- Axoneme
Numerous
eukaryotic cells carry whip-like appendages (cilia oreukaryotic flagella ) whose inner core consists of a cytoskeletal structure called the axoneme. The axoneme serves as the "skeleton" of theseorganelles , both giving support to the structure and, in some cases, causing it to bend. Though distinctions of function and/or length may be made between cilia and flagella, the internal structure of the axoneme is common to both.The building block of the axonmene is the
microtubule ; each axoneme is composed of several microtubules aligned inparallel . More specifically, the microtubules are arranged in a characteristic pattern known as the “9x2 + 2," as shown in the image at right. Nine sets of "doublet" microtubules (a specialized structure consisting of two linked microtubules) form a ring around a "central pair" of single microtubules.Besides the microtubules, the axoneme contains many
protein s and protein complexes necessary for its function. Thedynein arms, for example, are motor complexes which produce the force needed for bending. Each dynein arm is anchored to a doublet microtubule; by "walking" along an adjacent microtubule, the dynein motors can cause the microtubules to slide against each other. When this is carried out in a synchronized fashion, with the microtubules on one side of the axonmene being pulled 'down' and those on the other side pulled 'up,' the axoneme as a whole can bend back and forth. This process is responsible for ciliary/flagellar beating, as in the well-known example of thehuman sperm .The
radial spoke is another protein complex of the axoneme. Thought to be important in regulating the motion of the axoneme, this "T"-shaped complex projects from each set of outer doublets toward the central microtubules.The axoneme structure in non-motile
primary cilium shows some variation from the canonical “9x2 + 2” anatomy. No dynein arms are found on the outer doublet microtubules, and there is no pair of central microtubule singlets. This organization of axoneme is referred as “9x2 + 0”. In addition, “9x2 + 1” axonemes, with only a single central microtubule, have been found to exist. Primary cilia appear to serve sensory functions.Further reading
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