Deep Conservation of <i>Hid</i>-Like RHG Gene Family Homologs in Winged Insects Revealed by “Taxon Hopping” BLAST
Together with <i>sickle</i> (<i>skl</i>), the <i>Drosophila</i> paralogs <i>reaper</i> (<i>rpr</i>), <i>head involution defective</i> (<i>hid</i>), and <i>grim</i> (RHG) control a critical switch in the i...
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Formato: | article |
Lenguaje: | EN |
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MDPI AG
2021
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Acceso en línea: | https://doaj.org/article/21dd6ccd04164d15ab25d66c7f4efa29 |
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Sumario: | Together with <i>sickle</i> (<i>skl</i>), the <i>Drosophila</i> paralogs <i>reaper</i> (<i>rpr</i>), <i>head involution defective</i> (<i>hid</i>), and <i>grim</i> (RHG) control a critical switch in the induction of programmed cell death. RHG homologs have been identified in other dipteran and lepidopteran species but not beyond. Revisiting this issue with a “taxon hopping” BLAST search strategy in current genome and transcriptome resources, I detected high confidence RHG homologs in Coleoptera, Hymenoptera, Hemiptera, and Dictyoptera. Analyses of gene structure and protein sequence conservation revealed aconserved splicing pattern and highly conserved amino acid residues at both the N- and C-terminal ends that identify <i>hid</i> as the most ancestrally organized RHG gene family member in <i>Drosophila</i>. <i>hid</i>-like RHG homologs were also detected in mosquitoes, redefining their <i>michelob_x</i> (<i>mx</i>) genes as an expansion of derived RHG homologs. Only singleton homologs were detected in the large majority of other insect clades. Lepidopteran RHG homologs, however, stand out by producing an evolutionarily-derived splice isoform, identified in previous work, in addition to the newly detected <i>hid</i>-like isoform. Exceptional sequence diversification of select RHG homologs at the family- and genus-level explain their previous elusiveness in important insect genome model species like the red flour beetle <i>Tribolium castaneum</i> and the pea aphid <i>Acyrthosiphon pisum</i>. Combined, these findings expand the minimal age of the RHG gene family by about 100 million years and open new avenues for molecular cell death studies in insects. |
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