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Laser microsurgery reveals conserved viscoelastic behavior of the kinetochore.Overlap microtubules link sister k-fibres and balance the forces on bi-oriented kinetochores.Multipolar spindle pole coalescence is a major source of kinetochore mis-attachment and chromosome mis-segregation in cancer cellsThe Mad1/Mad2 complex as a template for Mad2 activation in the spindle assembly checkpointThe coupling between sister kinetochore directional instability and oscillations in centromere stretch in metaphase PtK1 cells.Dynamic bonds and polar ejection force distribution explain kinetochore oscillations in PtK1 cells.Changes in gene expression and cellular architecture in an ovarian cancer progression model.Aurora kinase promotes turnover of kinetochore microtubules to reduce chromosome segregation errors.Chromosome mis-segregation and cytokinesis failure in trisomic human cellsChromosome Bridges Maintain Kinetochore-Microtubule Attachment throughout Mitosis and Rarely Break during AnaphaseHistone hyperacetylation in mitosis prevents sister chromatid separation and produces chromosome segregation defectsMerotelic kinetochores in mammalian tissue cells.Aneuploidy: a matter of bad connections.Merotelic kinetochore orientation is a major mechanism of aneuploidy in mitotic mammalian tissue cellsSelective advantage of trisomic human cells cultured in non-standard conditionsCyclophilin 20-3 relays a 12-oxo-phytodienoic acid signal during stress responsive regulation of cellular redox homeostasis.Merotelic kinetochore orientation, aneuploidy, and cancer.Merotelic kinetochore attachment: causes and effects.How mitotic errors contribute to karyotypic diversity in cancer.Transient defects of mitotic spindle geometry and chromosome segregation errors.Modelling chromosome dynamics in mitosis: a historical perspective on models of metaphase and anaphase in eukaryotic cells.Link between aneuploidy and chromosome instability.Genomic instability: Crossing pathways at the origin of structural and numerical chromosome changes.Consequences of aneuploidy in sickness and in health.Targeted integration of adeno-associated virus-derived plasmids in transfected human cells.Topoisomerase II inhibition in mitosis produces numerical and structural chromosomal aberrations in human fibroblasts.Transient ALT activation protects human primary cells from chromosome instability induced by low chronic oxidative stress.Aurora A Kinase Contributes to a Pole-Based Error Correction Pathway.Characterization of Conventional One-Step Sodium Thiosulfate Facilitated Gold Nanoparticle Synthesis.The centrosome: a multifaceted cellular weapon against chromosome instability.Using Photoactivatable GFP to Study Microtubule Dynamics and Chromosome Segregation.A guide to classifying mitotic stages and mitotic defects in fixed cells.Near-tetraploid cancer cells show chromosome instability triggered by replication stress and exhibit enhanced invasiveness.Fluid shear stress impacts ovarian cancer cell viability, subcellular organization, and promotes genomic instability.Anaphase Spindle Mechanics Prevent Mis-Segregation of Merotelically Oriented ChromosomesAnalysis of chromosome loss and non-disjunction in cytokinesis-blocked lymphocytes of 24 male subjectsSimultaneous inhibition of contractile ring and central spindle formation in mammalian cells treated with cytochalasin BEffects of 5-azacytidine on the centromeric region of human fibroblasts studied by CREST staining and in situ hybridization on cytokinesis-blocked cellsAsymmetric clustering of centrosomes defines the early evolution of tetraploid cells
P50
Q27309203-29ADD8A9-246A-4316-9349-57893B088E35Q27335480-C1D15AB5-B1A3-4E3F-8141-E4AA6EE6DEE7Q27345177-E5E8B7A0-B566-46E2-AACB-EBB2CF589EC8Q28305958-687D1155-E178-4DBF-9DF5-97D6BA73FAB2Q30510172-E313876D-6072-4336-AE2C-FFA01461A73EQ30539766-E6B0C000-1FA0-4DAA-9611-E8408B8ED34FQ33842047-D38BB1A1-4721-494E-B93B-8F1576E29524Q34562965-39461955-80EC-4496-92EE-443BB50679C7Q35646744-6AC678BE-7E43-482D-96C9-D0F041FA733BQ35897711-8FE1DF6A-13FC-4B6B-81A4-1884BB139C99Q35973630-4D93EA6C-5940-4769-A659-9372D7BCC976Q36129367-235AF898-76DB-4BF0-B732-8964F565634AQ36197388-21EAA2FE-6940-4DE1-A388-0CF14B8EFC72Q36360359-F64ACFE1-856D-4B9C-A832-EE882F4C90F3Q36666738-4120407C-F804-4132-91AC-B3D5404A2F3CQ36915510-E7B59DA7-E79E-4CFB-A0D3-578A336559ECQ37189844-FEE37FC8-C2BF-4C65-995E-07FD95C2AE94Q37838569-4B62FB0F-8BBE-47BB-9B2A-930F43F37744Q37933890-78C9ACA4-4DC1-4EB0-881E-1CF26ABF6AD3Q38033746-38DEA9EF-D787-426B-8070-9CCBFDB0247BQ38218123-532EECD1-1671-4384-ACAB-7C141E736CC7Q38364569-8D50E507-00E5-4A5E-8BD2-7ACFE8FA0CC7Q38382440-31A6ACB5-4BBD-4E46-A209-46BA2A558701Q38751459-BD08014C-878D-4D36-9F58-AFF4C7F7BDE0Q40999477-4D06A33B-2D39-485B-93C1-E325BBE2DE71Q41139689-A4A49F14-3749-4358-94F1-64C7C8B72156Q42319787-300573AE-9348-493D-8559-B77D6B3A06E4Q42367869-40A3C7CC-814C-4270-8FF4-6604D820BDECQ42708038-78DF53E2-9219-4D36-BCEF-9C82AB91414AQ45024015-89ED170F-3C2E-484F-85F5-10676717FA29Q45034296-58A4DEE8-7E7B-4BA9-8FA8-D90931A18DCFQ48093295-81719BEE-87EA-47D1-A7CC-9052D927FAE2Q49921097-E3102FD1-63F9-475D-B68F-48F0ADE49564Q55339618-E9EDFE6E-C330-48DD-A94B-784B223F9CB9Q60678609-E95FFE24-FDD0-4307-8A55-892B377627E5Q60678615-824EC79C-DE4C-4A7F-9A9B-9F50C77FD028Q60678626-7FD75155-05FF-49F6-BA27-BD61C28B2BEEQ60678637-CFBA1041-94C1-45D6-8AB1-8D1F486AE63CQ94456290-D1E4A87E-B61C-46FC-93A3-9C175D80B30B
P50
description
hulumtuese
@sq
researcher
@en
wetenschapper
@nl
հետազոտող
@hy
name
Daniela Cimini
@ast
Daniela Cimini
@en
Daniela Cimini
@es
Daniela Cimini
@fr
Daniela Cimini
@nl
Daniela Cimini
@sl
type
label
Daniela Cimini
@ast
Daniela Cimini
@en
Daniela Cimini
@es
Daniela Cimini
@fr
Daniela Cimini
@nl
Daniela Cimini
@sl
prefLabel
Daniela Cimini
@ast
Daniela Cimini
@en
Daniela Cimini
@es
Daniela Cimini
@fr
Daniela Cimini
@nl
Daniela Cimini
@sl
P1053
A-3039-2016
P106
P21
P31
P3829
P496
0000-0002-4082-4894