caffeine has been researched along with Aneuploid in 15 studies
Excerpt | Relevance | Reference |
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"Most caffeine-treated mitotic cells showed misalignment of chromosomes at the metaphase plates, and were arrested at prometaphase." | 5.35 | Caffeine yields aneuploidy through asymmetrical cell division caused by misalignment of chromosomes. ( Imoto, I; Inazawa, J; Katsuki, Y; Mizutani, S; Nagasawa, M; Nakada, S; Yokoyama, T, 2008) |
"Caffeine was significantly associated with increased frequencies of sperm aneuploidy XX18 and XY18, diploidy XY18-18 and the duplication phenotype YY18-18 controlling for alcohol, smoking and donor age." | 5.30 | Use of fluorescence in situ hybridization (FISH) to assess effects of smoking, caffeine, and alcohol on aneuploidy load in sperm of healthy men. ( Everson, RB; Robbins, WA; Truong, KY; Vine, MF, 1997) |
"Sperm aneuploidy by multicolor fluorescence in situ hybridization for chromosomes 8, X, and Y; conventional semen analyses; computer-aided sperm analysis for motility; and sperm chromatin structure analysis." | 2.69 | Smoking cigarettes is associated with increased sperm disomy in teenage men. ( Evenson, D; Lowe, X; Moore, D; Perreault, S; Rubes, J; Selevan, SG; Slott, V; Wyrobek, AJ, 1998) |
"Roberts syndrome is an autosomal recessive disorder characterised primarily by symmetric reduction of all limbs and growth retardation." | 1.32 | Recapitulation of the Roberts syndrome cellular phenotype by inhibition of INCENP, ZWINT-1 and ZW10 genes. ( Ascoli, C; Mariani, T; Montagna, C; Musio, A; Ried, T; Vezzoni, P; Zambroni, D, 2004) |
"Caffeine was significantly associated with increased frequencies of sperm aneuploidy XX18 and XY18, diploidy XY18-18 and the duplication phenotype YY18-18 controlling for alcohol, smoking and donor age." | 1.30 | Use of fluorescence in situ hybridization (FISH) to assess effects of smoking, caffeine, and alcohol on aneuploidy load in sperm of healthy men. ( Everson, RB; Robbins, WA; Truong, KY; Vine, MF, 1997) |
"Caffeine has also been reported to retard meiotic progression and induce aneuploidy in hamster oocytes in vitro." | 1.29 | Cytogenetic effects of caffeine during in vivo mouse oocyte maturation. ( London, SN; Mailhes, JB; Young, D, 1996) |
"It may mean that caffeine also induces aneuploidy." | 1.27 | Sequence of centromere separation: kinetochore formation in induced laggards and micronuclei. ( Swearngin, SE; Vig, BK, 1986) |
"Although aneuploidy is a serious human health problem, the experimental methodology devised until now to study the mechanisms involved in the induction of aneuploidy and for the screening of aneuploidy-inducing agents has not been so much employed to have the necessary validation." | 1.27 | A simple and reliable in vitro test system for the analysis of induced aneuploidy as well as other cytogenetic end-points using Chinese hamster cells. ( Dulout, FN; Natarajan, AT, 1987) |
Timeframe | Studies, this research(%) | All Research% |
---|---|---|
pre-1990 | 4 (26.67) | 18.7374 |
1990's | 7 (46.67) | 18.2507 |
2000's | 3 (20.00) | 29.6817 |
2010's | 1 (6.67) | 24.3611 |
2020's | 0 (0.00) | 2.80 |
Authors | Studies |
---|---|
Katsuki, Y | 1 |
Nakada, S | 1 |
Yokoyama, T | 1 |
Imoto, I | 1 |
Inazawa, J | 1 |
Nagasawa, M | 1 |
Mizutani, S | 1 |
Chen, P | 1 |
O'Neal, JF | 1 |
Ebelt, ND | 1 |
Cantrell, MA | 1 |
Mitra, S | 1 |
Nasrazadani, A | 1 |
Vandenbroek, TL | 1 |
Heasley, LE | 1 |
Van Den Berg, CL | 1 |
Robbins, WA | 2 |
Musio, A | 1 |
Mariani, T | 1 |
Montagna, C | 1 |
Zambroni, D | 1 |
Ascoli, C | 1 |
Ried, T | 1 |
Vezzoni, P | 1 |
Mailhes, JB | 1 |
Young, D | 1 |
London, SN | 1 |
Vine, MF | 1 |
Truong, KY | 1 |
Everson, RB | 1 |
Vig, BK | 2 |
Henderson, A | 1 |
Rubes, J | 1 |
Lowe, X | 1 |
Moore, D | 1 |
Perreault, S | 1 |
Slott, V | 1 |
Evenson, D | 1 |
Selevan, SG | 1 |
Wyrobek, AJ | 1 |
Burns, EM | 1 |
Christopoulou, L | 1 |
Corish, P | 1 |
Tyler-Smith, C | 1 |
Hervás, JP | 1 |
Giménez-Martín, G | 1 |
Panzera, F | 1 |
Cánovas, JL | 1 |
de la Torre, C | 1 |
López-Sáez, JF | 1 |
Zinkowski, RP | 2 |
McCune, SL | 2 |
Balczon, RD | 2 |
Rao, PN | 2 |
Brinkley, BR | 2 |
Swearngin, SE | 1 |
Dulout, FN | 1 |
Natarajan, AT | 1 |
1 review available for caffeine and Aneuploid
Article | Year |
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FISH (fluorescence in situ hybridization) to detect effects of smoking, caffeine, and alcohol on human sperm chromosomes.
Topics: Alcohol Drinking; Aneuploidy; Caffeine; Chromosomes; Humans; In Situ Hybridization, Fluorescence; Ma | 2003 |
1 trial available for caffeine and Aneuploid
Article | Year |
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Smoking cigarettes is associated with increased sperm disomy in teenage men.
Topics: Adolescent; Alcohol Drinking; Aneuploidy; Caffeine; Chromatin; Humans; In Situ Hybridization, Fluore | 1998 |
13 other studies available for caffeine and Aneuploid
Article | Year |
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Caffeine yields aneuploidy through asymmetrical cell division caused by misalignment of chromosomes.
Topics: Aneuploidy; Caffeine; Cell Division; Chromosomes; Fluorescent Antibody Technique; HeLa Cells; Humans | 2008 |
Jnk2 effects on tumor development, genetic instability and replicative stress in an oncogene-driven mouse mammary tumor model.
Topics: Aneuploidy; Animals; Antigens, Polyomavirus Transforming; Caffeine; Cell Death; Chromosomal Proteins | 2010 |
Recapitulation of the Roberts syndrome cellular phenotype by inhibition of INCENP, ZWINT-1 and ZW10 genes.
Topics: Abnormalities, Multiple; Aneuploidy; Caffeine; Cell Cycle; Cell Division; Cell Line; Centromere; Chr | 2004 |
Cytogenetic effects of caffeine during in vivo mouse oocyte maturation.
Topics: Aneuploidy; Animals; Caffeine; Cricetinae; Cytogenetics; Female; In Vitro Techniques; Metaphase; Mic | 1996 |
Use of fluorescence in situ hybridization (FISH) to assess effects of smoking, caffeine, and alcohol on aneuploidy load in sperm of healthy men.
Topics: Adolescent; Adult; Alcohol Drinking; Aneuploidy; Caffeine; Cross-Sectional Studies; Diploidy; Humans | 1997 |
Aneuploidy in male Indian muntjac cells is limited to the Y2 chromosome.
Topics: Aneuploidy; Animals; Anthelmintics; Benomyl; Caffeine; Cell Line; Centromere; Colchicine; Gout Suppr | 1998 |
Quantitative measurement of mammalian chromosome mitotic loss rates using the green fluorescent protein.
Topics: Aneuploidy; Animals; Antineoplastic Agents; Antineoplastic Agents, Phytogenic; Buffers; Caffeine; Ce | 1999 |
Multinucleate plant cells. I. Aneuploidy in a proliferating population.
Topics: Aneuploidy; Caffeine; Cell Division; Cell Nucleus; Cytological Techniques; Hexachlorocyclohexane; Mi | 1976 |
A limited number of chromosomes makes a nucleus competent to respond to inducers of replication and mitosis in a plant.
Topics: Allium; Aneuploidy; Caffeine; Cell Nucleus; Chromosomes; DNA Replication; Mitosis; Probability | 1992 |
The centromere and aneuploidy: II. Drug induced detachment and fragmentation of kinetochores of mammalian chromosomes.
Topics: Aneuploidy; Animals; Artiodactyla; Caffeine; Cell Division; Cell Line; Centromere; Chromosomes; Cric | 1990 |
Sequence of centromere separation: kinetochore formation in induced laggards and micronuclei.
Topics: Aneuploidy; Animals; Antibodies, Antinuclear; Benzimidazoles; Binding Sites, Antibody; Bisbenzimidaz | 1986 |
The centromere and aneuploidy: I. Caffeine-induced detachment and fragmentation of kinetochores of mammalian chromosomes.
Topics: Aneuploidy; Animals; Caffeine; Centromere; Chromosome Aberrations; Chromosomes; Cricetinae; DNA; Flo | 1989 |
A simple and reliable in vitro test system for the analysis of induced aneuploidy as well as other cytogenetic end-points using Chinese hamster cells.
Topics: Anaphase; Aneuploidy; Animals; Caffeine; Cells, Cultured; Chromosome Aberrations; Cytogenetics; Diet | 1987 |