nocodazole has been researched along with Glioma in 6 studies
Glioma: Benign and malignant central nervous system neoplasms derived from glial cells (i.e., astrocytes, oligodendrocytes, and ependymocytes). Astrocytes may give rise to astrocytomas (ASTROCYTOMA) or glioblastoma multiforme (see GLIOBLASTOMA). Oligodendrocytes give rise to oligodendrogliomas (OLIGODENDROGLIOMA) and ependymocytes may undergo transformation to become EPENDYMOMA; CHOROID PLEXUS NEOPLASMS; or colloid cysts of the third ventricle. (From Escourolle et al., Manual of Basic Neuropathology, 2nd ed, p21)
Excerpt | Relevance | Reference |
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" In this study, we examined mechanisms of hyperploid formation in glioma cells by treatment with nocodazole, which activates spindle assembly checkpoint by inhibiting microtubule polymerization." | 3.71 | Mechanism of hyperploid cell formation induced by microtubule inhibiting drug in glioma cell lines. ( Inagaki, M; Nitta, M; Saya, H; Tada, M; Tsuiki, H; Ushio, Y, 2001) |
"The mechanisms of carbachol-induced muscarinic acetylcholine receptor (mAChR) down-regulation, and recovery following carbachol withdrawal, were studied in the neuroblastoma x glioma hybrid NG108-15 cell line by specific ligand binding assays." | 3.67 | Mechanism of agonist-induced down-regulation and subsequent recovery of muscarinic acetylcholine receptors in a clonal neuroblastoma x glioma hybrid cell line. ( Berman, JD; Middleton, W; Ray, P, 1989) |
" Hydrocortisone, a glucocorticoid hormone, renders C6 rat glioma cells (clone ST1) sensitive to a block by colchicine or nocodazole (microtubule disrupters) at the G1 phase of the cell cycle." | 3.66 | Glucocorticoid hormone renders a rat glioma cell line sensitive to a G1 phase block by microtubule disrupting agents. ( Armelin, HA; Farias, SE, 1982) |
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 2 (33.33) | 18.7374 |
1990's | 0 (0.00) | 18.2507 |
2000's | 3 (50.00) | 29.6817 |
2010's | 1 (16.67) | 24.3611 |
2020's | 0 (0.00) | 2.80 |
Authors | Studies |
---|---|
Yamamoto, M | 1 |
Suzuki, SO | 1 |
Himeno, M | 1 |
Inoue, T | 1 |
Hiratsuka, M | 1 |
Osaki, M | 1 |
Yamada, H | 1 |
Kishimoto, I | 1 |
Yamaguchi, S | 1 |
Nakano, S | 1 |
Katoh, M | 1 |
Ito, H | 1 |
Oshimura, M | 1 |
Farias, SE | 1 |
Armelin, HA | 1 |
Tsuiki, H | 2 |
Nitta, M | 2 |
Tada, M | 1 |
Inagaki, M | 1 |
Ushio, Y | 2 |
Saya, H | 2 |
Arima, Y | 1 |
Harada, K | 1 |
Nishizaki, T | 1 |
Sasaki, K | 1 |
Mimori, T | 1 |
Ray, P | 1 |
Middleton, W | 1 |
Berman, JD | 1 |
6 other studies available for nocodazole and Glioma
Article | Year |
---|---|
The effects of dynein inhibition on the autophagic pathway in glioma cells.
Topics: Adenine; Amino Acids; Autophagy; Cell Line, Tumor; Dynactin Complex; Dyneins; Enzyme Inhibitors; Gli | 2010 |
SIRT2, a tubulin deacetylase, acts to block the entry to chromosome condensation in response to mitotic stress.
Topics: Cell Line, Tumor; Chromosomal Instability; Chromosomes, Human; Glioma; Histone Deacetylase Inhibitor | 2007 |
Glucocorticoid hormone renders a rat glioma cell line sensitive to a G1 phase block by microtubule disrupting agents.
Topics: Animals; Benzimidazoles; Cell Cycle; Cell Line; Colchicine; DNA, Neoplasm; Fibroblasts; Glioma; Grow | 1982 |
Mechanism of hyperploid cell formation induced by microtubule inhibiting drug in glioma cell lines.
Topics: CDC2 Protein Kinase; Glioma; Humans; Microtubules; Mitosis; Mitotic Index; Nocodazole; Polyploidy; S | 2001 |
Hyperploidy induced by drugs that inhibit formation of microtubule promotes chromosome instability.
Topics: Antineoplastic Agents; Chromosomes; Glioma; Humans; Microtubules; Nocodazole; Polyploidy; Tumor Cell | 2002 |
Mechanism of agonist-induced down-regulation and subsequent recovery of muscarinic acetylcholine receptors in a clonal neuroblastoma x glioma hybrid cell line.
Topics: Animals; Bacitracin; Benzimidazoles; Carbachol; Cell Membrane; Colchicine; Endocytosis; Glioma; Hybr | 1989 |