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dc.contributor.authorSaikia, Eashan
dc.contributor.authorLäubli, Nino F
dc.contributor.authorVogler, Hannes
dc.contributor.authorRüggeberg, Markus
dc.contributor.authorHerrmann, Hans J
dc.contributor.authorBurgert, Ingo
dc.contributor.authorBurri, Jan T
dc.contributor.authorNelson, Bradley J
dc.contributor.authorGrossniklaus, Ueli
dc.contributor.authorWittel, Falk K
dc.date.accessioned2021-11-22T14:42:26Z
dc.date.available2021-11-22T14:42:26Z
dc.date.issued2021-12
dc.date.submitted2021-04-16
dc.identifier.issn1617-7959
dc.identifier.others10237-021-01507-8
dc.identifier.other1507
dc.identifier.urihttps://www.repository.cam.ac.uk/handle/1810/330856
dc.descriptionFunder: schweizerischer nationalfonds zur förderung der wissenschaftlichen forschung; doi: http://dx.doi.org/10.13039/501100001711
dc.descriptionFunder: ETH Zurich
dc.description.abstractThe sensory hairs of the Venus flytrap (Dionaea muscipula Ellis) detect mechanical stimuli imparted by their prey and fire bursts of electrical signals called action potentials (APs). APs are elicited when the hairs are sufficiently stimulated and two consecutive APs can trigger closure of the trap. Earlier experiments have identified thresholds for the relevant stimulus parameters, namely the angular displacement [Formula: see text] and angular velocity [Formula: see text]. However, these experiments could not trace the deformation of the trigger hair's sensory cells, which are known to transduce the mechanical stimulus. To understand the kinematics at the cellular level, we investigate the role of two relevant mechanical phenomena: viscoelasticity and intercellular fluid transport using a multi-scale numerical model of the sensory hair. We hypothesize that the combined influence of these two phenomena and [Formula: see text] contribute to the flytrap's rate-dependent response to stimuli. In this study, we firstly perform sustained deflection tests on the hair to estimate the viscoelastic material properties of the tissue. Thereafter, through simulations of hair deflection tests at different loading rates, we were able to establish a multi-scale kinematic link between [Formula: see text] and the cell wall stretch [Formula: see text]. Furthermore, we find that the rate at which [Formula: see text] evolves during a stimulus is also proportional to [Formula: see text]. This suggests that mechanosensitive ion channels, expected to be stretch-activated and localized in the plasma membrane of the sensory cells, could be additionally sensitive to the rate at which stretch is applied.
dc.languageen
dc.publisherSpringer Science and Business Media LLC
dc.subjectOriginal Paper
dc.subjectDionaea muscipula
dc.subjectVenus flytrap
dc.subjectMechanotransduction
dc.subjectMulti-scale modelling
dc.subjectIon channels
dc.subjectSensory hair
dc.titleMechanical factors contributing to the Venus flytrap's rate-dependent response to stimuli.
dc.typeArticle
dc.date.updated2021-11-22T14:42:26Z
prism.endingPage2297
prism.issueIdentifier6
prism.publicationNameBiomech Model Mechanobiol
prism.startingPage2287
prism.volume20
dc.identifier.doi10.17863/CAM.78299
dcterms.dateAccepted2021-08-13
rioxxterms.versionofrecord10.1007/s10237-021-01507-8
rioxxterms.versionVoR
rioxxterms.licenseref.urihttp://creativecommons.org/licenses/by/4.0/
dc.contributor.orcidSaikia, Eashan [0000-0002-7642-8754]
dc.contributor.orcidLäubli, Nino F [0000-0003-2894-2385]
dc.contributor.orcidVogler, Hannes [0000-0002-6552-4708]
dc.contributor.orcidRüggeberg, Markus [0000-0002-6966-8311]
dc.contributor.orcidHerrmann, Hans J [0000-0002-9561-0826]
dc.contributor.orcidBurgert, Ingo [0000-0003-0028-072X]
dc.contributor.orcidBurri, Jan T [0000-0003-3573-8673]
dc.contributor.orcidNelson, Bradley J [0000-0001-9070-6987]
dc.contributor.orcidGrossniklaus, Ueli [0000-0002-0522-8974]
dc.contributor.orcidWittel, Falk K [0000-0001-8672-5464]
dc.identifier.eissn1617-7940
pubs.funder-project-idschweizerischer nationalfonds zur förderung der wissenschaftlichen forschung (CR22I2 166110)
cam.issuedOnline2021-08-24


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