2015
A comprehensive model to predict mitotic division in budding yeasts
Sutradhar S, Yadav V, Sridhar S, Sreekumar L, Bhattacharyya D, Ghosh S, Paul R, Sanyal K. A comprehensive model to predict mitotic division in budding yeasts. Molecular Biology Of The Cell 2015, 26: 3954-3965. PMID: 26310442, PMCID: PMC4710229, DOI: 10.1091/mbc.e15-04-0236.Peer-Reviewed Original ResearchConceptsCell divisionNuclear migrationChromosome segregationCytoplasmic microtubulesHigh-fidelity chromosome segregationMitotic cell divisionSystems biology approachSpindle orientationSpindle alignmentBiology approachMajor phylaMitotic eventsMitotic divisionMicrotubule dynamicsDistinct pathwaysYeastMinimal computational modelCortical dyneinPhylaDivisionEffects of perturbationsAscomycotaBasidiomycotaMigrationInterdependent interactions
2014
Budding Yeast Kinetochore Proteins, Chl4 and Ctf19, Are Required to Maintain SPB-Centromere Proximity during G1 and Late Anaphase
Sau S, Sutradhar S, Paul R, Sinha P. Budding Yeast Kinetochore Proteins, Chl4 and Ctf19, Are Required to Maintain SPB-Centromere Proximity during G1 and Late Anaphase. PLOS ONE 2014, 9: e101294. PMID: 25003500, PMCID: PMC4086815, DOI: 10.1371/journal.pone.0101294.Peer-Reviewed Original ResearchConceptsSpindle pole bodyKinetochore proteinsKinetochore componentsLate anaphaseYeast kinetochore proteinsCentromere/kinetochoreMicrotubule-dependent forcesKinetochore microtubule dynamicsProtein-protein interactionsKinetochore-microtubule interactionsWild-type cellsPolar ejection forcesCtf19 complexFunctional kinetochoreProtein complexesPole bodyMutant cellsKinetochoresCentromeresComplex membersMicrotubule dynamicsCell cycleCtf19pRescue frequencyPhysical interaction