalmay2* and Chris D Jiggins1*

Author affiliations

1 Department of Zoology, University of Cambridge, Downing Street, Cambridge. CB2 3EJ. UK

2 School of Biological Sciences, University of East Anglia, Norwich. NR4 7TJ. UK

3 School of Computing Sciences, University of East Anglia, Norwich. NR4 7TJ. UK

4 Williams College, Department of Biology, Williamstown MA 01267. USA

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Citation and License

BMC Genomics 2011, 12:62  doi:10.1186/1471-2164-12-62

Published: 26 January 2011

Abstract

Background

Heliconius butterflies are an excellent system for studies of adaptive convergent and divergent phenotypic traits. Wing colour patterns are used as signals to both predators and potential mates and are inherited in a Mendelian manner. The underlying genetic mechanisms of pattern formation have been studied for many years and shed light on broad issues, such as the repeatability of evolution. In Heliconius melpomene, the yellow hindwing bar is controlled by the HmYb locus. MicroRNAs (miRNAs) are important post-transcriptional regulators of gene expression that have key roles in many biological processes, including development. miRNAs could act as regulators of genes involved in wing development, patterning and pigmentation. For this reason we characterised miRNAs in developing butterfly wings and examined differences in their expression between colour pattern races.

Results

We sequenced small RNA libraries from two colour pattern races and detected 142 Heliconius miRNAs with homology to others found in miRBase. Several highly abundant miRNAs were differentially represented in the libraries between colour pattern races. These candidates were tested further using Northern blots, showing that differences in expression were primarily due to developmental stage rather than colour pattern. Assembly of sequenced reads to the HmYb region identified hme-miR-193 and hme-miR-2788; located 2380 bp apart in an intergenic region. These two miRNAs are expressed in wings and show an upregulation between 24 and 72 hours post-pupation, indicating a potential role in butterfly wing development. A search for miRNAs in all available H. melpomene BAC sequences (~ 2.5 Mb) did not reveal any other miRNAs and no novel miRNAs were predicted.

Conclusions

Here we describe the first butterfly miRNAs and characterise their expression in developing wings. Some show differences in expression across developing pupal stages and may have important functions in butterfly wing development. Two miRNAs were located in the HmYb region and were expressed in developing pupal wings. Future work will examine the expression of these miRNAs in different colour pattern races and identify miRNA targets among wing patterning genes.