Blood feeding (hematophagy) is widespread across Diptera (true flies), yet the underlying genetic basis remains poorly understood. Using phylogenomics, we show that four gene families associated with neuromodulation, immune responses, embryonic development, and iron metabolism have undergone independent expansions within mosquitoes and sandflies. Our findings illuminate the underlying genetic basis for blood-feeding adaptations in these important disease vectors.
Devilliers, J., Warren, B., Rosato, E., Kyriacou, C.P., Feuda, R. (2025). Hematophagy Generates a Convergent Genomic Signature in Mosquitoes and Sandflies. GENOME BIOLOGY AND EVOLUTION, 17(3), 1-9 [10.1093/gbe/evaf044].
Hematophagy Generates a Convergent Genomic Signature in Mosquitoes and Sandflies
Feuda R.
Ultimo
Conceptualization
2025
Abstract
Blood feeding (hematophagy) is widespread across Diptera (true flies), yet the underlying genetic basis remains poorly understood. Using phylogenomics, we show that four gene families associated with neuromodulation, immune responses, embryonic development, and iron metabolism have undergone independent expansions within mosquitoes and sandflies. Our findings illuminate the underlying genetic basis for blood-feeding adaptations in these important disease vectors.| File | Dimensione | Formato | |
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hematofagy.pdf
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evaf044_supplementary_data.zip
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