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Here, we investigated the effect of the general volatile anaesthetic diethyl ether on the ability to sense potential prey or herbivore attacks in the carnivorous plant Venus flytrap (Dionaea muscipula).
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Here, we investigated the effect of the general volatile anaesthetic diethyl ether on the ability to sense potential prey or herbivore attacks in the carnivorous plant Venus flytrap (Dionaea muscipula).
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Venus Flytrap sentence examples within Binding Venus Flytrap
They form obligate dimers and possess extracellular ligand-binding Venus flytrap domains, which are linked by cysteine-rich domains to their 7-transmembrane domains.
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They form obligate dimers and possess extracellular ligand-binding Venus flytrap domains, which are linked by cysteine-rich domains to their 7-transmembrane domains.
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Venus Flytrap sentence examples within Called Venus Flytrap
In this study, the ligand binding domain called venus flytrap (VFT) domain of the umami taste receptor protein T1R1 was used as a recognition element, and an electrochemical biosensor based on a double-signal amplification strategy was constructed using single-walled carbon nanotubes (SWCNTs) and Prussian blue (PB).
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This research work examines the foraging behavior of the Carnivorous plant called Venus flytrap.
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Venus Flytrap sentence examples within venus flytrap domain
mGluR activation by agonists binding in the venus flytrap domain is regulated by positive (PAM) or negative (NAM) allosteric modulators binding to the 7-transmembrane domain (7TM).
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The five peptides could perfectly be inserted into the binding pocket of the Venus flytrap domain in the T1R3 subunit.
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Venus Flytrap sentence examples within venus flytrap module
The GABAB1 subunit harbours the GABA (orthosteric)-binding site within an extracellular domain (ECD) venus flytrap module (VTM), whereas the GABAB2 subunit mediates G protein-coupled signalling [11, 70, 40, 39].
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The GABAB1 subunit harbours the GABA (orthosteric)binding site within an extracellular domain (ECD) venus flytrap module (VTM), whereas the GABAB2 subunit mediates G protein-coupled signalling [11, 71, 40, 39].
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mGluR activation by agonists binding in the venus flytrap domain is regulated by positive (PAM) or negative (NAM) allosteric modulators binding to the 7-transmembrane domain (7TM).
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Origin and molecular basis of plant electrical signal transmission with associated downstream processes exemplified by the hunting cycle of the Venus flytrap.
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The electrophysiological effects of CAPP treatment of bio-tissue and electrical signals transmission were measured in the Venus flytrap.
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We used a negative allosteric nanobody to stabilize the CaSR in the fully inactive state and found a new binding site for Ca2+ ion that acts as a composite agonist with L-amino acid to stabilize the closure of active Venus flytraps.
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Among them the Venus flytrap is characterized by its peculiar hapto-electric signaling.
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Inspired by the rapid shape transition of the Venus flytrap, a bi-stable piezoelectric energy harvester is developed to generate electricity from broadband excitation of fish maneuvering and fluid.
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The five peptides could perfectly be inserted into the binding pocket of the Venus flytrap domain in the T1R3 subunit.
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Most importantly, midpoint of hinge helix in BtuF was found highly flexible, and binding of B12 proceed in a manner similar to the Venus flytrap mechanism.
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The Venus flytrap (Dionaea muscipula J.
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In the last decade, technical advances have fueled the genome and transcriptome sequencings of active and passive hunters, leading to a better understanding of the traits associated with the carnivorous syndrome, from trap leaf development and prey digestion to nutrient absorption, exemplified by the Venus flytrap (Dionaea muscipula), pitcher plant (Cephalotus follicularis), and bladderwort (Utricularia gibba).
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In this study, the ligand binding domain called venus flytrap (VFT) domain of the umami taste receptor protein T1R1 was used as a recognition element, and an electrochemical biosensor based on a double-signal amplification strategy was constructed using single-walled carbon nanotubes (SWCNTs) and Prussian blue (PB).
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The case study of plant intelligence inspired novel non-swarm intelligence (NSI) algorithms, namely Venus Flytrap Optimization and Bladder-Worts Suction, concentrated in this paper.
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BvgS is the prototype of a family of sensor histidine kinases harboring periplasmic Venus flytrap (VFT) domains.
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Here we report an electrical plant-based actuator that uses a conformable electrical interface as an electrical modulating unit and a Venus flytrap as an actuating unit.
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The molecular docking results confirmed that all peptides entered the Venus flytrap (VFT) domain of T1R3, new binding sites were obtained, Arg303, Ser123, and His121 might play critical roles in the umami-enhancing effects.
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Dihydronaphthoquinones are described as constituents of sundews (Drosera), Venus flytraps (Dionaea), and dewy pines (Drosophyllum) for the first time.
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The Venus flytrap is a fascinating plant with a finely tuned mechanical bi-stable system, which can switch between mono- and bi-stability.
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In response to touch, some carnivorous plants such as the Venus flytrap have evolved spectacular movements to capture animals for nutrient acquisition.
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This research work examines the foraging behavior of the Carnivorous plant called Venus flytrap.
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One example is the stress-response strategy of the Venus flytrap, which enables such a delicate plant to perceive and prey on insects at an imperceptible speed by their soft terminal lobes.
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Analogous to the model in nature, the Venus flytrap, they are made of discrete pressure-activated rows and can be deformed with high stiffness at a high deformation rate.
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Structural studies demonstrate that L-Trp binding induces the closure of the Venus flytrap (VFT) domain of CaSR, bringing the receptor into an intermediate active state.
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Here, we show that the electrostimulation of the Venus flytrap (Dionaea muscipula Ellis) by unipolar sinusoidal or triangular periodic electrical trains induces electrical responses in plants with fingerprints of volatile memristors.
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Using atomic optically pumped magnetometers, biomagnetism associated with electrical activity in the carnivorous Venus flytrap, Dionaea muscipula, was recorded.
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Conformable electrodes can be used to manipulate the electrical properties of a Venus flytrap, creating actuators that can be wirelessly controlled.
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The Venus flytrap with its distinctive hapto-electric signaling is a prime example.
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The ancient binding modules of these two protein families share a conserved clamshell-like structure and entrap the ligand in their inter-lobe cleft by inducing a large conformational transition between the open- and closed- cleft states in a venus flytrap-like mechanism.
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Flycatcher1 (FLYC1), a MscS homolog, has recently been identified as a candidate mechanosensitive (MS) ion channel involved in Venus flytrap prey recognition.
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Structurally, they share a highly conserved phosphate binding site, and a three dimensional organization resembling the “Venus Flytrap”, both reminding the ones of PstS proteins.
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The GABAB1 subunit harbours the GABA (orthosteric)-binding site within an extracellular domain (ECD) venus flytrap module (VTM), whereas the GABAB2 subunit mediates G protein-coupled signalling [11, 70, 40, 39].
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They form obligate dimers and possess extracellular ligand-binding Venus flytrap domains, which are linked by cysteine-rich domains to their 7-transmembrane domains.
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The carnivorous Venus flytrap catches prey by an ingenious snapping mechanism.
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, 2012) as well as radioimmuno detectors such as Venus flytrap clusters (Paxton et al.
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Several organic memristors like human skin, venus flytrap and slime mould memristors have been demonstrated.
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The transparent IDI film creates a hot transparent Venus flytrap and a colorful or fluorescent actuator upon the addition of colorants without losing the actuation properties.
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angustifolia), Venus flytrap (Dionaea muscipula), Sugar pine (Pinus lambertiana) and Chinese witch hazel (Hamamelis mollis).
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The Venus flytrap captures insects with one of the most rapid movements in the plant kingdom.
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The EC domain of the heterodimer-including both the Venus flytrap and cysteine-rich domains-was also investigated.
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The endogenous orthosteric agonist γ-amino-butyric acid (GABA) binds within the extracellular Venus flytrap (VFT) domain of the GABAB1a/b subunit.
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The GABAB1 subunit harbours the GABA (orthosteric)binding site within an extracellular domain (ECD) venus flytrap module (VTM), whereas the GABAB2 subunit mediates G protein-coupled signalling [11, 71, 40, 39].
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Here, we investigated the effect of the general volatile anaesthetic diethyl ether on the ability to sense potential prey or herbivore attacks in the carnivorous plant Venus flytrap (Dionaea muscipula).
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In this study, we present bioinspired demonstrators which not only incorporate the actuation principles and motion behaviors of two carnivorous plant species (Venus flytrap and waterwheel plant), but also show adaptive responses to different environmental triggers.
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Recent insights into the mechanisms of stomata, bladderwort, the waterwheel, and the Venus flytrap are presented.
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Docking of the synthesized peptides with the umami taste receptor T1R1/T1R3 indicated that the peptides could enter the binding pocket in the Venus flytrap domain of the T1R3 cavity, wherein Asp196 and Glu128 may play key roles in the synergism of umami taste and hydrogen bonding and electrostatic interactions are important interaction forces.
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Here, we investigated the effect of the general volatile anaesthetic diethyl ether on the ability to sense potential prey or herbivore attacks in the carnivorous plant Venus flytrap (Dionaea muscipula).
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As a proof of concept, various transparent soft robots such as transparent gripper, Venus flytrap, and transparent walking robot were demonstrated.
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Venus flytraps detect moving insects via highly sensitive, action potential (AP)-producing trigger hairs, which act as high-sensitivity levers, crucial for prey capture and digestion.
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AbbreviationsCNS central nervous systemGPCR G-protein coupled receptormGluR metabotropic glutamate receptorIFD induced fit dockingPOPC palmitoyloleoylphosphatidylcholineVFT Venus flytrap domainRMSD root mean square deviationRMSF root mean square fluctuation7TM seven transmembrane Communicated by Ramaswamy H.
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Inspired by the Venus Flytrap (VFT), whose bistable leaves and local strain redistribution are crucial to the fast closure speed, we developed cylindrically-curved bistable laminated DEAs, and activated the bistable shape transformation by electrically tuning the strain field.
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Examples include the fast motion exhibited by the Venus Flytrap and the remarkable multifunctionality of the Earwig wing, both of which exploit prestress and multistability.
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In the present article, a soft gripper based on bi-stable dielectric elastomer actuator (DEA) inspired by the insect-catching ability of the Venus flytrap, is designed.
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&NA; The carnivorous Venus flytrap (Dionaea muscipula) overcomes environmental nutrient limitation by capturing small animals.
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In conventional “Venus Flytrap” mechanism, substrate‐binding proteins (SBPs) interconvert between the open and closed conformations.
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These autoantibodies operated as biased allosteric modulators of CaSR by targeting its Venus flytrap domain near the Ca2+-binding site.
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They form obligate dimers and possess extracellular ligand-binding Venus flytrap domains, which are linked by cysteine-rich domains to their 7-transmembrane domains.
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Principal component analysis revealed that the Venus flytrap domain (VFD) of T1R2 monomer was adapted by the induced-fit mechanism to accommodate the focused polyols, in which α-helical residues 233–268 moved significantly closer to stabilize ligands.
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We used field observations, lab experiments, and a seminatural experiment to test prey capture function of the marginal spikes on snap traps of the Venus flytrap (Dionaea muscipula).
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The results indicate that the glutamate binding stabilizes not only the closure of venus flytrap domains but also the polar interaction of LB2-LB2, in turn keeping the extracelluar domain in the active state.
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Hunting cycle of the carnivorous plant Venus flytrap (Dionaea muscipula Ellis) is comprised of mechanism for rapid trap closure followed by slow hermetical sealing and activation of gene expression responsible for digestion of prey and nutrient uptake.
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We have previously observed that an argon plasma jet in atmospheric air can activate plant movements and morphing structures in the Venus flytrap and Mimosa pudica similar to stimulation of their mechanosensors in vivo.
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The Venus flytrap has the characteristics of excellent responsiveness and deformability, making it a promising inspirational model for the development of soft robotics.
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