How many neuroblasts build mushroom bodies in Lucilia caesar L. and Musca domestica L. (Diptera, Brachycera Cyclorrhapha)?

@article{Panov2009HowMN,
  title={How many neuroblasts build mushroom bodies in Lucilia caesar L. and Musca domestica L. (Diptera, Brachycera Cyclorrhapha)?},
  author={A. Panov},
  journal={Biology Bulletin},
  year={2009},
  volume={36},
  pages={598-606}
}
  • A. Panov
  • Published 2009
  • Biology, Medicine
  • Biology Bulletin
The green-bottle fly Lucilia caesar and the housefly Musca domestica differ greatly in the number of neuroblasts producing mushroom bodies. Four neuroblasts were found in each mushroom body of Lucilia pupae, and its calyx has a quadruple structure. In the housefly, the number of mushroom body neuroblasts rises up 20 in each brain hemisphere. This leads to a more complicated calyx structure. The neuroblast number observed in Lucilia and Musca is compared with that found in other Diptera. 
Diversity in neuroblast number forming mushroom bodies of the higher dipterans (Insecta, Diptera, Brachycera Cyclorrhapha)
  • A. Panov
  • Biology, Medicine
  • Biology Bulletin
  • 2011
TLDR
A hypothesis on the origin of the polyneuroblastic structure of mushroom bodies found in C. vicina and, earlier, in Musca domestica, is proposed. Expand
Histological structure of tripartite mushroom bodies in ground beetles (Insecta, Coleoptera: Carabidae)
  • A. Panov
  • Biology, Medicine
  • Biology Bulletin
  • 2013
TLDR
It has been pointed out that a new formation of the Kenyon cells occurs during at least the first months of adult life, and inactive neuroblasts are found even in one-year-old beetles. Expand
A novel, unusual (at least for beetles) mode of Kenyon cell production in the diving beetle Cybister lateralimarginalis Deg. (Coleoptera: Dytiscidae)
  • A. Panov
  • Biology, Medicine
  • Biology Bulletin
  • 2014
Kenyon cell production in the mushroom bodies of Cybister lateralimarginalis is a peculiar process. It has been found that each proliferative center contains one giant neuroblast, which dividesExpand
Structure of the mushroom bodies in Scarabaeoidea (Insecta: Coleoptera): 1. Basal families and coprophagous scarabaeidae
TLDR
The calyx region of basal Scarabaeoidea resembles greatly the calyx of many dipterans, and may be connected with the complicated social behavior of Passalidae. Expand
A subpopulation of mushroom body intrinsic neurons is generated by protocerebral neuroblasts in the tobacco hornworm moth, Manduca sexta (Sphingidae, Lepidoptera).
TLDR
Findings challenge the notion that all Kenyon cells are produced solely by the mushroom body neuroblasts, and may explain why Class III Ken Lyon cells are found sporadically across the insects, suggesting that when present, they may arise through de novo recruitment of neuroblast outside of the mushroom bodies. Expand
Structure of cephalic ganglia and their changes in the post-embryonic development of Calliphora vomitoria (L.) (Diptera, Calliphoridae)
TLDR
Based on the degree of development of ganglia of the central nervous system of Calliphora vomitoria larvae, it is concluded that individual development of higher Diptera is characterized by deep de-embryonization. Expand

References

SHOWING 1-10 OF 29 REFERENCES
General structure of the mushroom body calyx in brachycera orthorrhapha flies (Diptera)
  • A. Panov
  • Biology, Medicine
  • Biology Bulletin
  • 2009
TLDR
The mushroom body calyx in Brachycera Orthorrhapha flies is extremely diverse in the degree of development, with the most complex structure of the calyx characteristic of the families Empididae and especially Bombyliidae, in which it has all the parts. Expand
The Drosophila mushroom body is a quadruple structure of clonal units each of which contains a virtually identical set of neurones and glial cells.
TLDR
It is shown that the four mushroom body neuroblasts (MBNbs) give birth exclusively to the neurones and glial cells of the MB, and that each of the four MBNb clones contributes to the entire MB structure. Expand
Metamorphosis and adult development of the mushroom bodies of the red flour beetle, Tribolium castaneum
TLDR
The present account bridges the gap by demonstrating that the organization of the Tribolium mushroom bodies is strikingly like that of the fruit fly, with the significant exception that the timeline of neurogenesis is shifted so that the last population of Kenyon cells is born entirely after adult eclosion. Expand
Larval and pupal development of the mushroom bodies in the honey bee, Apis mellifera
TLDR
This is the first comprehensive study of larval and pupal development of the honey bee mushroom bodies and similarities to patterns of neurogenesis observed in the mushroom bodies of other insects and in the vertebrate cerebral cortex are discussed. Expand
Morphology of the larval and adult brains of the monarch butterfly, Danaus plexippus plexippus, L.
TLDR
Major differences between larval and adult brains are clearly related to the increased dependence of the adult upon sensory input from the eyes and antennae. Expand
Development of the Drosophila mushroom bodies: sequential generation of three distinct types of neurons from a neuroblast.
TLDR
The cellular organization of mushroom bodies and the development of different MB neurons at the single cell level is illustrated to allow for future studies on the molecular mechanisms of mushroom body development. Expand
The Corpora Pedunculata of Sphinx ligustri L. and Other Lepidoptera: An Anatomical Study
The corpora pedunculata, or mushroom bodies, are paired lobes of neuropile present in the protocerebrum or dorsal brain of all insects. They are divisible into three parts: calyx, stalk and roots.Expand
Embryonic and larval development of the Drosophila mushroom bodies: concentric layer subdivisions and the role of fasciclin II.
TLDR
High-resolution neuroanatomical studies of the embryonic and post-embryonic development of the Drosophila MBs uncover unexpected internal complexity of the larval MBs and demonstrate unique aspects of neural generation and axonal sorting processes during thedevelopment of the complex brain centers in the fruit fly brain. Expand
Early steps in building the insect brain: neuroblast formation and segmental patterning in the developing brain of different insect species.
TLDR
It is shown that basic aspects of the spatial and temporal development of the embryonic brain neuroblast pattern are conserved among insects and the number and proliferation patterns of neuroblasts related to major neuropil structures such as mushroom bodies, central complex, and antennal lobe are compared. Expand
The mushroom bodies of Drosophila melanogaster: An immunocytological and golgi study of Kenyon cell organization in the calyces and lobes
TLDR
Golgi impregnations reveal a variety of dendritic morphologies amongst Kenyon cells in the mushroom bodies of Drosophila melanogaster, which are comparable to the double calyces of Hymenoptera, here exemplified by a basal taxon, Diprion pini. Expand
...
1
2
3
...