scholarly journals Revisiting kinorhynch segmentation: variation of segmental patterns in the nervous system of three aberrant species

2021 ◽  
Vol 18 (1) ◽  
Author(s):  
Maria Herranz ◽  
Taeseo Park ◽  
Maikon Di Domenico ◽  
Brian S. Leander ◽  
Martin V. Sørensen ◽  
...  

Abstract Background Kinorhynch segmentation differs from the patterns found in Chordata, Arthropoda and Annelida which have coeloms and circulatory systems. Due to these differences and their obsolete status as ‘Aschelminthes’, the microscopic kinorhynchs are often not acknowledged as segmented bilaterians. Yet, morphological studies have shown a conserved segmental arrangement of ectodermal and mesodermal organ systems with spatial correspondence along the anterior-posterior axis. However, a few aberrant kinorhynch lineages present a worm-like body plan with thin cuticle and less distinct segmentation, and thus their study may aid to shed new light on the evolution of segmental patterns within Kinorhyncha. Results Here we found the nervous system in the aberrant Cateria styx and Franciscideres kalenesos to be clearly segmental, and similar to those of non-aberrant kinorhynchs; hereby not mirroring their otherwise aberrant and posteriorly shifted myoanatomy. In Zelinkaderes yong, however, the segmental arrangement of the nervous system is also shifted posteriorly and misaligned with respect to the cuticular segmentation. Conclusions The morphological disparity together with the distant phylogenetic positions of F. kalenesos, C. styx and Z. yong support a convergent origin of aberrant appearances and segmental mismatches within Kinorhyncha.

1989 ◽  
Vol 40 (3) ◽  
pp. 191-197 ◽  
Author(s):  
Adele Giampaolo ◽  
Dario Acampora ◽  
Vincenzo Zappavigna ◽  
Maria Pannese ◽  
Maurizio D'Esposito ◽  
...  

1963 ◽  
Vol 41 (5) ◽  
pp. 725-732
Author(s):  
V. M. Das

The anatomy of males of Nygolaimus aquaticus Thorne, 1930, collected from Blackburn, Ontario, is described. Descriptions are based on whole mounts and also on serial sections. Specimens embedded in paraffin were cut in sections 9 μ in thickness and stained with haematoxylin and eosin.Special emphasis is given to cuticular structure, such as median pores, lateral pores, hemizonid, and transverse and longitudinal striations, which are described and illustrated. Besides these structures, other organ systems of the body, such as digestive system, excretory system, nervous system, and reproductive organs, have also been described and illustrated.


Development ◽  
1993 ◽  
Vol 117 (3) ◽  
pp. 847-856 ◽  
Author(s):  
E. O'Hara ◽  
B. Cohen ◽  
S.M. Cohen ◽  
W. McGinnis

The homeotic selector (HOM) proteins are required for the diversification of the anterior-posterior axis of the Drosophila body plan, assigning unique identities to regional domains of cells comprising one or a few parasegments or segments. The HOM proteins apparently accomplish this task by the transcriptional regulation of numerous downstream genes. At present few downstream genes are known, so models of how downstream genes mediate HOM functions are based more on intuition than information. Our results indicate that Distal-less is a downstream gene of the HOM gene Deformed, and Distal-less function is required for the elaboration of a subset of the maxillary epidermal identities specified by Deformed. The regulatory effect of Deformed on Distal-less is mediated by a ventral maxillary-specific enhancer located 3′ of the Distal-less transcription unit. We propose that Deformed and Distal-less, both of which encode homeodomain transcription factors that are persistently expressed in ventral maxillary cells, combinatorially specify a subsegmental code required for a group of cells to differentiate maxillary cirri.


Author(s):  
Dariya Aleksandrovna Gavrilova ◽  
Maria Pavlovna Grushko

The aim of this work was to study peculiarities of mullet morphological organization during early ontogeny. Sample selection was made on board Caspian research and development Institute of Fisheries’ research vessel in period from June to September, 2015 in Russian waters of the Caspian Sea. Larvae aged 10 days could be characterized by heterochrony in the development of major organ systems. Nervous system and sense organs were well developed. The eyeball had all membranes well-differentiated, in the retina all the layers were formed. The olfactory fossae had cells of 3 types: olfactory receptor cells, supporting cells and basal cells. There was observed intensive formation of respiratory, cardiovascular, excretory and digestive systems. The early development of the nervous system and sensory organs of the larvae indicated adaptation of mullet to active life.


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