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1

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Simultaneous Spectrophotometric Determination of Cobalt and Nickel with 2,3-Quinoxalinedithiol. (1962)

Burke, R. W. ; Yoe, J. H.

s.l. : American Chemical Society

Analytical chemistry 34 (1962), S. 1378-1382

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ISSN: 1520-6882

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/ac60191a008

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2

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Extraction-Spectrophotometric Determination of Antimony as a Ternary Complex. (1966)

Burke, R. W. ; Menis, Oscar

s.l. : American Chemical Society

Analytical chemistry 38 (1966), S. 1719-1722

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ISSN: 1520-6882

Source: ACS Legacy Archives

Topics: Chemistry and Pharmacology

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1021/ac60244a022

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3

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Distribution of fibrillin I in extracellular matrix and epithelia during early development of avian embryos (2000)

Burke, R. D. ; Wang, D. ; Mark, S. ; [et al.]

Springer

Anatomy and embryology 201 (2000), S. 317-326

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ISSN: 1432-0568

Keywords: Key words Fibrillin-1 ; Microfibrils ; Embryonic development ; Extracellular matrix ; Marfan

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract Fibrillin microfibrils are widely distributed components of extracellular matrices that function in the formation of elastin, serve structural roles and provide substrates for cell adhesion. To determine when and how fibrillin-1 (fib-1) may function in early development we have examined the temporal and spatial distribution of fib-1 in chicken embryos. Using homologous PCR we amplified and cloned a 407 nt fragment of chicken cDNA that appears to code for an orthologue of FBN-1. Bacterially expressed protein was used to prepare two monoclonal antibodies, both of which recognize a 350 kD band in immunoblots or immunoprecipitates in supernatants of chicken embryonic aorta cells or human MG-63 cells. Both antibodies recognize fibrillar material associated with the surfaces of cultured cells. The antibodies appear to be specific for fib-1 as there was only weak cross reactivity to a bacterially expressed fragment from the corresponding region of fib-2 and the pattern of immunofluorescence in embryonic tissue is distinctly different from that of JB-3, a fib-2 specific antibody (Rongish et al. 1998). In embryos, fib-1 is first detected at stage 6 in the epiblast during gastrulation. In subsequent stages fib-1 fibers appear in all tissues and are present throughout the first 6 days of development. Immunoreactive fibers are present in basal laminae and mesenchyme filled spaces, but they also form random arrays with an apical-basal polarity within epithelia. Using primers specific for FBN-1 and FBN-2 in RT-PCR reactions we confirm the presence of fib-1 and fib-2 mRNA in early embryonic stages. This temporal and spatial distribution indicates fib-1 has functions in early development that are distinct from fib-2.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s004290050320

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4

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Do ecto- and ericoid mycorrhizal fungi produce peroxidase activity? (1998)

Cairney, J. W. G. ; Burke, R. M.

Springer

Mycorrhiza 8 (1998), S. 61-65

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ISSN: 1432-1890

Keywords: Key words Lignin degradation ; Fenton reaction ; Hymenoscyphus ericae ; Lignin peroxidase ; Ectomycorrhizal fungi

Source: Springer Online Journal Archives 1860-2000

Topics: Biology

Notes: Abstract Several reports attest to the apparent ability of some ectomycorrhizal (ECM) and ericoid (ERM) mycorrhizal fungi to produce peroxidase enzyme activities during growth in axenic culture. In critically reviewing these data, we highlight that apparent peroxidase activities have been observed during growth in media containing 60–70 μM Fe. ECM and ERM fungi are known to produce H2O2 via carbohydrate oxidase activity and conditions in common culture media are favourable to the production of hydroxyl radicals, superoxide radicals and ferryl ions via the Fenton reaction. Free radicals so produced can mediate oxidation of substrates commonly used in presumptive peroxidase assays, leading to false-positive results. We argue that there is currently no evidence to support production of peroxidase activity by ECM or ERM fungi, but highlight circumstances in which peroxidase expression might be observed in future work.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s005720050213

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5

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Disynaptic excitation from the medial longitudinal fasciculus to lumbosacral motoneurons: modulation by repetitive activation, descending pathways, and locomotion (1993)

Floeter, M. K. ; Sholomenko, G. N. ; Gossard, J. -P. ; [et al.]

Springer

Experimental brain research 92 (1993), S. 407-419

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ISSN: 1432-1106

Keywords: Spinal cord ; Interneurons ; Reticulospinal ; Fictive locomotion ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Short-latency excitatory postsynaptic potentials (EPSPs) evoked by stimulation in the medial longitudinal fasciculus (MLF) were recorded intracellularly from motoneurons in the cat lumbosacral spinal cord. Monosynaptic and disynaptic EPSPs occurred in most flexor and extensor motoneurons studied. These EPSPs resulted from the activation of fast (〉 100 m/s) descending axons from the MLF to the spinal cord. Several features distinguished monosynaptic and disynaptic MLF EPSPs. Disynaptic EPSPs exhibited temporal facilitation during short trains of stimulation, whereas monosynaptic EPSPs did not. Disynaptic EPSPs, but not monosynaptic EPSPs, were also facilitated by stimulation of the pyramidal tract and the mesencephalic locomotor region. However, disynaptic MLF EPSPs exhibited little or no facilitation when conditioned by short-latency cutaneous pathways. During fictive locomotion, the amplitude of disynaptic MLF EPSPs was modulated, with maximal amplitudes during the step cycle phase when the recorded motoneuron was active, resulting in reciprocal patterns of modulation of flexors and extensors. No comparable change was seen in the amplitude of monosynaptic MLF EPSPs during fictive stepping. These data suggest that the central pattern generator for locomotion modulates disynaptic MLF excitation at a premotoneuronal level in a phase-dependent manner. The effects of lesions made in the MLF and thoracic cord suggest that the interneurons in the disynaptic pathway from the MLF to motoneurons reside in the lumbosacral cord.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00229029

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6

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Disynaptic vestibulospinal and reticulospinal excitation in cat lumbosacral motoneurons: modulation during fictive locomotion (1996)

Gossard, J. -P. ; Floeter, M. K. ; Degtyarenko, A. M. ; [et al.]

Springer

Experimental brain research 109 (1996), S. 277-288

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ISSN: 1432-1106

Keywords: Deiters' nucleus ; Medial longitudinal fasciculus ; Fictive locomotion ; Spinal cord ; Interneurons ; Decerebrate cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract This study compares some characteristics of the disynaptic excitatory pathways from the lateral vestibular nucleus (LVN) and medial longitudinal fasciculus (MLF) to lumbosacral α-motoneurons in the decerebrate cat. We used the spatial facilitation technique to test whether disynaptic LVN and MLF excitatory postsynaptic potentials (EPSPs) are produced by common last-order interneurons in the lumbosacral segments of the spinal cord. Of 77 motoneurons examined, 26 exhibited disynaptic EPSPs from both supraspinal sources. No spatial facilitation was found between LVN and MLF EPSPs in 21 of 24 cells that were adequately tested. In 3 of 23 cells (all flexor motoneurons), some spatial facilitation was found in some but not all trials. These observations suggest that stimulation of the LVN and MLF produces disynaptic EPSPs in motoneurons through largely separate populations of last-order interneurons. Disynaptic MLF and LVN EPSPs showed parallel patterns of modulation during fictive locomotion. Maximal disynaptic EPSP amplitudes occurred during the phase of the step cycle when the recorded motoneuron, whether flexor or extensor, exhibited depolarizing locomotor drive potentials and the corresponding muscle nerve was active. These observations, taken together, suggest that disynaptic LVN and MLF EPSPs are produced in motoneurons by at least four separate populations of segmental last-order excitatory interneurons, with separate populations projecting to flexor versus extensor cells. The results also suggest that the modulation of the disynaptic EPSPs during fictive locomotion is mainly due to premotoneuronal convergence of input from the respective descending systems and from the segmental central pattern generator for locomotion onto common interneurons.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00231787

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7

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Peripheral and central control of flexor digitorum longus and flexor hallucis longus motoneurons: The synaptic basis of functional diversity (1984)

Fleshman, J. W. ; Lev-Tov, A. ; Burke, R. E.

Springer

Experimental brain research 54 (1984), S. 133-149

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ISSN: 1432-1106

Keywords: Flexor digitorum and hallucis longus ; Cat spinal cord ; Spinal reflexes ; Fictive locomotion ; Central pattern generation

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The two long toe flexor muscles in the cat, flexor digitorum longus (FDL) and flexor hallucis longus (FHL), have essentially identical mechanical actions, yet are used very differently during locomotion (O'Donovan et al. 1982). We attempted to identify the origin of the synaptic drive responsible for this functional differentiation. The organization of peripheral and central synaptic drive to FDL and FHL motoneurons was examined using two basic paradigms. (1) In animals anesthetized with chloralose or after ischemic destruction of the brain, peripheral reflex circuits were studied by recording intracellular responses from α-motoneurons produced by electrical stimulation of muscular and cutaneous nerves. (2) “Fictive locomotion”, the centrally generated rhythmic synaptic drive produced in paralyzed, decerebrate animals by stimulation of the mesencephalic locomotor region or intravenous injection of L-DOPA and Nialamide, was monitored by recording electro-neurograms from the central end of cut motor nerves. Despite their functional dissimilarity, FDL and FHL motoneurons received monosynaptic EPSPs from both FDL and FHL la afferents. Ipsilateral cutaneous afferents in the sural nerve and from the central plantar pad produced multiphasic PSPs which were not different in FDL and FHL cells. However afferents from the saphenous and superficial peroneal nerves did exert differential effects: the first component of the multiphasic PSP in most FDL cells was an EPSP, which was not present in most FHL cells. The central latency of this early EPSP in FDL motoneurons (0.8–1.5 ms) strongly suggests a disynaptic linkage. Cutaneous afferents from the ipsilateral forelimb produced IPSPs in most FHL cells but in only one of 18 FDL cells. Since some peripheral reflex circuits exerted differential effects on FDL and FHL cells, but others did not, the intracellular data did not demonstrate that the functional differences between FDL and FHL could be explained by differences in reflex organization. During fictive locomotion elicited by electrical or pharmacological stimulation, FHL motoneurons were coactive with ankle extensors during the extension phase of the fictive step cycle. In contrast, FDL motoneurons were most consistently activated in a brief burst at the onset of the flexion phase, showing much weaker and more variable coactivity with ankle extensors. These patterns were essentially identical to those reported for FDL and FHL motor pools during treadmill locomotion by O'Donovan et al. (1982). We conclude that the central pattern generator (CPG) for locomotion produces distinct and highly differentiated sets of instructions for FDL and FHL motoneurons. Peripheral and descending systems are important in initiating and biasing the activity of the CPG, but are not responsible for the intrinsic structure of the locomotor command signals.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235825

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Differential control of fast and slow twitch motor units in the decerebrate cat (1977)

Kanda, K. ; Burke, R. E. ; Walmsley, B.

Springer

Experimental brain research 29 (1977), S. 57-74

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ISSN: 1432-1106

Keywords: Motor units ; Synaptic control ; Cutaneous reflexes ; Decerebrate cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary In approximately 3/4 of precollicular decerebrate (unanesthetized) cats, tetanic electrical stimulation of the sural nerve, or pinching the ankle skin innervated by the sural nerve, produced predominant excitation (overall increased force output and EMG activity) in the mixed medical gastrocnemius (MG) muscle and simultaneous inhibition in its slow twitch Synergist, soleus (Sol). The present experiments were designed to test whether, as this and other evidence suggests, certain sets of cutaneous afferents can produce activation of particular groups of motor units and simultaneous inhibition of other groups within the same motor unit pool (i.e., units belonging to a single muscle). We recorded, in decerebrate cats, the activity of restricted sets of MG motor units using either fine bipolar EMG wire electrodes or bipolar hook electrodes on small natural filaments of the MG muscle nerve. In preparations exhibiting the differential effect of sural input noted above, we usually found that some low threshold MG motor units (i.e., those responding to stretch or vibration of the MG muscle) exhibited slowing of discharge or complete inhibition at the same time that higher threshold MG units, not responsive to stretch or vibration, were powerfully recruited by either electrical or natural stimulation of sural nerve afferents. The net balance of synaptic effects within the MG motoneuron population may thus be excitatory in some cells and simultaneously inhibitory in others. This finding, together with earlier evidence, suggests the existence of at least two patterns of organization of synaptic input to the MG motoneuron pool.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00236875

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Supraspinal facilitation of cutaneous polysynaptic EPSPs in cat medial gastrocnemius motoneurons (1982)

Pinter, M. J. ; Burke, R. E. ; O'Donovan, M. J. ; [et al.]

Springer

Experimental brain research 45 (1982), S. 133-143

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ISSN: 1432-1106

Keywords: Cutaneous reflexes ; Supraspinal control ; Motoneurons ; Cat

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We examined the characteristics of postsynaptic potentials (PSPs) produced in antidromically-identified medial gastrocnemius (MG) α-motoneurons by electrical stimulation of low threshold (〈 3×T) distal limb cutaneous afferents in the sural (SUR) nerve in adult cats anesthetized with α-chloralose, together with the effects on SUR PSPs of supraspinal conditioning stimulation of the contralateral red nucleus (RN) and pyramidal tract (PT). In the majority of MG motoneurons, SUR afferents with electrical thresholds 〈 1.5×T produced early excitatory synaptic potentials (EPSPs) with minimum central latency of about 2.0 ms, suggesting activation of a trisynaptic segmental pathway with two interposed interneurons. Such early EPSPs were often detectable with stimuli 〈 1.2×T, as determined by recording the compound action potential in the sciatic nerve and from the first appearance of the N1 wave of the cord dorsum potential. Inhibitory synaptic potentials (IPSPs) were regularly produced by SUR volleys of only slightly greater strength (often as low as 1.3×T) and these had minimum central latencies of about 3.0 ms (about 1.0 ms longer than the earliest EPSPs), suggesting a three interneuron central pathway. Repetitive stimulation of RN and PT regularly produced facilitation of both EPSP and IPSP components in the SUR response, suggesting that these supraspinal systems directly or indirectly excite some of the same interneurons that convey the SUR effects to MG motoneurons. When using very low strength SUR stimuli, PT conditioning produced relatively pure facilitation of the SUR EPSPs but with larger SUR volleys, PT clearly facilitated both EPSPs and IPSPs. RN conditioning produced more parallel facilitation of SUR EPSPs and IPSPs. Supraspinal control of the polysynaptic pathway producing SUR EPSPs is of particular interest because of earlier evidence that this pathway is differentially distributed to motoneurons of fast twitch versus slow twitch MG motor units.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00235772

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Spinal border cell origin of the ventral spinocerebellar tract (1971)

Burke, R. ; Lundberg, A. ; Weight, F.

Springer

Experimental brain research 12 (1971), S. 283-294

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ISSN: 1432-1106

Keywords: Spinal border cells ; Ventral spinocerebellar tract

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary 1. Extra- and intracellular recording has been made in cats from the spinal border cells (SBCs) of Cooper and Sherrington (1940). The SBCs were identified by their location in the lateral part of the ventral horn in the lumbar segments 3–6 and by their antidromic invasion from the contralateral thoracic spinal cord. 2. The conduction velocity of SBC axons ranged from 40–140 m/sec with a mean of 85 m/sec. 3. Lesion experiments showed that the SBC axons ascend in the ventrolateral region of the spinal cord. 4. Of 90 SBCs tested, 85 were invaded antidromically by stimulation of the cerebellar cortex. 5. It is concluded that SBCs give rise to ventral spinocerebellar axons and suggested that they are the major source of this tract.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00237921

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