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Keywords: Glia
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J Exp Biol (2006) 209 (12): 2304–2311.
Published: 15 June 2006
... and cellular basis for interpreting data obtained from functional brain imaging studies. In addition, this neuron–glia metabolic coupling undergoes plastic adaptations in parallel with adaptive mechanisms that characterize synaptic plasticity. Thus, distinct subregions of the hippocampus are metabolically...
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J Exp Biol (1992) 173 (1): 251–260.
Published: 1 December 1992
... fibre . Glia 3 , 393 – 404 . 10.1002/glia.440030511 Evans , P. D. , Reale , V. , Merzon , R. M. and Villegas , J. ( 1991a ). Mechanisms of axon-Schwann cell signalling in the squid nerve fibre . Proc. N. Y. Acad. Sci . 633 , 434 – 447 . 10.1111/j.1749-6632.1991...
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Journal Articles
J Exp Biol (1992) 167 (1): 119–154.
Published: 1 June 1992
... to the changing morphologies of their respective glia. In the central region of the main motor nerve, the multiple layers of glial processes surrounding each of the large axons withdraw, leaving them apposed. In the peripheral region of the main motor nerve and in the secondary and tertiary nerve branches...
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J Exp Biol (1990) 148 (1): 335–351.
Published: 1 January 1990
..., in the perineurial glia of an insect ganglion, and demonstrate physiological differences between the perineurium of the ganglion and that of other regions of the insect nervous system. 22 08 1989 © 1990 by Company of Biologists 1990 oscillation glia blood-brain barrier abdominal ganglion...
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J Exp Biol (1988) 139 (1): 51–65.
Published: 1 September 1988
... glia As with all neurones, the peptide-secretory neurone exerts control of release of its products at distant axon terminals by generation of somatodendritic action potentials. These are conducted along axons into terminal membranes where depolarization results in opening of voltage-sensitive...
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J Exp Biol (1987) 132 (1): 59–78.
Published: 1 September 1987
... to the first stage in the restoration of the blood-brain barrier and are responsible for recruiting reactive endogenous glia, apparently from the vicinity of the anterior abdominal ganglion. The granule-containing cells transform into or are replaced by functional glia between 3 and 5 days after selective...
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J Exp Biol (1986) 123 (1): 423–439.
Published: 1 July 1986
...P. K. Schofield; J. E. Treherne ABSTRACT Octopaminergic sensitivity of the glia that form the blood-brain barrier of the cockroach was examined using microelectrode recordings of the potential developed across this barrier layer, the perineurium. Exposure to 10 −4 moll −1 DL-octopamine had...
Journal Articles
J Exp Biol (1984) 109 (1): 307–318.
Published: 1 March 1984
... ). These folds projected among both sub-perineurial glia and axons, to a depth of up to 2 μ m ( Figs 3C , 4A ). Recordings from seven apparent perineurial cells ( Fig. 2A ) were compared with recordings made simultaneously from outside axons ( Fig. 2B ) in six preparations. Recorded depth of the cells...
Journal Articles
J Exp Biol (1984) 109 (1): 319–331.
Published: 1 March 1984
... to generate +25 mV. Thus a given change in K concentration would produce less change in p.d. across the membrane than in generated e.m.f. The change produced by a decade change in K had a slope greater than 34 mV per decade. This is much less than for leech glia (58 mV : Nicholls & Kuffler, 1964...
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