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Tubulin microheterogeneity increases with rat brain maturation [22]
Illana Gozes
*
, Uriel Z. Littauer
*
Corresponding author for this work
Weizmann Institute of Science
Research output
:
Contribution to journal
›
Letter
›
peer-review
180
Scopus citations
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Dive into the research topics of 'Tubulin microheterogeneity increases with rat brain maturation [22]'. Together they form a unique fingerprint.
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Keyphrases
Tubulin
100%
Brain Maturation
100%
Rat Brain
100%
Microheterogeneity
100%
Microtubules
28%
Early Postnatal
14%
Eukaryotic Cells
14%
Polypeptide
14%
Motility
14%
Isoelectric Focusing
14%
Highly Heterogeneous
14%
Nervous Tissue
14%
Protein Subunit
14%
Structural Role
14%
Neurite Outgrowth
14%
Cell Shape
14%
Relative Proportion
14%
Dynamic Role
14%
Postnatal Rat
14%
Nerve Cells
14%
Axoplasmic Transport
14%
Immunology and Microbiology
Microtubule
100%
Brain Maturation
100%
Nervous Tissue
50%
Eukaryotic Cell
50%
Cell Shape
50%
Protein Subunit
50%
Nerve Fiber Transport
50%
Nerve Cell
50%
Neurite Outgrowth
50%
Biochemistry, Genetics and Molecular Biology
Tubulin
100%
Brain Maturation
100%
Isoelectric Focusing
14%
Cell Shape
14%
Neurite Outgrowth
14%
Protein Subunit
14%
Nerve Fiber Transport
14%
Neuroscience
Tubulin
100%
Microtubule
28%
Nerve Tissue
14%
Polypeptide
14%
Protein Subunit
14%
Neurite Outgrowth
14%
Axoplasmic Transport
14%
Nervous System Cell
14%