microtubule organizing center

(noun)

The microtubule-organizing center (MTOC) is a structure found in eukaryotic cells from which microtubules emerge. MTOCs have two main functions: the organization of eukaryotic flagella and cilia and the organization of the mitotic and meiotic spindle apparatus, which separate the chromosomes during cell division.

Related Terms

Examples of microtubule organizing center in the following topics:

  • Centrosome

    • The centrosome is an organelle that is the main microtubule organizing center of the animal cell and a regulator of cell-cycle progression.
    • In cell biology, the centrosome is an organelle that serves as the main microtubule organizing center (MTOC) of the animal cell as well as a regulator of cell-cycle progression.
    • Fungi and plants use other MTOC structures to organize their microtubules.
    • Unlike centrioles, centrosomes are required for survival of the organism.
    • Microtubules are anchored at the centrosomes.

  • Intermediate Filaments and Microtubules

    • As their name implies, microtubules are small hollow tubes.
    • Microtubules are the largest element of the cytoskeleton.
    • In animal cells, the centrosome is the microtubule-organizing center.
    • This is an appropriate name because a single flagellum or cilium is made of a ring of nine microtubule doublets surrounding a single microtubule doublet in the center .
    • This transmission electron micrograph of two flagella shows the 9 + 2 array of microtubules: nine microtubule doublets surround a single microtubule doublet.

  • Comparing Plant and Animal Cells

    • While both animal and plant cells have microtubule organizing centers (MTOCs), animal cells also have centrioles associated with the MTOC: a complex called the centrosome.
    • The centrosome is a microtubule-organizing center found near the nuclei of animal cells.
    • Each centriole is a cylinder of nine triplets of microtubules.
    • Each centriole is a cylinder made up of nine triplets of microtubules.
    • Nontubulin proteins (indicated by the green lines) hold the microtubule triplets together.

  • Replicative Cycle of Influenza A

    • It is known that virions converge to the microtubule organizing center, interact with acidic endosomes, and finally enter the target endosomes for genome release.

  • Characteristics of Eukaryotic Cells

    • Because a eukaryotic cell's nucleus is surrounded by a membrane, it is often said to have a "true nucleus. " Organelles (meaning "little organ") have specialized cellular roles, just as the organs of your body have specialized roles.
    • In prokaryotes, DNA is organized into a single circular chromosome.
    • The centrosome is a microtubule-organizing center found near the nuclei of animal cells while lysosomes take care of the cell's digestive process.

  • Binary Fission

    • Binary fission is the method by which prokaryotes produce new individuals that are genetically identical to the parent organism.
    • For unicellular organisms, cell division is the only method used to produce new individuals.
    • In unicellular organisms, daughter cells are individuals.
    • A septum is formed between the nucleoids, extending gradually from the periphery toward the center of the cell.
    • FtsZ proteins can form filaments, rings, and other three-dimensional structures that resemble the way tubulin forms microtubules, centrioles, and various cytoskeletal components.

  • The Mitotic Phase and the G0 Phase

    • Microtubules that will eventually form the mitotic spindle extend between the centrosomes, pushing them farther apart as the microtubule fibers lengthen.
    • The proteins of the kinetochore attract and bind mitotic spindle microtubules.
    • Each chromatid, now called a chromosome, is pulled rapidly toward the centrosome to which its microtubule is attached.
    • There, the vesicles fuse and coalesce from the center toward the cell walls; this structure is called a cell plate.
    • A cell plate formed by the fusion of the vesicles of the phragmoplast grows from the center toward the cell walls and the membranes of the vesicles fuse to form a plasma membrane that divides the cell in two.

  • Meiosis I

    • The centrosomes, which are the structures that organize the microtubules of the meiotic spindle, also replicate.
    • Microtubules grow from centrosomes placed at opposite poles of the cell.
    • The microtubules move toward the middle of the cell and attach to one of the two fused homologous chromosomes at the kinetochores.
    • In anaphase I, the microtubules pull the attached chromosomes apart.
    • In some organisms, the chromosomes decondense and nuclear envelopes form around the chromatids in telophase I.

  • Development of Nervous Tissue

    • In vertebrates, the first sign of the nervous system is the appearance of a thin strip of cells along the center of the back, called the neural plate .
    • In the early 20th century, a set of famous experiments by Hans Spemann and Hilde Mangold showed that the formation of nervous tissue is "induced" by signals from a group of mesodermal cells called the organizer region.
    • As shown in a 2008 study, one factor common to all bilateral organisms (including humans) is a family of secreted signaling molecules called neurotrophins which regulate the growth and survival of neurons.
    • Because neurotrophins have now been identified in both vertebrate and invertebrates, this evidence suggests that neurotrophins were present in an ancestor common to bilateral organisms and may represent a common mechanism for nervous system formation.
    • F-Actin in red, Microtubules in green.

  • Fluorescence Microscopy

    • Staining organisms with these special dyes reduces the non-specific autofluorescence that some organisms can emit.
    • Cells or organisms stained with fluorochromes appear colored against a dark background when fixed on a glass slide .
    • Nuclei are stained blue with DAPI, microtubules are stained green by an antibody bound to FITC and actin filaments are labelled red with phalloidin bound to TRITC.