Kinetochore function: The complications of becoming attached

Slides:

Advertisements

Similar presentations

PROPHASE METAPHASE ANAPHASE TELOPHASE.  Chromosomes condense and nucleoli disappear  Each duplicated chromosome becomes visible as distinct sister chromatids.

Advertisements

M/A: Spindle assembly checkpoints Empirical observations: arrest of mitotic progress in presence of spindle poisons (e.g., colcemid) Delay of mitotic progress.

Molecular Biology of the Cell Fifth Edition Molecular Biology of the Cell Fifth Edition The Cell Cycle.

Primary Research Paper: Cell & Molecular Biology

Mechanisms and Molecules of the Mitotic Spindle

Stephen W Scherer, Joseph Cheung Current Biology

Volume 12, Issue 1, Pages (July 2015)

Volume 8, Issue 9, Pages R177-R185 (September 2000)

Mitosis: New Roles for Myosin-X and Actin at the Spindle

Tumor progression: Defining the soil round the tumor seed

DNA repair: Polymerases for passing lesions

Chromatin replication: Finding the right connection

Oncogenic B-Raf mutations

Generalizable Learning: Practice Makes Perfect — But at What?

Sensory-Motor Integration: More Variability Reduces Individuality

Microbiology: Mixing Wine, Chocolate, and Coffee

Kinetochores: NDC80 Toes the Line

Mps1 Checks Up on Chromosome Attachment

Cell Division: Experiments and Modelling Unite to Resolve the Middle

Microtubule Flux: What Is It Good for?

Intermediate Filaments: Vimentin Moves in

Spindle pole bodies Current Biology

Mohan K. Balasubramanian, Erfei Bi, Michael Glotzer Current Biology

How Kinetochore Architecture Shapes the Mechanisms of Its Function

Volume 25, Issue 24, Pages R1156-R1158 (December 2015)

Hydra Kristine M. Glauber, Catherine E. Dana, Robert E. Steele

Verena N. Lorenz, Michael P. Schön, Cornelia S. Seitz

Spindle Positioning: Actin Mediates Pushing and Pulling

And the Dead Shall Rise: Actin and Myosin Return to the Spindle

Root patterning: SHORT ROOT on the move

Germ Plasm: Protein Degradation in the Soma

Volume 22, Issue 16, Pages R620-R622 (August 2012)

Volume 23, Issue 7, Pages R265-R266 (April 2013)

Volume 25, Issue 19, Pages R815-R817 (October 2015)

Kinetochore Orientation in Mitosis and Meiosis

Morphogenesis: A Mob Rules from the Rear

Samuel F. Bakhoum, Giulio Genovese, Duane A. Compton Current Biology

Structure prediction: The state of the art

The centrosome Current Biology

Order and Disorder in the Nucleus

Mitosis: Too Much of a Good Thing (Can Be Bad)

Kinetochores and Microtubules Wed without a Ring

DNA repair: Rad52 – the means to an end

Cell cycle: Driving the centrosome cycle

Telomeres: The Molecular Events Driving End-To-End Fusions

PLK1 Inhibitors: Setting the Mitotic Death Trap

The spindle assembly checkpoint

Samuel F. Bakhoum, Giulio Genovese, Duane A. Compton Current Biology

Chromosome Segregation: Correcting Improperly Attached Chromosomes

Tight junctions: Closing in on the seal

Volume 7, Issue 6, Pages R147-R151 (June 2000)

Osteoarthritis year 2012 in review: biology

Orchestrating Twosome and Foursome Chromosome Parties

Claire E Walczak, Timothy J Mitchison Cell

Radhika Subramanian, Tarun M. Kapoor Developmental Cell

Cell Cycle: New Functions for Cdc14 Family Phosphatases

Volume 18, Issue 15, Pages R641-R645 (August 2008)

Captivating Capture: How Microtubules Attach to Kinetochores

Decoding the links between mitosis, cancer, and chemotherapy: The mitotic checkpoint, adaptation, and cell death Beth A.A. Weaver, Don W. Cleveland

Chromosome Segregation: Not to Put Too Fine a Point (Centromere) On It

NAP5: the tip of the iceberg, or all we need to know?

Tight junctions Current Biology

Tension develops across sister kinetochores (red) upon their bipolar attachment by spindle microtubules (black line). Tension develops across sister kinetochores.

Cytoskeleton: CLASPing the end to the edge

Volume 111, Issue 5, Pages (September 2016)

Plant Development: Lessons from Getting It Twisted

Just the Beginning: Novel Functions for Angiotensin-Converting Enzymes

Volume 12, Issue 12, Pages R412-R414 (June 2002)

Ran GTPase cycle: One mechanism — two functions

Chromosome Segregation: Seeing Is Believing

Presentation transcript:

Kinetochore function: The complications of becoming attached Aaron A Van Hooser, Rebecca Heald Current Biology Volume 11, Issue 21, Pages R855-R857 (October 2001) DOI: 10.1016/S0960-9822(01)00515-2

Fig. 1 A diagram illustrating the components of the budding yeast kinetochore that have been implicated in microtubule attachment. The names of homologous proteins in different organisms are also given. Overlap of components denotes biochemical and/or genetic interactions. The effects of mutation or absence of a component is coded by color: red component defects cause a complete loss of chromosome attachment to the spindle; orange component defects cause monopolar attachment or loss of bipolar attachment phenotypes; and green component defects have a less severe effect, characterized by mitotic delay and/or diminished chromosome movement. Current Biology 2001 11, R855-R857DOI: (10.1016/S0960-9822(01)00515-2)