006 causes reversible chromosome misalignment A Images of Biology Diagrams

006 causes reversible chromosome misalignment A Images of Biology Diagrams Moreover, loss of POS3 results in prolonged mitosis, increased aneuploidy, and misaligned chromosomes near the spindle poles. Unexpectedly, we discovered a direct physical interaction and functional link between POS3 and the microtubule polymerase MICROTUBULE ORGANIZATION1 (MOR1) in regulating chromosome alignment and segregation during mitosis.

Chromosome alignment in human cells relies on the concerted action of motor-dependent and -independent mechanisms, which are determined by chromosome positioning at nuclear envelope breakdown (NEB), the establishment of end-on or lateral kinetochore-microtubule interactions and specific tubulin post-translational modifications. 1-8 Despite its key role in promoting mitotic fidelity, 9-11

Boveri and beyond: Chromothripsis and genomic instability from mitotic ... Biology Diagrams

Genome dynamics that support DSB repair rely on chromatin states, repair-protein condensates, nuclear or cytoplasmic microtubules and actin filaments, kinesin or myosin motor proteins, the nuclear

We observed an altered abundance of transcripts that encode mitotic regulators and mitotic chromosome misalignment defects following Btf and/or TRAP150 depletion. We propose that, in addition to their previously reported roles in maintaining mRNA distribution, Btf and TRAP150 control the abundance of transcripts encoding mitotic regulators

Nuclear and genome dynamics underlying DNA double Biology Diagrams

Defining mitotic cells in a Cartesian plane. (A) Representative images of mitotic cells with aligned and misaligned chromosomes. HeLa S3 cells were fixed and immunostained with CREST serum to mark the kinetochores, γ-tubulin for the spindle poles, and α-tubulin for the mitotic spindle. DNA was stained with Hoechst. The mitotic index, percent of mitotic cells that had chromosomes misaligned toward the mother spindle pole, and the percent of mitotic cells that had chromosomes misaligned toward both spindle poles are shown. These measurements were completed for control shRNA HeLa cells as well as cenexin shRNA HeLa cells treated with 100 nm of nocodazole, 10