2020
DOI: 10.1002/cne.24960
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A crabs' high‐order brain center resolved as a mushroom body‐like structure

Abstract: The hypothesis of a common origin for high-order memory centers in bilateral animals presents the question of how different brain structures, such as the vertebrate hippocampus and the arthropod mushroom bodies, are both structurally and functionally comparable. Obtaining evidence to support the hypothesis that crustaceans possess structures equivalent to the mushroom bodies that play a role in associative memories has proved challenging. Structural evidence supports that the hemiellipsoid bodies of hermit cra… Show more

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Cited by 12 publications
(23 citation statements)
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“…Reniform bodies and mushroom bodies are each defined by their own distinctive set of morphological traits (Table 1), those of reniform bodies identified from observations of Stomatopoda and the crab Hemigrapsus nudus (Thoen et al, 2020). Some of those traits are indeed recognized by Maza et al (2020) but interpreted as belonging to an insect‐like mushroom body. Invariant features of the reniform body morphology that might be mistaken for mushroom body traits include a dense group of quite small perikarya, numbering in the hundreds, situated on the dorsal surface of the lateral protocerebrum.…”
Section: The Reniform Body Does Not Correspond To the Canonical Mushroom Bodymentioning
confidence: 89%
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“…Reniform bodies and mushroom bodies are each defined by their own distinctive set of morphological traits (Table 1), those of reniform bodies identified from observations of Stomatopoda and the crab Hemigrapsus nudus (Thoen et al, 2020). Some of those traits are indeed recognized by Maza et al (2020) but interpreted as belonging to an insect‐like mushroom body. Invariant features of the reniform body morphology that might be mistaken for mushroom body traits include a dense group of quite small perikarya, numbering in the hundreds, situated on the dorsal surface of the lateral protocerebrum.…”
Section: The Reniform Body Does Not Correspond To the Canonical Mushroom Bodymentioning
confidence: 89%
“…Confidence in this yardstick makes it possible to recognize even radical departures from the ground pattern and to detect possible misidentifications (Strausfeld & Sayre, 2021). A recent example of misidentification is exemplified by two papers claiming that in a species of Brachyura (crabs) the reniform body, as recognized in Stomatopoda, is homologous to the insect mushroom body (see, Maza et al, 2020; Maza, Sztarker, et al, 2016).…”
Section: Introductionmentioning
confidence: 99%
“…As demonstrated previously and again here, large DC0-positive domains cover much of the varunid lateral protocerebrum, suggesting relatively enormous (for an arthropod) learning and memory neuropils (Strausfeld et al, 2020). The proposition that the reniform body is the crab’s mushroom body (Maza et al, 2016, 2020) is refuted by Golgi impregnations and 3-D reconstructions of the lateral protocerebrum demonstrating the reniform body as entirely distinct from the huge DC0-positive mushroom body adjacent to it ( Figure 11 ).…”
Section: Discussionmentioning
confidence: 99%
“…Historically, identifying a mushroom body homologue in the crab's brain has been problematic. Claims for homologous centers range from paired neuropils in the brain's second segment, the deutocerebrum, later attributed to the olfactory system (Bethe 1897), to an insistence that the crab's reniform body is a mushroom body (Maza et al, 2016(Maza et al, , 2020.…”
Section: Introductionmentioning
confidence: 99%
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