Scapinin-induced inhibition of axon elongation is attenuated by phosphorylation and translocation to the cytoplasm

Journal of Biological Chemistry

Volumn 286, Issue 22, 2011, Pages 19724-19734

  Farghaian, Hovik ^a   Chen, Yu ^b   Fu, Ada W Y ^b   Fu, Amy K Y ^b   Ip, Jacque P K ^b   Ip, Nancy Y ^b   Turnley, Ann M ^c   Cole, Adam R ^a  

^a GARVAN INSTITUTE OF MEDICAL RESEARCH   (Australia)

^b HONG KONG UNIVERSITY OF SCIENCE AND TECHNOLOGY   (Hong Kong)

^c UNIVERSITY OF MELBOURNE   (Australia)

Author keywords

[No Author keywords available]

Indexed keywords

ACTIN MONOMERS; ADULT BRAIN; BINDING PROTEINS; CELL BODIES; CORTICAL NEURONS; IMMUNOFLUORESCENCE ANALYSIS; IN-VITRO; INHIBITORY EFFECT; NEURITE OUTGROWTH; NEUROPLASTICITY; PHALLOIDIN; PLASTIC REGIONS;

CELLS; CYTOLOGY; ELONGATION; NEURONS; PHOSPHORYLATION;

PROTEINS;

ACTIN; ASPARTIC ACID; BINDING PROTEIN; CYCLIN DEPENDENT KINASE 5; MUTANT PROTEIN; PHALLOIDIN; REGULATOR PROTEIN; SCAPININ; SERINE; UNCLASSIFIED DRUG;

ACTIN POLYMERIZATION; ANIMAL CELL; ARTICLE; BRAIN CORTEX; CELL NUCLEUS; CELL POLARITY; CONTROLLED STUDY; CYTOPLASM; DENDRITE; GROWTH INHIBITION; HIPPOCAMPUS; HUMAN; HUMAN CELL; IN VITRO STUDY; INTRACELLULAR TRANSPORT; NERVE CELL; NERVE FIBER GROWTH; NONHUMAN; PERIKARYON; PRIORITY JOURNAL; PROTEIN BINDING; PROTEIN EXPRESSION; PROTEIN LOCALIZATION; PROTEIN PHOSPHORYLATION; PROTEIN TRANSPORT; RAT;

ACTINS; ANIMALS; AXONS; CEREBRAL CORTEX; CYCLIN-DEPENDENT KINASE 5; CYTOPLASM; HEK293 CELLS; HIPPOCAMPUS; HUMANS; NERVE TISSUE PROTEINS; NEURITES; NUCLEAR PROTEINS; PHOSPHORYLATION; PROTEIN TRANSPORT; RATS; RATS, SPRAGUE-DAWLEY;

RATTUS;

EID: 79957608812     PISSN: 00219258     EISSN: 1083351X     Source Type: Journal    
DOI: 10.1074/jbc.M110.205781     Document Type: Article

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