Energetic considerations of ciliary beating and the advantage of metachronal coordination.
about
Neural mechanism of optimal limb coordination in crustacean swimmingVortical ciliary flows actively enhance mass transport in reef coralsCoordinated beating of algal flagella is mediated by basal couplingNodal cilia dynamics and the specification of the left/right axis in early vertebrate embryo development.Forces applied by cilia measured on explants from mucociliary tissue.Sperm competition: linking form to function.Self-assembled artificial cilia.Cilia-like beating of active microtubule bundlesFluid flow due to collective non-reciprocal motion of symmetrically-beating artificial ciliaEmergence of metachronal waves in cilia arraysCell-body rocking is a dominant mechanism for flagellar synchronization in a swimming alga.Metachronal waves in the flagellar beating of Volvox and their hydrodynamic origin.Finding the ciliary beating pattern with optimal efficiency.Multiciliated cellsDecoupling translational and rotational effects on the phase synchronization of rotating helices.Fluid mechanics of nodal flow due to embryonic primary cilia.Ciliomotor circuitry underlying whole-body coordination of ciliary activity in the Platynereis larva.Calaxin establishes basal body orientation and coordinates movement of monocilia in sea urchin embryos.Spontaneous creation of macroscopic flow and metachronal waves in an array of cilia.Emergence of polar order and cooperativity in hydrodynamically coupled model cilia.Geometric pumping in autophoretic channels.Interaction dynamics of two colloids in a single optical potential.Chlamydomonas swims with two "gears" in a eukaryotic version of run-and-tumble locomotion.Role of spatial heterogeneity in the collective dynamics of cilia beating in a minimal one-dimensional model.Flagellar synchronization independent of hydrodynamic interactions.Hydrodynamic synchronization and metachronal waves on the surface of the colonial alga Volvox carteri.Hydrodynamic synchronization between objects with cyclic rigid trajectories.Hydrodynamic interactions of cilia on a spherical body.Thermoosmotic microfluidics.Metachronal waves in a chain of rowers with hydrodynamic interactions.Noise and synchronization in pairs of beating eukaryotic flagella.Spontaneous oscillation and fluid-structure interaction of cilia.Pumping fluids with periodically beating grafted elastic filaments.A tale of the ciliate tail: investigation into the adaptive significance of this sub-cellular structure.Transport and Mixing Induced by Beating Cilia in Human Airways.Stochastic hydrodynamic synchronization in rotating energy landscapesCooperative motion of intrinsic and actuated semiflexible swimmersTailoring Formulations for Intranasal Nose-to-Brain Delivery: A Review on Architecture, Physico-Chemical Characteristics and Mucociliary Clearance of the Nasal Olfactory Mucosa
P2860
Q28655077-D86DF138-5A42-49E1-91E8-AFF35F803DD4Q28655604-278305C4-9EAF-4D4F-B5CC-3A5E0E95F77BQ28833558-3157E2AC-873C-47CF-AFA3-98E2B7068646Q30476774-E2C4DC4C-14DC-4CC1-BCB0-7612A5C4E7B8Q30478976-F79B162A-F7F3-4399-87E4-6296556DBC72Q30485672-BE582A0E-1368-4775-9880-F75845367813Q30493587-C44EE2AB-8BFE-451A-901D-4A052388BC73Q30504288-E922C0C9-2B3B-45A0-8535-F5D1DD5BA264Q30514346-26612693-CB7F-4CCF-9EB1-49834C0C5DA9Q30537988-A6BE0D12-0C9A-4C8D-BD1B-6E4ADFF2B1FCQ30557390-F9490F74-81A8-463C-A8AC-6AEF005DF16CQ30660373-84E7A6FE-8540-4AF7-9D6E-0EC2C17B6A85Q35229315-E11481BF-21A9-4D38-8971-AF9A30414677Q38257788-95401591-02C6-48A3-B51F-B36E6D17BA59Q39029616-3F5216C8-5F71-4C2B-80EB-C3CCD1BE4575Q39471571-7A44A68B-4BCD-47DC-8D36-FBBB40C67AFAQ41155816-C0EEE8D3-F0C1-45CC-B0C6-D7926EBECCA0Q41545108-E5B40F71-2E8B-4AD4-9EB1-203824C618D3Q41852289-1876746B-8586-4490-BA2B-F5D9CE089AACQ42577892-9433006F-9428-450C-AD99-5792805D382FQ46725313-A8FFAF4C-85AF-44F0-B5C3-96B30B61FF3AQ48764732-073583FA-C940-4180-94DD-3B75BF92F2F8Q48844099-D66967AD-E7E0-485A-AE4D-039EC5BEDB79Q49966577-2864AC6A-ACA1-4A07-A0F4-7817E43BCF5AQ50489792-29AC52D5-9346-4EBC-AEA5-CA5343B255D7Q51268081-0F699888-4A94-46C3-81A5-38CE84F4A32AQ51277288-F63F17B9-F745-4ADB-A42D-EFD65F43C43FQ51371456-E4AD4709-B0AD-4026-8A62-DF5B689DDB3BQ51452432-20E68C77-A936-45AF-A881-636ACF1FEF94Q51577337-C4259F59-5C49-4471-AC75-1D8A0924868AQ51776021-34736631-3DD0-47F5-8989-C5A207763F44Q52597871-08251C7A-9F30-4A10-92BA-130F6F952346Q53858810-F1C4213B-44DB-4457-87C0-0169BE5FD943Q54918313-A168E699-D3EF-4556-AD6D-A8763135A93BQ55070949-AAC5FF04-94A0-4686-B19F-2F8427870329Q56890769-A1DAD4FA-CBE7-47FC-8FF9-1ABFDBC8A7FDQ58487147-ED831A56-268B-437B-AC7A-B9E4FC91377BQ58800789-B3A811F6-0405-4D70-88D2-09A2124F7626
P2860
Energetic considerations of ciliary beating and the advantage of metachronal coordination.
description
1999 nî lūn-bûn
@nan
1999年の論文
@ja
1999年論文
@yue
1999年論文
@zh-hant
1999年論文
@zh-hk
1999年論文
@zh-mo
1999年論文
@zh-tw
1999年论文
@wuu
1999年论文
@zh
1999年论文
@zh-cn
name
Energetic considerations of ci ...... e of metachronal coordination.
@ast
Energetic considerations of ci ...... e of metachronal coordination.
@en
type
label
Energetic considerations of ci ...... e of metachronal coordination.
@ast
Energetic considerations of ci ...... e of metachronal coordination.
@en
prefLabel
Energetic considerations of ci ...... e of metachronal coordination.
@ast
Energetic considerations of ci ...... e of metachronal coordination.
@en
P2860
P356
P1476
Energetic considerations of ci ...... e of metachronal coordination.
@en
P2093
Levit-Gurevich K
P2860
P304
12240-12245
P356
10.1073/PNAS.96.22.12240
P407
P577
1999-10-01T00:00:00Z