EC:1.11.1.7 - FACTA Search

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Query: EC:1.11.1.7 (peroxidase)
65,474 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In this study, we have investigated the organization of mouse visual cortex by correlating in detail the distribution of striate-extrastriate projections with the pattern of callosal connections revealed by the transport of horseradish peroxidase from the contralateral hemisphere. Single injections of 3H-proline into striate cortex produce 8-9 discrete projection fields in the belt of cortex surrounding area 17. The number and arrangement of these fields closely resemble the pattern of extrastriate visual areas in the rat. The callosal pattern is also very similar to that in the rat, and provides a set of landmarks for the location of the striate-recipient zones. Thus, cortical regions containing dense aggregations of callosal cells and terminations surround totally or partially the sparsely callosal striate-recipient zones. By comparing our results with previous accounts of the rat visual plan, we were able to identify in lateral extrastriate cortex of the mouse areas anterolateral (AL), lateromedial (LM), laterointermediate (LI), laterolateral (LL), posterolateral (PL), and posterior (P). We also observed 1-2 projections fields into anteromedial (AM) extrastriate cortex, and one field (S) into the posteromedial border of the head representation in primary somatosensory cortex. Our results support the notions that the visual cortex in the mouse is subdivided into multiple visual areas, and that these areas are arranged according to a plan that is common in rodents.
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PMID:Organization of visual cortex in the mouse revealed by correlating callosal and striate-extrastriate connections. 248 92

The rd (retinal degenerate) strain of chicken is an example of a recessively inherited mutation characterized by blindness at the time of hatching, as defined by behavioral and electrophysiological tests. Paradoxically, blind mutants have normal retinal morphology, even at the ultrastructural level. Eventually, however, the entire retina degenerates in this strain, perhaps as a result of disuse atrophy. Results of preliminary studies imply that a defect in the visual transduction cascade in photoreceptor cells is responsible for the lack of vision. As well as being an important animal model for studies on photochemistry and transduction, the rd chicken may afford a paradigm for studies on inner retinal physiology and pathology, as electrical input to this inner neuronal system appears to be absent. In the current study we examined axonal transport (both retrograde and anterograde) in rd retinal ganglion cells and connectivity of ganglion cells to visual centers in the brain and compared these to normally sighted chicks. All visuorecipient nuclei were present in rd animals and appeared normal at the light microscopic level. When 3H-proline was injected into one eye of a blind chicken on the day of hatching, labeled polypeptides or proteins were transported via a fast transport mechanism to the same visual centers in roughly the same quantities as in normally sighted chicks. When horseradish peroxidase (HRP) was injected in the optic tectum of blind and normal 1 day old chicks, this label was transported retrogradely to the soma of retinal ganglion cells.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Axonal transport and central visual projections of ganglion cells in congenitally blind chickens. 253 51

We have reported that cultured papilla cells (PC) grown by isolation and cultivation of human hair papillae show some biological characteristics. In the present study, localization of androgen binding proteins in PC and effects of dihydrotestosterone (DHT) on PC in vitro were examined. Cytochemical staining of PC using DHT-peroxidase conjugate gave positive reactions in the nucleo of PC originating from scalp- and axilla-hair papillae. The cultivation of PC with added DHT in media for two weeks showed increases 3H-thymidine uptake and 14C-proline uptake over that of dermal fibroblasts. These results suggest that androgen receptors exist in PC and that DHT in culture media induces an accelerating effect upon the DNA synthesis and protein synthesis.
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PMID:[Effects of dihydrotestosterone on cultured hair papilla cells and localization of its receptors]. 258 68

The central nucleus of the barn owl's inferior colliculus (ICc) contains a representation of both the ipsilateral and contralateral auditory hemifields. The representation of ipsilateral space is found in the "core" of the ICc, a subdivision defined by the terminal field of nucleus laminaris, the avian analogue of the medial superior olivary nucleus. The representation of contralateral space is found in the lateral portion of the "shell" of the ICc. The shell surrounds the core and is defined by the terminal field of the nucleus angularis, one of the cochlear nuclei. The representation of ipsilateral space in the core of the ICc may be accounted for by the crossed projection from the nucleus laminaris because most of the nucleus laminaris is devoted to a representation of contralateral space. We present evidence to suggest that the representation of contralateral space is due to a commissural projection from the core of one side to the lateral shell of the opposite side. Injection of horseradish peroxidase (HRP) into the lateral portion of the ICc shell produced retrogradely labeled somata in the core of the opposite side. Injection of tritiated proline into the core produced anterograde label confined to the lateral shell, thus confirming the observations made with HRP. Thus, for example, the left ICc core, which contains predominantly a representation of the left hemifield, innervates the right lateral shell, endowing it with a representation of the left, or contralateral hemifield. The representation of contralateral space in the lateral shell is ultimately conveyed to the external nucleus of the inferior colliculus where it contributes the horizontal axis to a two-dimensional map of space.
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PMID:Role of commissural projections in the representation of bilateral auditory space in the barn owl's inferior colliculus. 270 80

Recently, J. R. Kanofsky et al. (1988, J. Biol. Chem. 263, 9692-9696) reported that human eosinophils generated modest amounts of singlet oxygen. In the mechanism proposed, hypobromous acid (made from the peroxidase-catalyzed oxidation of bromide ion) reacted with hydrogen peroxide to form singlet oxygen. In contrast, human neutrophils, which generate both hypochlorous acid and hydrogen peroxide, do not make singlet oxygen. The failure of human neutrophils to generate singlet oxygen is due in part to the trapping of hypochlorous acid by endogenous amines. In this paper, I show that amino acids are much more effective traps for hypochlorous acid than for hypobromous acid. Glycine totally inhibits singlet oxygen generation from a model enzyme system composed of chloroperoxidase, hydrogen peroxide, and chloride ion, but causes only a 35% reduction in singlet oxygen generation from an analogous enzyme system containing bromide ion instead of chloride ion. The products of the reaction of hypobromous and glycine (presumably an equilibrium mixture of N-bromoglycine, N,N-dibromoglycine, and hypobromous acid) retain the ability to react with hydrogen peroxide to form singlet oxygen. In contrast, the products of the reaction of hypochlorous acid and glycine do not react with hydrogen peroxide to produce singlet oxygen. Similar results were obtained for L-alanine, L-arginine, L-asparagine, L-aspartic acid, L-cystine, L-glutamic acid, L-glutamine, L-histidine, L-lysine, L-phenylalanine, L-proline, L-serine, and L-tyrosine. Thus, bromine derivatives of amino acids may act as intermediates in the peroxidase-catalyzed generation of singlet oxygen.
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PMID:Bromine derivatives of amino acids as intermediates in the peroxidase-catalyzed formation of singlet oxygen. 277 74

We studied the relationship of isthmotectal input to other tectal afferent fiber systems in three ways. 1) Using horseradish peroxidase (HRP) histochemistry, we determined the nonretinal inputs to the superficial tectum. In different sets of animals we a) applied HRP to the tectal surface; b) inserted HRP crystals into the tectum; c) injected small volumes of HRP solutions into the superficial tectum. N. isthmi accounts for more than 65% of the nonretinal extrinsic input in the superficial tectal layers. One set of fibers from the contralateral n. isthmi projects to the most superficial layer. Fibers from posterior thalamus and tegmentum project to both superficial and deeper layers in the tectum, but not to the most superficial layer. The ipsilaterally projecting isthmotectal fibers terminate in the deeper superficial layers. 2) We investigated the relationship between retinofugal and contralaterally projecting isthmotectal pathways. We orthogradely labelled n. isthmi fibers by unilateral HRP injections into n. isthmi, and we also labelled retinal fibers by injecting tritiated l-proline into both eyes. In such animals contralaterally projecting isthmotectal fibers cross in the dorsal posterior region of the optic chiasm. From the chiasm to the tectum isthmotectal fibers and retinofugal fibers are admixed. 3) We determined whether other fiber systems cross with contralaterally projecting isthmotectal fibers. We cut the posterior part of the optic chiasm and applied HRP crystals to the cut. Only n. isthmi and retina are retrogradely labelled.
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PMID:Relationship between isthmotectal fibers and other tectopetal systems in the leopard frog. 279 36

The beta sector of the rabbit's dorsal lateral geniculate nucleus is a small region of nerve cells scattered among the fibres of the geniculocortical pathway. In its topographical relations it resembles the perigeniculate nucleus of carnivores, which contains neurons driven by geniculate and visual cortical neurons and which sends inhibitory fibres back into the geniculate relay. We have traced retinogeniculate, geniculocortical and corticogeniculate pathways in rabbits by using horseradish peroxidase or radioactively labelled proline and have found that the beta sector resembles the perigeniculate nucleus in receiving no direct retinal afferents, sending no efferents to the visual cortex (V-I), and receiving afferents from the visual cortex. The corticogeniculate afferents are organized so that the visual field map in the beta sector and the main part of the lateral geniculate relays are aligned, as are the maps in the cat's perigeniculate nucleus and the main part of the geniculate relay of carnivores. Electron microscopical studies show similar types of axon terminals in the rabbit and the cat for the main part of the geniculate relay on the one hand and for the beta sector and the perigeniculate nucleus on the other. Earlier observations that the proportion of putative inhibitory terminals (F-type terminals) is lower in the rabbit's than the cat's geniculate region are confirmed. A major difference between the beta sector and the perigeniculate nucleus has been revealed by immunohistochemical staining for GABA. Whereas almost all of the cat's perigeniculate cells appear to be GABAergic, the proportion in the beta sector is much lower, and not significantly different from that found in the main part of the rabbit's geniculate relay. It is concluded that the beta sector shares many of the organizational features of the perigeniculate nucleus. A common developmental origin seems probable, but the functional differences remain to be explored.
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PMID:The beta sector of the rabbit's dorsal lateral geniculate nucleus. 289 31

The outgrowth of axons from the early retina in vivo is compared with that from retinal explants in two types of culture systems. The normal time course of axonal growth along the primordial optic pathway to the optic tectum is characterized, using tritiated proline and horseradish peroxidase (HRP) as anterograde tracers. The rate of axonal elongation in vivo is estimated to be about 32 micron/hr at 22 degrees C. The HRP technique allows visualization of retinal growth cones in vivo. Observations can thus be made on their microanatomy and on the environment through which they navigate. The growth cones of retinal ganglion cells in the embryo have lamellipodia and fairly short filopodia (approximately 10 micron) which are directed forward. The growth cones are found near the pial surface of the brain but do not seem to maintain contact with it. Two culture systems were developed to investigate axonal pathways in vitro. In the first, different substrates and culture media were explored. Results indicate that growth cones prefer a polyornithine substrate over a collagen one. The media that promotes the best neurite outgrowth consists of L15 (60%), fetal calf serum (10%) and Xenopus embryo extract (1 mg/ml). Time-lapse video monitoring of substrate cultures reveals an average rate of outgrowth of about 18 micron/hr with great variability. The growth cones in these cultures are large, flattened, and complex compared to those in vivo, and their filopodia extend in many different directions. The second culture system is a collagen gel infiltrated with growth medium. In these conditions neurite outgrowth more closely mimics that in vivo. The rate is faster than on substrates, and the growth cones appear morphologically similar to those in the embryo. Preliminary experiments using the gel culture system to test for chemotaxis of retinal axons toward their targets failed to demonstrate such an effect.
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PMID:Growth cones of developing retinal cells in vivo, on culture surfaces, and in collagen matrices. 298 77

14C-Phenol binds irreversibly to calf-thymus DNA in the presence of horseradish peroxidase and hydrogen peroxide, approximately 65% of the added phenol was bound to DNA. Binding was maximal at an equimolar concentration of hydrogen peroxide. Binding also occurred to homopolyribonucleotides polyadenylic acid, polyguanylic acid, polycytidylic acid and polyuridylic acid, and suggests that binding is relatively non-specific with respect to the nucleotide bases. p,p'-Biphenol, p,p'-biphenoquinone, o,o'-biphenol and two unidentified products were formed by the oxidation of phenol, in the presence and in absence of DNA. DNA accelerated phenol oxidation four fold and prevented the polymerization of oxidized phenol products, but was found to have no effect on the range of ethyl acetate-extractable products. Phenol accelerated the metabolism of o,o'-biphenol but had no effect on p,p'-biphenol metabolism. The mechanism of phenol activation is not clear, but p,p'-biphenoquinone binds to protein and not to DNA. DNA binding was prevented by glutathione, N-acetyl-cysteine and ascorbate, and the mechanism was shown to involve reduction of the activated phenol intermediates and the formation of conjugates with glutathione and N-acetyl-cysteine. DNA binding was not inhibited by lysine and proline.
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PMID:Peroxidase-catalysed binding of [U-14C]phenol to DNA. 300 92

Experiments were designed to determine if neurons of the ranid optic tectum, a major target of the optic nerve, possess the same regenerative potential as optic axons. Normal tectal efferent (TE) projections were reexamined by using the anterograde transport of 3H-proline and autoradiography (n = 18), bulk-filling damaged TE axons with horseradish peroxidase (HRP; n = 18) and anterogradely transporting wheat germ agglutinin-HRP (n = 8) to label TE axons. Results were similar to reports that used degeneration methods (Rubinson: Brain Behav. Evol. 1:529-561, '68; Lazar: Acta. Biol. Hung. 20:171-183, '69). Following a brainstem hemisection just caudal to the nucleus isthmi (1-20 weeks), the ipsilateral descending TE pathway was autoradiographically examined (n = 20). While all other TE projections appeared normal, there was no detectable ipsilateral descending projection beyond the lesion site. Ascending TE axons were cut at the anterior tectal border by hemisecting the left diencephalon (LDH)--a lesion that also cuts optic axons projecting to the left tectum. There was no indication of TE axonal regeneration with the aid of autoradiography or HRP histochemistry 1-30 weeks postlesion (n = 48) even when the medial diencephalon was intentionally left intact (n = 4). However, in all four cases examined, optic axons regenerated following the same LDH where TE axonal regeneration failed (also see Stelzner, Lyon, and Strauss: Anat. Rec. 205:191A-192A, '83). Local effects of LDH should be similar for both the cut optic and cut TE axons. Other factors were tested that may contribute to the lack of TE axonal regeneration. Our results indicate that optic regeneration itself (n = 8), postaxotomy retrograde cell death of TE neurons (n = 6), deafferentation of the tectum of optic axons, and potential sprouting within tectal targets by intact contralateral TE axons (n = 10) are not critical factors aborting TE axonal regeneration. TE axons filled with HRP at chronic periods after LDH (n = 4) terminate anomalously near the LDH border. Many of these endings are similar to reactive endings or terminal clubs seen after axonal injury in the mammalian CNS. Our results suggest that this disparity in regenerative ability of optic and TE axons may be related to a difference in the responsive ability of these cell types to initiate or maintain axonal elongation after axotomy within the amphibian CNS environment.
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PMID:Tests of the regenerative capacity of tectal efferent axons in the frog, Rana pipiens. 302 86

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