2015
DOI: 10.1007/s12017-015-8358-6
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Structure, Distribution, and Function of Neuronal/Synaptic Spinules and Related Invaginating Projections

Abstract: Neurons and especially their synapses often project long thin processes that can invaginate neighboring neuronal or glial cells. These “invaginating projections” can occur in almost any combination of postsynaptic, presynaptic, and glial processes. Invaginating projections provide a precise mechanism for one neuron to communicate or exchange material exclusively at a highly localized site on another neuron, e.g., to regulate synaptic plasticity. The best-known types are postsynaptic projections called “spinule… Show more

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Cited by 40 publications
(103 citation statements)
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References 192 publications
(351 reference statements)
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“…These results strengthen the premise that euchromatin is lightly packed in the form of DNA, RNA, and protein, and is usually under active transcription of DNA to mRNA products (Fortuny & Polo, 2017;Taneja et al, 2017). Because euchromatin is rich in gene concentration, and substantial part of the genome is continually being transcribed in keeping with the active synthetic state of cell (Petralia et al, 2015), the nuclear chromatin is generally dispersed when seen with the electron microscope and the nucleus usually has a vesicular appearance when viewed with the light microscope. As seen in EM, the ribosomal material is mainly in the form of multiple stacks of rER, free ribosomes and attached ribosomes.…”
Section: Discussionsupporting
confidence: 75%
“…These results strengthen the premise that euchromatin is lightly packed in the form of DNA, RNA, and protein, and is usually under active transcription of DNA to mRNA products (Fortuny & Polo, 2017;Taneja et al, 2017). Because euchromatin is rich in gene concentration, and substantial part of the genome is continually being transcribed in keeping with the active synthetic state of cell (Petralia et al, 2015), the nuclear chromatin is generally dispersed when seen with the electron microscope and the nucleus usually has a vesicular appearance when viewed with the light microscope. As seen in EM, the ribosomal material is mainly in the form of multiple stacks of rER, free ribosomes and attached ribosomes.…”
Section: Discussionsupporting
confidence: 75%
“…In the micrograph shown in the paper (Fig. 28 in Pavans de Ceccatty 1966; see also illustrations in Petralia et al 2015), a few of these filaments appear to extend up into the spine-like structure, which also contains some irregular vesiculate organelles. The cytoplasm of the opposing cell (a scleroblast) contains a variety of vesicles and vesiculate organelles near the invaginating spine-like structure, with at least one small vesicle appearing to contact the opposing membrane (i.e., that is across the “cleft”), and a mitochondrion also is adjacent to this contact point.…”
Section: Invaginating Spine Synapses In Early Animal Evolutionmentioning
confidence: 84%
“…Both the bouton-like and spine-like structures invaginate into the sides of other cells (Pavans de Ceccatty 1966). Invaginating projections are common in the nervous system of most kinds of animals, including many kinds that are directly associated with synapses, but in most cases, they are not definitive synaptic spines, simply because they do not form a direct chemical synapse with a presynaptic process; and except for this one example in sponges, they will not be described in this review (we have reviewed these structures in detail previously; Petralia et al 2015). While many of these invaginating projections are rather small structures, in some cases, the entire synaptic spine can be an invaginating projection into the presynaptic terminal.…”
Section: Invaginating Spine Synapses In Early Animal Evolutionmentioning
confidence: 99%
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