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1

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Interaction of rat muscle AMP deaminase with myosin - I. Biochemical study of the interaction of AMP deaminase and myosin in rat muscle

Shiraki, H. ; Ogawa, H. ; Matsuda, Y. ; [et al.]

Amsterdam : Elsevier

BBA - Enzymology 566 (1979), S. 335-344

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ISSN: 0005-2744

Keywords: (Rat muscle) ; AMP deaminase ; Myosin interaction

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0005-2744(79)90037-8

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2

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Interaction of rat muscle AMP deaminase with myosin - II. Modification of the kinetic and regulatory properties of rat muscle AMP deaminase by myosin

Shiraki, H. ; Ogawa, H. ; Matsuda, Y. ; [et al.]

Amsterdam : Elsevier

BBA - Enzymology 566 (1979), S. 345-352

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ISSN: 0005-2744

Keywords: AMP deaminase ; Myosin ; Regulatory properties

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology

Type of Medium: Electronic Resource

URL: http://linkinghub.elsevier.com/retrieve/pii/0005-2744(79)90038-X

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3

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The peptide sequences near the bound pyridoxal phosphate are conserved in serine dehydratase from rat liver, and threonine dehydratases from yeast and Escherichia coli

Ogawa, H. ; Konishi, K. ; Fujioka, M.

Amsterdam : Elsevier

Biochimica et Biophysica Acta (BBA)/Protein Structure and Molecular 996 (1989), S. 139-141

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ISSN: 0167-4838

Keywords: (E. coli) ; (Rat liver) ; (Yeast) ; Peptide sequence ; Pyridoxalphosphate ; Serine dehydratase ; Threonine dehydratase

Source: Elsevier Journal Backfiles on ScienceDirect 1907 - 2002

Topics: Biology , Chemistry and Pharmacology , Medicine

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1016/0167-4838(89)90106-4

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4

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Receptive field properties of thalamo-cortical taste relay neurons in the parvicellular part of the posteromedial ventral nucleus in rats (1988)

Ogawa, H. ; Nomura, T.

Springer

Experimental brain research 73 (1988), S. 364-370

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ISSN: 1432-1106

Keywords: Rats ; Thalamus ; Relay neurons ; Taste ; Mechanoreception ; Receptive fields ; Post-stimulus time histogram

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Twenty-five taste and 35 mechanoreceptive neurons were recorded from the parvicellular part of the posteromedial ventral nucleus (VPMpc) in rats. Among them, 14 (56%) of the taste and 7 (18.4%) of the mechanoreceptive neurons were antidromically activated from the cortical taste area (CTA) with a latency of 1–4 ms and identified as thalamocortical (TC) relay neurons. No significant differences were evident in the receptive field properties or in the location in the VPMpc between the TC and non-TC neuron groups. Two classes of TC neurons were recognized: one class consisted of neurons which were most excited by NaCl among the four basic taste stimuli with receptive fields (RFs) confined to a part of the oral cavity, e.g. the anterior tongue, and the other class contained neurons which were most excited by sucrose or HCl, with RFs over a wide area of the oral cavity. Both the TC and non-TC neurons showed similar effects of CTA stimulation: post-stimulus time histograms revealed a long lasting inhibition followed by a rebound facilitation of spontaneous discharge.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00248229

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5

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Difference in taste quality coding between two cortical taste areas, granular and dysgranular insular areas, in rats (1992)

Ogawa, H. ; Hasegawa, K. ; Murayama, N.

Springer

Experimental brain research 91 (1992), S. 415-424

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ISSN: 1432-1106

Keywords: Taste ; Insular cortex ; Response profile ; Inhibitory response ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The responses of 84 taste neurons to stimulation of the oral cavity in rats were examined; most taste neurons were found in either a granular insular area (area GI; n = 55) or dysgranular insular area (DI; n = 25), and the others (n = 4) were in an agranular insular area (area AI). The fraction of neurons responding to only one of the four basic stimuli was significantly larger in area GI than in area DI. When neurons were classified by the stimulus which most excited the neuron among the four basic stimuli, every “best-stimulus category” of neurons was found in both GI and DI areas. Quinine-best and “multistimulus-type” neurons, whose responses to some non-best stimulus exceeded 90% of the maximum, were more numerous in the cortex than in the thalamocortical relay neurons. When responses were plotted against taste stimuli arranged in the order of sucrose, NaCl, HCl, and quinine along the abscissa (taste coordinate), response profiles of taste neurons often showed two peaks. The double-peaked type of response profiles were found in every best-stimulus category of neurons in both areas; though, a significantly large fraction of quinine-best neurons in area GI were of the double-peaked type. Some taste neurons in area GI (n = 21) and in area DI (n = 7) were inhibited by one to two taste stimuli, particularly by the stimuli present next to the best one along the taste coordinate. In correlation profiles — correlation coefficients between sucrose and NaCl and between HCl and quinine — pairs of stimuli which were located next to each other on the taste coordinate were significantly smaller in area GI than in area DI. It is thus highly probable that area GI plays an important role in fine taste discrimination and area DI in integration of taste information.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00227838

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6

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Response properties of the parabrachio-thalamic taste and mechanoreceptive neurons in rats (1987)

Ogawa, H. ; Hayama, T. ; Ito, S.

Springer

Experimental brain research 68 (1987), S. 449-457

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ISSN: 1432-1106

Keywords: Parabrachial nucleus ; Parabrachiothalamic relay neurons ; Taste ; Mechanoreception ; Rats

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A total of 66 taste and 33 mechanoreceptive neurons were isolated from the parabrachial nucleus (PB) of rats. Among them, 39 taste and 8 mechanoreceptive neurons were identified as parabrachio-thalamic relay (P-T) neurons on the basis of antidromic activation from either or both sides of the thalamic taste areas (TTAs). On average, the P-T taste neurons produced larger response magnitudes than the non-P-T taste neurons, and whereas about half the P-T taste neurons were NaCl-best, only a small number of the non-P-T taste neurons were NaCl-best. Both the P-T and non-P-T taste neurons showed a similar breadth of responsiveness to four basic taste stimuli. The response magnitudes of the P-T taste neurons to all taste stimuli were ca. 3 times larger than those of the solitario-parabrachial relay (SP) neurons (afferents to the PB); in particular, the response magnitudes of the NaCl-best P-T neurons were 4–5 times larger than those of the NaCl-best SP neurons. The response magnitudes and breadth of taste responsiveness of the P-T taste neurons were reciprocally correlated with the antidromic latencies from either side of the TTAs. A histological examination revealed that the P-T taste neurons in the ventral part of the PB had a shorter antidromic latency from the ipsilateral TTA than those in the dorsal part of the nucleus. Mechanoreceptive neurons were excited by stroking the tissue in the oral cavity or perioral tissue, or by pinching them with non-serrated forceps. The mechanoreceptive P-T neurons were also activated from either or both sides of the TTAs. No particular relation was noticed between the antidromic latency of the mechanoreceptive P-T neurons and their response properties or locations in the nucleus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00249789

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7

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Responsiveness of solitario-parabrachial relay neurons to taste and mechanical stimulation applied to the oral cavity in rats (1984)

Ogawa, H. ; Imoto, T. ; Hayama, T.

Springer

Experimental brain research 54 (1984), S. 349-358

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ISSN: 1432-1106

Keywords: Rats ; Solitary tract nucleus ; Solitario-parabrachial relay neurons ; Taste ; Mechanoreception

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary A total of 311 units, responsive to natural stimulation of the oral cavity, were isolated from the rostral part of the solitary tract nucleus (NTS) of rats. Of these, 169 “taste neurons”, activated by taste stimulation, and 142 mechanoreceptive units, exclusively sensitive to mechanical stimulation of the oral cavity, were found. Most taste units (62.3%) were also excited by mechanical stimulation. Forty-three (34.1%) of the 126 taste units examined were identified as solitario-parabrachial relay (SP) neurons by antidromic stimulation from the ipsilateral dorsal pons, while only eleven (12.6%) of the 87 mechanoreceptive units were SP neurons. Taste SP neurons could be divided into two subgroups according to their antidromic latency; the fast SP units with an antidromic latency shorter than 9 ms and slow SP units with a longer antidromic latency. These two subgroups were not differentiated in any physiological properties except that the fast SP neurons were frequently excited by sucrose. Taste neurons were classified according to the best stimulus of the four basic taste solutions to produce the largest number of discharges in each neuron. All types of taste neurons were found among the SP and non-SP neurons, but only a small number of quinine-best neurons (n = 2) were found in the SP neuron group compared to the number of quinine-best neurons in the non-SP neuron group (n = 10). A histological examination of the recording sites revealed that taste relay neurons were found at the central or dorsal part of the nucleus but mechanoreceptive relay neurons were found at the peripheral part, although relay and non-relay neurons of either class were intermingled in the nucleus.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236236

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8

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Difference in receptive field features of taste neurons in rat granular and dysgranular insular cortices (1992)

Ogawa, H. ; Murayama, N. ; Hasegawa, K.

Springer

Experimental brain research 91 (1992), S. 408-414

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ISSN: 1432-1106

Keywords: Taste ; Cortex ; Receptive fields ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Receptive fields (RFs) of 59 cortical taste neurons (35 in the granular insular area, area GI, 21 in the dysgranular insular area, area DI, and 3 in the agranular insular area, area AI) were identified in the oral cavity of the rat. The fraction of the neurons with RFs in the anterior oral cavity only was significantly larger in area GI (74.3%) than in area DI (42.9%). On the other hand, the fraction of neurons with RFs in both the anterior and posterior oral cavity was larger in area DI (42.9%) than in area GI (11.4%). On the whole, it is suggested that area GI is involved in discrimination of several taste stimuli in the oral cavity, whereas in area DI taste information originating from various regions of the oral cavity is integrated. When neurons were classified according to the best stimulus which most excited the neuron among the four basic tastes, different categories of taste neurons had RFs in different parts of the oral cavity. It is suggested that, in either taste area, different categories of taste neurons are involved in different sorts of taste coding. The majority of neurons in both areas had bilateral RFs. In area GI, neurons with RFs on single subpopulations of taste buds were significantly more numerous at the rostral region of the cortex than at the caudal region. There was no such relation between RF types and cortical localization in area DI. Otherwise, topographic representation of the oral cavity by taste neurons on the cortical surface was not obvious. RF features of taste neurons did not differ across layers in either cortical area.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00227837

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Receptive fields of solitario-parabrachial relay neurons responsive to natural stimulation of the oral cavity in rats (1984)

Ogawa, H. ; Hayama, T.

Springer

Experimental brain research 54 (1984), S. 359-366

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ISSN: 1432-1106

Keywords: Rats ; Taste ; Mechanoreception ; Receptive field ; Solitario-parabrachial relay neurons

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The receptive field (RF) of 67 taste and 85 mechanoreceptive neurons in the solitary tract nucleus (NTS) were located in the oral cavity in albino rats. All of the taste and most (62.4%) of the mechanoreceptive neurons examined had an RF on the ipsilateral side of the tongue and/or the palate. Regardless of whether they were solitario-parabrachial relay (SP) neurons or non-SP neurons, RFs of taste neurons were found on the anterior as well as the posterior tongue. But there were some differences in the RF distribution between the SP and non-SP mechanoreceptive neurons. Most of the mechanoreceptive SP neurons (9 of 11) had an RF on the tongue, while ca. half of the mechanoreceptive non-SP neurons (43 of 79) had an RF on the tongue and palate, but the rest had an RF on other tissue. Most of the neurons studied had a small restricted RF, but complex RFs, e.g. two separate RFs on the tongue, were found in a relatively small number of neurons (four taste and five mechanoreceptive neurons). An inhibitory RF, usually in a remote place from the excitatory RFs, was found in four mechanoreceptive neurons but no inhibitory RFs for taste neurons. Electrical stimulation of the epithelium in the RF with a low current of short duration evoked a few spikes in most units. Two of the three units, giving rise to a vigorous response to taste stimulation, but having single restricted RFs on the anterior tongue, produced a train of spikes lasting more than 20 ms in response to electrical stimulation of the RF. Neurons with RFs on the anterior tongue and those with RFs on the posterior tongue were located in different regions in the NTS, suggesting a possible somatotopic representation of the oral cavity in the nucleus. RFs of neither taste neurons nor mechanoreceptive neurons could be found in the tongue region containing the circumvallate papilla. The possible reasons are discussed.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236237

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Receptive field properties of the parabrachio-thalamic taste and mechanoreceptive neurons in rats (1987)

Hayama, T. ; Ito, S. ; Ogawa, H.

Springer

Experimental brain research 68 (1987), S. 458-465

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ISSN: 1432-1106

Keywords: Parabrachio-thalamic relay neurons ; Parabrachial nucleus ; Taste ; Mechanoreception ; Receptive field ; Oral cavity ; Rat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Receptive fields (RFs) of 36 taste (the 22 parabrachio-thalamic relay (P-T) and 14 non-P-T) and 23 mechanoreceptive neurons (7 P-T and 16 non P-T) were located in the oral cavity of rats. All of the taste and most of the mechanoreceptive units examined had an RF on the ipsilateral side of the tongue or palate, but some mechanoreceptive P-T and non-P-T units had RFs bilaterally. When the RFs of taste neurons were examined with the most effective of the four basic taste (the best stimulus) and non-best stimuli, no difference was noticed in the location of RFs between the P-T and non-P-T neurons. Though most of the P-T neurons (7/11) and all of the non-P-T neurons (6/6) had an RF for non-best stimuli at a region similar to that for the best stimulus, some P-T neurons (4/11) had an RFs for non-best stimulus outside the RF for the best stimulus and/or on the region separate from the RF for the best stimulus. The P-T neurons, responding vigorously to non-optimal stimuli as well as to the best stimulus, had an RF outside the RF for the best stimulus. RFs for mechanical stimulation were also examined in some taste and mechanoreceptive neurons. The mechanoreceptive P-T units rarely had an RF exclusively on the palate. Some mechanoreceptive units had an RF on the region where no taste RF has been found, e.g. the intermolar eminence and the folium of the hard palate.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00249790

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