Ultrastructure and Function of Cephalopod Chromatophores |
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Authors: | FLOREY ERNST |
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Institution: | Department of Zoology, University of Washington Seattle, Washington 98105 |
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Abstract: | SYNOPSIS. Each chromatophore organ consists of a pigment celland of several radial muscle fibers that represent separatecells. The pigment granules are contained within an elasticsacculus within the pigment cell. The sacculus is attached aroundthe equator of the chromatophore to the cell membrane by zonalhaptosomes. In turn, the cell membrane is attached to the radialmuscle fibers by a dense basal lamina. The cell membrane ofthe retracted chromatophore is highly folded. Contraction ofthe radial muscle fibers is initiated by (a) excitatory junctionpotentials, (b) miniature potentials, or (c) spike potentials.The latter arise spontaneously in the muscle fibers when thesehave undergone some internal (metabolic?) change. The contractionof the muscle fibers causes expansion of the pigment-containingsacculus. Relaxation of the muscle fibers permits the sacculusto assume its original lenticular or near-spherical shape; theenergy for this is stored within theexpanded elastic componentsof the sacculus. In normal skin the chromatophore organs areentirely under the control of the central nervous system, themuscle fibers being activated only by local, excitatory postsynapticpotentials initiated by motor nerve impulses. That postsynapticpotentials are non-propagating insures that individual motorfibers can be activated individually, thus permitting a delicatecontrol of skin color by recruitment as well as by frequency.Tonic contractions and pulsations, involving spontaneous releaseof transmitter from nerve terminals and spike generation withinthe muscle fibers, respectively, are the result of altered,abnormal conditions within the skin. |
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