The axonemal axis and Ca2+-induced asymmetry of active microtubule sliding in sea urchin sperm tails.
about
The evolution of eukaryotic cilia and flagella as motile and sensory organellesOne of the nine doublet microtubules of eukaryotic flagella exhibits unique and partially conserved structuresThree-dimensional structure of the Trypanosome flagellum suggests that the paraflagellar rod functions as a biomechanical springSelf-Sustained Oscillatory Sliding Movement of Doublet Microtubules and Flagellar Bend FormationBasal sliding and the mechanics of oscillation in a mammalian sperm flagellum.The structural heterogeneity of radial spokes in cilia and flagella is conserved.Conserved structural motifs in the central pair complex of eukaryotic flagella.Mechanosignaling between central apparatus and radial spokes controls axonemal dynein activityThe hydrocephalus inducing gene product, Hydin, positions axonemal central pair microtubules.Asymmetry of inner dynein arms and inter-doublet links in Chlamydomonas flagellaRegulation of flagellar dynein by calcium and a role for an axonemal calmodulin and calmodulin-dependent kinaseA flagellar K(+)-dependent Na(+)/Ca(2+) exchanger keeps Ca(2+) low in sea urchin spermatozoa3D structure of eukaryotic flagella in a quiescent state revealed by cryo-electron tomography.Structural-functional relationships of the dynein, spokes, and central-pair projections predicted from an analysis of the forces acting within a flagellumThree-dimensional structure of the bovine sperm connecting piece revealed by electron cryotomography.Asymmetry of the central apparatus defines the location of active microtubule sliding in Chlamydomonas flagellaSpeculations on the evolution of 9+2 organelles and the role of central pair microtubulesCa2+ and cAMP regulations of microtubule sliding in hyperactivated motility of bull spermatozoaCalcium sensors of ciliary outer arm dynein: functions and phylogenetic considerations for eukaryotic evolution.The Pcdp1 complex coordinates the activity of dynein isoforms to produce wild-type ciliary motilityThe radial spokes and central apparatus: mechano-chemical transducers that regulate flagellar motilityDirection of force generated by the inner row of dynein arms on flagellar microtubules.Laser-transected microtubules exhibit individuality of regrowth, however most free new ends of the microtubules are stableThe bop2-1 mutation reveals radial asymmetry in the inner dynein arm region of Chlamydomonas reinhardtiiTubulin-dynein system in flagellar and ciliary movementMicrotubule sliding in swimming sperm flagella: direct and indirect measurements on sea urchin and tunicate spermatozoaSperm flagella: comparative and phylogenetic perspectives of protein components.A physical model of microtubule sliding in ciliary axonemes.Simulation of cyclic dynein-driven sliding, splitting, and reassociation in an outer doublet pair.Ultrastructure and motility of the spermatozoa of Polypedates leucomystax (Amphibia, Anura, Rhacophoridae).Sperm dysfunction and ciliopathy.Vigorous beating of Chlamydomonas axonemes lacking central pair/radial spoke structures in the presence of salts and organic compounds.Control of reactivation and microtubule sliding by calcium, strontium, and barium in detergent-extracted macrocilia of Beroë.
P2860
Q24601190-042E6A16-17C3-4F1E-BC54-54C660F5993AQ27316129-04FC92C0-2E26-451C-9F16-127C5CCB81F1Q27317364-D156F173-37A9-4056-9F06-7135AAAD89F2Q27322656-CF7BC08B-02F5-4501-87EB-32B11522506DQ30476469-B635C3E0-D8A2-4890-9C5E-EFB2DF8AE924Q30511814-07D05AD3-2BE3-490F-A454-38F63A3BA4F2Q30570932-E53CC1D6-8C18-4744-9560-80EB667C300AQ30573286-0B44F3CA-A071-4BCF-8C3B-9B1AA4AA0C52Q33293475-2152FE1E-AF0F-45E4-AEEB-4EB31F843CFEQ33492150-99C30BDF-6529-436F-9FE4-5F832268DC1DQ34061267-D716EC99-7FB9-4465-834E-5A0A7C8DF7F7Q34067395-B7CDDE4B-0937-4002-AC53-DB3819A86725Q34116156-106CD2EA-E2A3-49EA-B8AA-5AFC0A1CBE6CQ34181576-035734E4-F8CE-4AAB-B6DE-FBC32A44E79AQ34327840-547A1591-09D7-483F-A39F-7AD862C5D774Q34466877-BB9665D1-1F69-4963-BFDB-BC15C354D2FAQ34552900-A249DD5D-69D6-4818-974F-000173F97AF5Q35539249-FDD20784-F9C3-4447-9E3E-9FFA0573C025Q35555815-B696002E-5321-42A7-AEC9-37A9925E571EQ35579800-3D559627-F05E-4243-8101-D213B5165F89Q35597367-13D5443D-DF0E-4103-8871-99BA571F2F1EQ36216845-AB308C34-86D7-4AE9-B8A0-FC8111403331Q36219491-E35EDEF1-8F2B-4A8E-9C6A-F04DE81DE4CAQ36234577-5C7A3DD7-7904-498A-B1CF-14B593FCA9C7Q36377104-CBF9739E-8AD9-4292-A79A-1279B76DF45EQ36530263-4FFD6FBC-157E-47B0-8D2E-CC1BF30C6F17Q37876572-4E1D985C-AFF4-4034-A4B4-82BE8C2BEE7BQ39634277-0C78F1E6-CC9A-4D1E-8FD9-70D9FE1889D5Q42677334-D69833D1-9991-4771-8D32-1CF12D375449Q43613005-41B62240-508A-4571-BD61-3914323365FAQ47171971-803F0D16-DB64-4F48-B8E5-B28EA3253125Q51389803-86DADCE5-1B1F-4759-BB10-3474C353BDB9Q52486381-52421211-5999-42A0-9FF8-7BCD6C039F7F
P2860
The axonemal axis and Ca2+-induced asymmetry of active microtubule sliding in sea urchin sperm tails.
description
1986 nî lūn-bûn
@nan
1986年の論文
@ja
1986年論文
@yue
1986年論文
@zh-hant
1986年論文
@zh-hk
1986年論文
@zh-mo
1986年論文
@zh-tw
1986年论文
@wuu
1986年论文
@zh
1986年论文
@zh-cn
name
The axonemal axis and Ca2+-ind ...... ing in sea urchin sperm tails.
@ast
The axonemal axis and Ca2+-ind ...... ing in sea urchin sperm tails.
@en
type
label
The axonemal axis and Ca2+-ind ...... ing in sea urchin sperm tails.
@ast
The axonemal axis and Ca2+-ind ...... ing in sea urchin sperm tails.
@en
prefLabel
The axonemal axis and Ca2+-ind ...... ing in sea urchin sperm tails.
@ast
The axonemal axis and Ca2+-ind ...... ing in sea urchin sperm tails.
@en
P2860
P356
P1476
The axonemal axis and Ca2+-ind ...... ing in sea urchin sperm tails.
@en
P2093
P2860
P304
P356
10.1083/JCB.102.6.2042
P407
P577
1986-06-01T00:00:00Z