The carnivorous plant Dionaea possesses very sensitive mechanoreceptors. Upon contact with prey an action potential is triggered which, via an electrical network - comparable to the nervous system of vertebrates - rapidly closes its bivalved trap. The 'hunting cycle' comprises a constitutively activated mechanism for the rapid capture of prey, followed by a well-orchestrated sequence of activation of genes responsible for tight trap closure, digestion of the prey, and uptake of nutrients. Decisions on the step-by-step activation are based on 'counting' the number of stimulations of sensory organs. These remarkable animal-like skills in the carnivore are achieved not by taking over genes from its prey but by modifying and rearranging the functions of genes that are ubiquitous in plants.
Description
Venus Flytrap: How an Excitable, Carnivorous Plant Works. - PubMed - NCBI
%0 Journal Article
%1 Hedrich:2018:Trends-Plant-Sci:29336976
%A Hedrich, R
%A Neher, E
%D 2018
%J Trends Plant Sci
%K carnivory dionaea myown review
%N 3
%P 220-234
%R 10.1016/j.tplants.2017.12.004
%T Venus Flytrap: How an Excitable, Carnivorous Plant Works
%U https://www.ncbi.nlm.nih.gov/pubmed/29336976
%V 23
%X The carnivorous plant Dionaea possesses very sensitive mechanoreceptors. Upon contact with prey an action potential is triggered which, via an electrical network - comparable to the nervous system of vertebrates - rapidly closes its bivalved trap. The 'hunting cycle' comprises a constitutively activated mechanism for the rapid capture of prey, followed by a well-orchestrated sequence of activation of genes responsible for tight trap closure, digestion of the prey, and uptake of nutrients. Decisions on the step-by-step activation are based on 'counting' the number of stimulations of sensory organs. These remarkable animal-like skills in the carnivore are achieved not by taking over genes from its prey but by modifying and rearranging the functions of genes that are ubiquitous in plants.
@article{Hedrich:2018:Trends-Plant-Sci:29336976,
abstract = {The carnivorous plant Dionaea possesses very sensitive mechanoreceptors. Upon contact with prey an action potential is triggered which, via an electrical network - comparable to the nervous system of vertebrates - rapidly closes its bivalved trap. The 'hunting cycle' comprises a constitutively activated mechanism for the rapid capture of prey, followed by a well-orchestrated sequence of activation of genes responsible for tight trap closure, digestion of the prey, and uptake of nutrients. Decisions on the step-by-step activation are based on 'counting' the number of stimulations of sensory organs. These remarkable animal-like skills in the carnivore are achieved not by taking over genes from its prey but by modifying and rearranging the functions of genes that are ubiquitous in plants.},
added-at = {2019-06-03T09:44:05.000+0200},
author = {Hedrich, R and Neher, E},
biburl = {https://www.bibsonomy.org/bibtex/224df44e901349fe5b1d3f94658d6b72c/carnivorom-pubs},
description = {Venus Flytrap: How an Excitable, Carnivorous Plant Works. - PubMed - NCBI},
doi = {10.1016/j.tplants.2017.12.004},
interhash = {b1a6eb8156457facaeb40463b68b71f8},
intrahash = {24df44e901349fe5b1d3f94658d6b72c},
journal = {Trends Plant Sci},
keywords = {carnivory dionaea myown review},
month = {03},
number = 3,
pages = {220-234},
pmid = {29336976},
timestamp = {2019-06-03T09:44:05.000+0200},
title = {Venus Flytrap: How an Excitable, Carnivorous Plant Works},
url = {https://www.ncbi.nlm.nih.gov/pubmed/29336976},
volume = 23,
year = 2018
}