84 research outputs found
Pulsatile microvascular blood flow imaging by short-time Fourier transform analysis of ultrafast laser holographic interferometry
We report on wide-field imaging of pulsatile microvascular blood flow in the
exposed cerebral cortex of a mouse by holographic interferometry. We recorded
interferograms of laser light backscattered by the tissue, beating against an
off-axis reference beam with a 50 kHz framerate camera. Videos of local Doppler
contrasts were rendered numerically by Fresnel transformation and short-time
Fourier transform analysis. This approach enabled instantaneous imaging of
pulsatile blood flow contrasts in superficial blood vessels over 256 x 256
pixels with a spatial resolution of 10 microns and a temporal resolution of 20
ms.Comment: 4 page
In vitro mycorrhization of micropropagated plants: studies on Castanea sativa Mill.
In vitro mycorrhization can be made by several axenic and nonaxenic
techniques but criticism exists about their artificiality and inability to
reproduce under natural conditions. However, artificial mycorrhization under
controlled conditions can provide important information about the physiology
of symbiosis. Micropropagated Castanea sativa plants were inoculated with
the mycorrhizal fungus Pisolithus tinctorius after in vitro rooting. The
mycorrhizal process was monitored at regular intervals in order to evaluate the
mantle and hartig net formation, and the growth rates of mycorrhizal and
nonmycorrhizal plants. Plant roots show fungal hyphae adhesion at the surface
after 24 hours of mycorrhizal induction. After 20 days a mantle can be
observed and a hartig net is forming although the morphology of the epidermal
cells remains unaltered. At 30 days of root–fungus contact the hartig net is
well developed and the epidermal cells are already enlarged. After 50 days of
mycorrhizal induction, growth was higher for mycorrhizal plants than for
nonmycorrhizal ones. The length of the major roots was lower in mycorrhizal
plants after 40 days. Fresh and dry weights were higher in mycorrhizal plants
after 30 days. The growth rates of chestnut mycorrhizal plants are in agreement
with the morphological development of the mycorrhizal structures observed at
each mycorrhizal time. The assessment of symbiotic establishment takes into
account the formation of a mantle and a hartig net that were already developed
at 30 days, when differences between fresh and dry weights of mycorrhizal and
nonmycorrhizal plants can be quantified. In vitro conditions, mycorrhization
influences plant physiology after 20 days of root–fungus contact, namely in
terms of growth rates. Fresh and dry weights, heights, stem diameter and
growth rates increased while major root growth rate decreased in mycorrhizal
plants.Springe
Current and Calcium Responses to Local Activation of Axonal NMDA Receptors in Developing Cerebellar Molecular Layer Interneurons
In developing cerebellar molecular layer interneurons (MLIs), NMDA increases spontaneous GABA release. This effect had been attributed to either direct activation of presynaptic NMDA receptors (preNMDARs) or an indirect pathway involving activation of somato-dendritic NMDARs followed by passive spread of somatic depolarization along the axon and activation of axonal voltage dependent Ca2+ channels (VDCCs). Using Ca2+ imaging and electrophysiology, we searched for preNMDARs by uncaging NMDAR agonists either broadly throughout the whole field or locally at specific axonal locations. Releasing either NMDA or glutamate in the presence of NBQX using short laser pulses elicited current transients that were highly sensitive to the location of the spot and restricted to a small number of varicosities. The signal was abolished in the presence of high Mg2+ or by the addition of APV. Similar paradigms yielded restricted Ca2+ transients in interneurons loaded with a Ca2+ indicator. We found that the synaptic effects of NMDA were not inhibited by blocking VDCCs but were impaired in the presence of the ryanodine receptor antagonist dantrolene. Furthermore, in voltage clamped cells, bath applied NMDA triggers Ca2+ elevations and induces neurotransmitter release in the axonal compartment. Our results suggest the existence of preNMDARs in developing MLIs and propose their involvement in the NMDA-evoked increase in GABA release by triggering a Ca2+-induced Ca2+ release process mediated by presynaptic Ca2+ stores. Such a mechanism is likely to exert a crucial role in various forms of Ca2+-mediated synaptic plasticity
Interaction between Purkinje Cells and Inhibitory Interneurons May Create Adjustable Output Waveforms to Generate Timed Cerebellar Output
We develop a new model that explains how the cerebellum may generate the timing in classical delay eyeblink conditioning. Recent studies show that both Purkinje cells (PCs) and inhibitory interneurons (INs) have parallel signal processing streams with two time scales: an AMPA receptor-mediated fast process and a metabotropic glutamate receptor (mGluR)-mediated slow process. Moreover, one consistent finding is an increased excitability of PC dendrites (in Larsell's lobule HVI) in animals when they acquire the classical delay eyeblink conditioning naturally, in contrast to in vitro studies, where learning involves long-term depression (LTD). Our model proposes that the delayed response comes from the slow dynamics of mGluR-mediated IP3 activation, and the ensuing calcium concentration change, and not from LTP/LTD. The conditioned stimulus (tone), arriving on the parallel fibers, triggers this slow activation in INs and PC spines. These excitatory (from PC spines) and inhibitory (from INs) signals then interact at the PC dendrites to generate variable waveforms of PC activation. When the unconditioned stimulus (puff), arriving on the climbing fibers, is coupled frequently with this slow activation the waveform is amplified (due to an increased excitability) and leads to a timed pause in the PC population. The disinhibition of deep cerebellar nuclei by this timed pause causes the delayed conditioned response. This suggested PC-IN interaction emphasizes a richer role of the INs in learning and also conforms to the recent evidence that mGluR in the cerebellar cortex may participate in slow motor execution. We show that the suggested mechanism can endow the cerebellar cortex with the versatility to learn almost any temporal pattern, in addition to those that arise in classical conditioning
Improvement of in vitro plant cultures at laboratory and industrial scales: control of gaseous environment by using selective membranes as lids of culture containers
Rapport technique final*INRA, centre de Dijon Diffusion du document : INRA, centre de Dijo
Improvement of in vitro plant cultures at laboratory and industrial scales: control of gaseous environment by using selective membranes as lids of culture containers
Synthesis report*INRA, centre de Dijon Diffusion du document : INRA, centre de Dijo
NĂ©oformation de bourgeons et induction florale en culture de tissus : Ă©tude histo-physiologique
153 ref. *INRA, Centre de Dijon (FRA) Diffusion du document : INRA, Centre de Dijon (FRA) DiplĂ´me : Dr. d'Universit
Improvement of in vitro plant cultures at laboratory and industrial scales: control of gaseous environment by using selective membranes as lids of culture containers
Summary report*INRA, centre de Dijon Diffusion du document : INRA, centre de Dijo
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