Properties of the protein subunit of central-pair and outer-doublet microtubules of sea urchin flagella
about
Identification of direct protein targets of small moleculesIsolation of microtubule protein from cultured mouse neuroblastoma cells.The structure and assembly of microtubules.Histamine release from human leukocytes: studies with deuterium oxide, colchicine, and cytochalasin BDissolution of erythrocyte membranes in water and comparison of the membrane protein with other structural proteinsMicrotubule structure at low resolution by x-ray diffraction.Cytochalasin B: effect on lysosomal enzyme release from human leukocytesBiochemistry of the filaments of brain.Immunochemical studies of 22S protein from isolated mitotic apparatus.The association of a class of saltatory movements with microtubules in cultured cellsThe effects of high hydrostatic pressure on the microtubules of Tetrahymena pyriformis.Selective extraction of isolated mitotic apparatus. Evidence that typical microtubule protein is extracted by organic mercurial.Microtubule protein. Identification in and transport to nerve endings.Colchicine binding in tissue slices. Decrease by calcium and biphasic effect of adenosine-3', 5'-monophosphateSerological similarity of flagellar and mitotic microtubules.The synthesis of microtubule and other proteins of the oral apparatus in Tetrahymena pyriformis.Modified microtubules in the testis of the water strider, Gerris remigis (Say).Colchicine inhibition of nerve fiber formation in vitro.Fine structural changes in neurons and nerve fibers associated with colchicine inhibition of nerve fiber formation in vitroArrangement of tubulin subunits and microtubule-associated proteins in the central-pair microtubule apparatus of squid (Loligo pealei) sperm flagella.Post-translational modification of neuronal proteins: evidence for transglutaminase activity in R2, the giant cholinergic neuron of AplysiaChlamydomonas flagella. II. The distribution of tubulins 1 and 2 in the outer doublet microtubules.The role of microtubules in the growth and stabilization of nerve fibers.Are cytoplasmic microtubules heteropolymers?Heterogeneity of tubulin subunits.Molecular probes of spermatozoan structures.Novel therapeutics for the treatment of familial Mediterranean fever: from colchicine to biologics.Affinity purification in target identification: the specificity challenge.The contractile and regulatory proteins of insect flight muscle.Molecular insight into the regulation and function of MCAK.Functional analysis of phosphorylation of the mitotic centromere-associated kinesin by Aurora B kinase in human tumor cellsEffects of colchicine and vinblastine on axonal transport and transmitter release in sympathetic nerves.Structure of microtubular crystals induced by vinblastine in vitro.Optical diffraction and translational reinforcement of microtubules having a prominent helical wall structureThe mechanism of action of colchicine. Colchicine binding properties of sea urchin sperm tail outer doublet tubulin.Microtubule surface lattice and subunit structure and observations on reassembly.The effect of colchicine on regenerating membranellar cilia in Stentor coeruleus.Purification of tubulin and associated high molecular weight proteins from porcine brain and characterization of microtubule assembly in vitro.Isolation of tubulin from pig platelets.Sensitization of colchicine binding protein to ultraviolet light by bound colchicine.
P2860
Q21558640-B2A24FE9-0602-417C-BD18-E2C3145F1B45Q33820177-926F8EAE-D744-4B87-A4EC-D4CC0C4AE5EBQ34019900-6A7EA70F-EAF0-4297-A474-386F3B1CE663Q34075578-572F0944-CF44-46C1-9E73-C60DCE139A77Q34654831-8E2FB603-8666-4A1F-A886-E58036F071B7Q35044087-AE08925E-1323-4259-A987-4928BBC97417Q35099034-40869CD0-30BD-4EBA-8A6A-ADC9B9C27735Q35985219-3E5D8AF1-4F8C-48E0-B740-8169A35A2E46Q36190801-44270BD4-B072-4190-BC36-4D232D05D7B7Q36191339-FF746D49-C64D-4571-90C9-5445DFB32670Q36192299-E6B4A0E3-DFDF-4D1F-A741-0474C3053921Q36192432-9C17CCF2-BCB3-4136-9960-B2C228B1ABF1Q36192703-6681F276-A52D-4135-A1ED-0510C164AABCQ36192777-6DB8E3F2-337E-48D1-84DC-CAAE948E4FA5Q36192903-167EA94A-C769-429A-8173-70D4539FBC58Q36192907-AD04DFAD-E414-4FB8-BF2F-F83E5115D6E5Q36194000-D1643C15-E022-4B4E-A083-80B6DC050CBCQ36194033-AEAEFD34-2691-4B6A-B194-975E5DF3E3F9Q36195463-3EDBB5F2-2212-4784-B3B3-EF93B66CCD21Q36204423-858697BE-206B-429A-893F-35D4F1A66777Q36297749-73159D65-D8E9-4A70-8585-84E06FA46E65Q36383538-19AC49DE-932E-4B32-8A09-23089D1C09AAQ36501010-4CCB0CE6-725F-4340-83E6-D961371FF6EEQ37482837-9B789DEC-2849-4664-89BB-403A53BA7094Q37485139-422E4C06-ACAA-476C-BDAD-DA71BC65CA5DQ37488630-EBD39AC3-DAC9-4ECA-BBD1-85CF1E12F558Q38122566-039CD210-4EE6-478F-A3F5-6521B0568562Q38561919-7EA854D4-3452-4905-A286-F38833B93F47Q38589508-7EF17745-7D0D-444A-A832-86A96EF53A20Q38825915-B76F7EDB-2F50-4135-8381-094DDC3F6ADCQ38856254-E9004B38-4FEC-42CB-8107-ED4C1D60A895Q39335733-FACB63DF-ED0D-46F5-899D-5CE6CDEB140DQ41114752-C8A1C184-2E1C-4AB3-B5E6-E98D6D238354Q41120644-B49D91CD-7A45-4463-A34C-8A151C6E8226Q41172364-5A3E1AD9-738E-4363-9CA4-66F6796B056CQ41178459-5B854427-ED09-4B34-A772-539FE941924EQ43587391-AE0D129F-B1BF-43F9-BD42-70DF82C7D1A6Q43713030-A779D0CF-83FF-4A4F-9638-CCDCA6BC06F9Q44398785-8AD8B89E-46D5-480B-B428-F62D8CE7B15DQ44815848-5E5313B4-3673-45B4-8BCC-B15641F9C97F
P2860
Properties of the protein subunit of central-pair and outer-doublet microtubules of sea urchin flagella
description
1968 nî lūn-bûn
@nan
1968年の論文
@ja
1968年論文
@yue
1968年論文
@zh-hant
1968年論文
@zh-hk
1968年論文
@zh-mo
1968年論文
@zh-tw
1968年论文
@wuu
1968年论文
@zh
1968年论文
@zh-cn
name
Properties of the protein subu ...... tubules of sea urchin flagella
@en
type
label
Properties of the protein subu ...... tubules of sea urchin flagella
@en
prefLabel
Properties of the protein subu ...... tubules of sea urchin flagella
@en
P2860
P356
P1476
Properties of the protein subu ...... tubules of sea urchin flagella
@en
P2093
Shelanski ML
P2860
P304
P356
10.1083/JCB.38.2.304
P407
P577
1968-08-01T00:00:00Z