Putative neuropeptides and an EF-hand motif region are encoded by a novel gene expressed in the four giant interneurons of the terrestrial snail
Putative neuropeptides and an EF-hand motif region are encoded by a novel gene expressed in the four giant interneurons of the terrestrial snail
Nine giant interneurons located in the pleural and parietal ganglia of the terrestrial snail Helix lucorum L. were reported to be a key element in the network controlling withdrawal behaviour of the animal. Using a combination of complementary DNA subtraction cloning and differential screening approaches we have isolated a novel gene named HCS2 which is expressed predominantly in a subset of these interneurons. The predicted amino acid sequence of the HCS2 protein contains at the N-terminus a hydrophobic leader sequence and four putative neuropeptides, and at the C-terminus a perfect match to the consensus motif of the EF-hand family of the Ca2+-binding proteins. All four predicted neuropeptides bear a C-terminal signature sequence Tyr-Pro-Arg-X (where X is Ile, Leu, Val or Pro), and three of them are likely to be amidated. Physiological action of three synthetic peptides corresponding to the predicted mature HCS2 peptides mimics fairly well the described action of parietal interneurons on follower motoneurons controlling pneumostome closure. In situ hybridization experiments demonstrated that the HCS2 gene is selectively expressed in the four parietal giant interneurons, as well as in several small unidentified neurons. The onset of the HCS2 transcription during embryogenesis coincides temporally with the time-point when the first withdrawal responses of the embryo to tactile stimulation appear.
We propose that the HCS2 gene encodes a hybrid precursor protein whose processed products act as neuromodulators or neurotransmitters mediating the withdrawal reactions of the snail, and in addition may participate in the calcium regulatory pathways or calcium homeostasis in command neurons.
637-647
Bogdanov, YD
0c970999-e191-4f1b-90d9-7bf25a5d5b4b
Balaban, PM
6e7d5a3e-7502-4056-b886-200ae663d97b
Poteryaev, DA
094ed636-30e5-4286-8dcc-eb8e93315fe8
Zakharov, IS
dbc7c9db-b905-4318-b9c8-3986a8d5df76
Belyavsky, AV
65cfb7dd-1534-47a9-b8fb-fabebcdd7ef7
8 April 1998
Bogdanov, YD
0c970999-e191-4f1b-90d9-7bf25a5d5b4b
Balaban, PM
6e7d5a3e-7502-4056-b886-200ae663d97b
Poteryaev, DA
094ed636-30e5-4286-8dcc-eb8e93315fe8
Zakharov, IS
dbc7c9db-b905-4318-b9c8-3986a8d5df76
Belyavsky, AV
65cfb7dd-1534-47a9-b8fb-fabebcdd7ef7
Bogdanov, YD, Balaban, PM, Poteryaev, DA, Zakharov, IS and Belyavsky, AV
(1998)
Putative neuropeptides and an EF-hand motif region are encoded by a novel gene expressed in the four giant interneurons of the terrestrial snail.
Neuroscience, 85 (2), .
(doi:10.1016/s0306-4522(97)00561-7).
Abstract
Nine giant interneurons located in the pleural and parietal ganglia of the terrestrial snail Helix lucorum L. were reported to be a key element in the network controlling withdrawal behaviour of the animal. Using a combination of complementary DNA subtraction cloning and differential screening approaches we have isolated a novel gene named HCS2 which is expressed predominantly in a subset of these interneurons. The predicted amino acid sequence of the HCS2 protein contains at the N-terminus a hydrophobic leader sequence and four putative neuropeptides, and at the C-terminus a perfect match to the consensus motif of the EF-hand family of the Ca2+-binding proteins. All four predicted neuropeptides bear a C-terminal signature sequence Tyr-Pro-Arg-X (where X is Ile, Leu, Val or Pro), and three of them are likely to be amidated. Physiological action of three synthetic peptides corresponding to the predicted mature HCS2 peptides mimics fairly well the described action of parietal interneurons on follower motoneurons controlling pneumostome closure. In situ hybridization experiments demonstrated that the HCS2 gene is selectively expressed in the four parietal giant interneurons, as well as in several small unidentified neurons. The onset of the HCS2 transcription during embryogenesis coincides temporally with the time-point when the first withdrawal responses of the embryo to tactile stimulation appear.
We propose that the HCS2 gene encodes a hybrid precursor protein whose processed products act as neuromodulators or neurotransmitters mediating the withdrawal reactions of the snail, and in addition may participate in the calcium regulatory pathways or calcium homeostasis in command neurons.
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Published date: 8 April 1998
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Copyright © 1998 IBRO. Published by Elsevier Ltd. All rights reserved.
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Local EPrints ID: 469838
URI: http://eprints.soton.ac.uk/id/eprint/469838
ISSN: 0306-4522
PURE UUID: c5c81b83-9baa-4b40-a401-4f77f4d08652
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Date deposited: 27 Sep 2022 16:37
Last modified: 17 Mar 2024 03:37
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Author:
PM Balaban
Author:
DA Poteryaev
Author:
IS Zakharov
Author:
AV Belyavsky
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