Diverging functions of Scr between embryonic and post-embryonic development in a hemimetabolous insect, Oncopeltus fasciatus

AbstractInsects comprise more than a million species and many authors have attempted to explain this success by evolutionary innovations. A much overlooked evolutionary novelty of insects is the serosa, an extraembryonic epithelium around the yolk and embryo. We have shown previously that this epithelium provides innate immune protection to eggs of the beetle Tribolium castaneum. It remained elusive, however, whether this immune competence evolved in the Tribolium lineage or is ancestral to all insects. Here, we expand our studies to two hemimetabolous insects, the bug Oncopeltus fasciatus and the swarming grasshopper Locusta migratoria. For Oncopeltus, RNA sequencing reveals an extensive response upon infection, including the massive upregulation of antimicrobial peptides (AMPs). We demonstrate antimicrobial activity of these peptides using in vitro bacterial growth assays, and describe two novel AMP families called Serosins and Ovicins. For both insects, qPCRs show immune competence of the eggs when the serosa is present, and in situ hybridizations demonstrate that immune gene expression is localized in the serosa. This first evidence from hemimetabolous insect eggs suggests that immune competence is an ancestral property of the serosa. The evolutionary origin of the serosa with its immune function might have facilitated the spectacular radiation of the insects.

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Functional analyses of tiptop and Antennapedia in the embryonic development of Oncopeltus fasciatus suggests an evolutionary pathway from ground state to insect legs

Development ◽

10.1242/dev.01561 ◽

2004 ◽

Vol 132 (1) ◽

pp. 27-34 ◽

Cited By ~ 15

Author(s):

S. W. Herke

Keyword(s):

Embryonic Development ◽

Ground State ◽

Oncopeltus Fasciatus ◽

Evolutionary Pathway ◽

Functional Analyses

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Development of the Pre-Gnathal Segments of the Insect Head Indicates They Are Not Serial Homologues of Trunk Segments

10.1101/2020.09.16.299289 ◽

2020 ◽

Author(s):

Oren Lev ◽

Ariel D. Chipman

Keyword(s):

Fossil Record ◽

Developmental Differences ◽

Oncopeltus Fasciatus ◽

Arthropod Evolution ◽

Hemimetabolous Insect ◽

Segment Polarity ◽

And Function ◽

Trunk Segments ◽

The Way

AbstractThe three anterior-most segments in arthropods contain the ganglia that make up the arthropod brain. These segments, the pre-gnathal segments, are known to exhibit many developmental differences to other segments, believed to reflect their divergent morphology. We have analyzed the expression and function of the genes involved in the segment-polarity network in the pre-gnathal segments compared with the trunk segments in the hemimetabolous insect Oncopeltus fasciatus. We show that there are fundamental differences in the way the pre-gnathal segments are generated and patterned, relative to all other segments, and that these differences are general to all arthropods. We argue that given these differences, the pre-gnathal segments should not be considered serially homologous to trunk segments. This realization has important implications for our understanding of the evolution of the arthropod head. We suggest a novel scenario for arthropod head evolution that posits duplication of an ancestral single-segmented head into three descendent segments. This scenario is consistent with what we know of head evolution from the fossil record, and helps reconcile some of the debates about early arthropod evolution.

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THE DISTRIBUTION AND IDENTIFICATION OF ESTERASES IN THE DEVELOPING EMBRYO AND YOUNG NYMPH OF THE LARGE MILKWEED BUG, ONCOPELTUS FASCIATUS (DALL.)

Canadian Journal of Zoology ◽

10.1139/z61-063 ◽

1961 ◽

Vol 39 (5) ◽

pp. 589-595 ◽

Cited By ~ 7

Author(s):

E. H. Salkeld

Keyword(s):

Embryonic Development ◽

Esterase Activity ◽

Nerve Cord ◽

Acetylcholinesterase Activity ◽

Oncopeltus Fasciatus ◽

Acetylcholine Esterase ◽

Milkweed Bug ◽

Pericardial Cells

Aromatic esterase (A esterase, organophosphate-resistant esterase), aliesterase (B esterase, organophosphate-sensitive esterase), and acetylcholinesterase were localized in the developing embryo and in the young nymph of the large milkweed bug, Oncopeltus fasciatus (Dall.). The esterase complex varied qualitatively with embryonic development. Aromatic esterase occurred in the 3-day-old embryo, aromatic esterase and acetylcholine-esterase were found in the 4-day-old embryo, while all three esterases occurred in the 5-day-old embryo and in the young nymph. The distribution of each esterase remained fairly constant during embryonic development; aromatic esterase was located in many tissues and cells, aliesterase occurred in the pericardial cells, and acetylcholinesterase was found only in the neuropile of the nerve cord and brain. In the young nymph, the number of sites of aromatic esterase activity was reduced while additional sites of aliesterase occurred; acetylcholinesterase activity remained in the neuropile.

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