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The clinical features of Stickler''s syndrome are described in two families with a total of 22 affected members and compared with those of the three previously reported families. Progressive joint degeneration (85%), myopia (83%) and retinal detachment (61%) are the most frequent manifestations. Cleft palate (28%), micrognathia (17%) and sensorineural hearing loss (9%) are also liable to occur in affected individuals. Inheritance is autosomal dominant with virtually complete penetrance. Genetic counselling is extremely important and relatively straightforward since most of the findings are manifest in the first two decades of life and represent severe incapacities to the affected families. All six of the affected individuals tested had increased urinary hydroxyproline excretion, a feature that may lead to earlier postnatal and possibly prenatal diagnosis. 相似文献
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C D Woody 《Federation proceedings》1982,41(6):2160-2168
The motor cortex plays a role in determining which of three different facial movements is acquired in Pavlovian conditioning experiments. Three separate facial reflexes can be distinguished by recording electromyographic activity from the orbicularis oculi (eye blink) and levator orii (nose twitch) muscles. One in a pure eye blink; a second is a nose twitch; the third is a compound eye blink and nose twitch. Which of these movements is elicited by a click (conditioned stimulus) following associative conditioning is reflected by the pattern of unit activity elicited by the click at the motor cortex. Activity is enhanced, after conditioning, in those units that project polysynaptically to the specific muscles performing the learned movement. This enhancement of activity is, in turn, relatable to an enhanced electrical excitability of the involved neurons. Analogous changes in the excitability of neurons of the motor cortex to applied currents can be produced by local application of cholinergic agents. Iontophoresis of acetylcholine, aceclidine (a cholinomimetic drug), or intracellularly applied cyclic GMP produces changes in single neuron membrane resistance that increase neuronal excitability. The units of the motor cortex that respond preferentially to these agents and to the click conditioned stimuli with short latencies have been identified as pyramidal cells of layer V. The axons of these neurons form the pyramidal tract, a pathway characterized as serving voluntary movement. It appears that this system supports rapid transmission and processing of auditory-motor information used to perform learned movements adaptively, selectively, and discriminatively. 相似文献
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A girl with pancytopenia (hemoglobin 9 g. 2,000 PMN. 75,000 platelets) was examined at 23 years of age. She had microcephaly, facial dysmorphy, skeletal deformities (kypho-scoliosis, club feet, club hands) and mental retardation. Puberty was normal, Roentgenograms showed bilateral agenesia of the distal part of the ulna with dislocation of the head of the radius. No other skeletal parts were absent. The condition is probably due to an autosomal recessive gene, the parents being second cousins. 相似文献
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Hiraba H Sato T Saito K Iwakami T Mizoguchi N Fukano M Ueda K 《Somatosensory & motor research》2007,24(3):115-126
We proposed that cortical organization for the execution of adequate licking in cats was processed under the control of two kinds of affiliated groups for face and jaw & tongue movements (Hiraba H, Sato T. 2005A. Cerebral control of face, jaw, and tongue movements in awake cats: Changes in regional cerebral blood flow during lateral feeding Somatosens Mot Res 22:307-317). We assumed the cortical organization for face movements from changes in MRN (mastication-related neuron) activities recorded at area M (motor cortex) and orofacial behaviors after the lesion in the facial SI (facial region in the primary somatosensory cortex). Although we showed the relationship between facial SI (area 3b) and area M (area 4delta), the property of area C (area 3a) was not fully described. The aim of this present study is to investigate the functional role of area C (the anterior part of the coronal sulcus) that transfers somatosensory information in facial SI to area M, as shown in a previous paper (Hiraba H. 2004. The function of sensory information from the first somatosensory cortex for facial movements during ingestion in cats Somatosens Mot Res 21:87-97). We examined the properties of MRNs in area C and changes in orofacial behaviors after the area C or area M lesion. MRNs in area C had in common RFs in the lingual, perioral, and mandibular parts, and activity patterns of MRNs showed both post- and pre-movement types. Furthermore, cats with the area C lesion showed similar disorders to cats with the area M lesion, such as the dropping of food from the contralateral mouth, prolongation of the period of ingestion and mastication, and so on. From these results, we believe firmly the organization of unilateral cortical processing in facial SI, area C, and area M for face movements during licking. 相似文献
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Hisao Hiraba Takako Sato Kimiko Saito Tomoyo Iwakami Naoko Mizoguchi Mika Fukano 《Somatosensory & motor research》2013,30(3):115-126
We proposed that cortical organization for the execution of adequate licking in cats was processed under the control of two kinds of affiliated groups for face and jaw & tongue movements (Hiraba H, Sato T. 2005A. Cerebral control of face, jaw, and tongue movements in awake cats: Changes in regional cerebral blood flow during lateral feeding Somatosens Mot Res 22:307–317). We assumed the cortical organization for face movements from changes in MRN (mastication-related neuron) activities recorded at area M (motor cortex) and orofacial behaviors after the lesion in the facial SI (facial region in the primary somatosensory cortex). Although we showed the relationship between facial SI (area 3b) and area M (area 4δ), the property of area C (area 3a) was not fully described. The aim of this present study is to investigate the functional role of area C (the anterior part of the coronal sulcus) that transfers somatosensory information in facial SI to area M, as shown in a previous paper (Hiraba H. 2004. The function of sensory information from the first somatosensory cortex for facial movements during ingestion in cats Somatosens Mot Res 21:87--97). We examined the properties of MRNs in area C and changes in orofacial behaviors after the area C or area M lesion. MRNs in area C had in common RFs in the lingual, perioral, and mandibular parts, and activity patterns of MRNs showed both post- and pre-movement types. Furthermore, cats with the area C lesion showed similar disorders to cats with the area M lesion, such as the dropping of food from the contralateral mouth, prolongation of the period of ingestion and mastication, and so on. From these results, we believe firmly the organization of unilateral cortical processing in facial SI, area C, and area M for face movements during licking. 相似文献
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Slowly cycling (label-retaining) epidermal cells behave like clonogenic stem cells in vitro 总被引:18,自引:0,他引:18
Abstract. Slowly cycling label-retaining epidermal cells were identified by light microscopic autoradiography in the dorsal epidermis and hair follicles of adult mice 8–10 weeks after twice daily injection of [3 H]dT on days three through five after birth. Pulse-labelled epidermal cells were identified in the epidermis and hair follicles of 7–8 week old mice 1 h after a single injection of [3 H]dT at 8.00 a.m. For mice of both groups, epidermal cells including those from the hair follicles were harvested by trypsinization and were cultured from low density on feeder layers of irradiated Swiss mouse 3T3. On days 2, 4, 5, 7, 10 and 12, the cultures were fixed and processed for light microscopic autoradiography, and the distribution of labelled nuclei was quantified. On day 2 of culture, both label-retaining cells (LRC) and pulse labelled cells (PLC) were found primarily as single cells. After five days, LRC were found as pairs and clusters having silver grain counts consistent with their division. In contrast, PLC remained primarily as single cells. These results suggest that LRC may divide to form colonies (are clonogenic) whereas PLC are rarely clonogenic. The significance of this experiment is that it suggests that the LRC may not only be persistent in the epidermis, but that they may also be cells with relatively greater proliferative potential than the PLC and are thus likely to be stem cells. 相似文献
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Y Koide N Yamashita T Kurusu N Kugai S Kuzuhara T Fujita M Itakura K Kawai K Yamashita 《Endocrinologia japonica》1983,30(4):499-507
A male patient with recurring episodes of hypoglycemic attacks was diagnosed as having isolated ACTH deficiency as well as renal glycosuria and ichthyosis vulgaris. In addition, he had facial diplegia and abducens palsy consistent with Moebius syndrome, muscle atrophy with proximal dominancy, high arched palate, hammer toes, and mental retardation. There was electrophysiological evidence of peripheral neuropathy. Muscle biopsy of the deltoid showed mild myofiber atrophy with occasional cylindrical laminated bodies. The association of these disorders has never been reported and it could be coincidental. However, considering the high rate of association of isolated hypogonadotropic hypogonadism and Moebius syndrome with peripheral neuropathy, the present case may indicate a causal relationship between isolated ACTH deficiency and Moebius syndrome, reflecting the disorders in the organ systems derived from a common ectoderm. 相似文献
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The planthopper insect Issus produces one of the fastest and most powerful jumps of any insect. The jump is powered by large muscles that are found in its thorax and that, in other insects, contribute to both flying and walking movements. These muscles were therefore analysed by transmission electron microscopy to determine whether they have the properties of fast-acting muscle used in flying or those of more slowly acting muscle used in walking. The muscle fibres are arranged in a parallel bundle that inserts onto an umbrella-shaped tendon. The individual fibres have a diameter of about 70 μm and are subdivided into myofibrils a few micrometres in diameter. No variation in ultrastructure was observed in various fibres taken from different parts of the muscle. The sarcomeres are about 15 μm long and the A bands about 10 μm long. The Z lines are poorly aligned within a myofibril. Mitochondrial profiles are sparse and are close to the Z lines. Each thick filament is surrounded by 10–12 thin filaments and the registration of these arrays of filaments is irregular. Synaptic boutons from the two excitatory motor neurons to the muscle fibres are characterised by accumulations of ~60 translucent 40-nm-diameter vesicle profiles per section, corresponding to an estimated 220 vesicles, within a 0.5-μm hemisphere at a presynaptic density. All ultrastructural features conform to those of slow muscle and thus suggest that the muscle is capable of slow sustained contractions in keeping with its known actions during jumping. A fast and powerful movement is thus generated by a slow muscle. 相似文献
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Leaves of velvetleaf (Abutilon theophrasti) exhibited solar-tracking movements in several experiments using different cultural conditions near Ames, IA, U.S.A. Freely moving leaves maintained a smaller angle between the normal to the leaf and the sun's rays than did leaves fixed in one position in both greenhouse and field experiments. Freely moving leaves had higher total daily carbon gain, transpiration, and water use efficiency than leaves fixed in a horizontal position. Leaves on different sides of the plant exhibited different abilities to track the sun, with leaves on the north side of the plant least able to track the sun. 相似文献
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Nowadays, facial mimicry studies have acquired a great importance in the clinical domain and 3D motion capture systems are becoming valid tools for analysing facial muscles movements, thanks to the remarkable developments achieved in the 1990s.However, the face analysis domain suffers from a lack of valid motion capture protocol, due to the complexity of the human face. Indeed, a framework for defining the optimal marker set layout does not exist yet and, up to date, researchers still use their traditional facial point sets with manually allocated markers.Therefore, the study proposes an automatic approach to compute a minimum optimized marker layout to be exploited in facial motion capture, able to simplify the marker allocation without decreasing the significance level. Specifically, the algorithm identifies the optimal facial marker layouts selecting the subsets of linear distances among markers that allow to automatically recognizing with the highest performances, through a k-nearest neighbours classification technique, the acted facial movements. The marker layouts are extracted from them. Various validation and testing phases have demonstrated the accuracy, robustness and usefulness of the custom approach. 相似文献
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Thomas J. Walker 《Journal of insect physiology》1975,21(3):595-603
High-speed sound-synchronized photography showed details of stridulatory movements and their relation to the sounds produced. Closing movements were more prolonged than opening movements and generally produced more intense sounds. Wing closures varied in rate from 10 to 250/sec. Four species had unpredicted complexities in their stridulatory movements: one silently snapped its wings shut after each acoustically effective stroke; two alternated long and short wing closures; and one made repeated groups of 4 to 9 progressively changing closures. 相似文献
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Kortazar D Fanarraga ML Carranza G Bellido J Villegas JC Avila J Zabala JC 《Experimental cell research》2007,313(3):425-436
Tubulin folding cofactors B (TBCB) and E (TBCE) are alpha-tubulin binding proteins that, together with Arl2 and cofactors D (TBCD), A (TBCA or p14) and C (TBCC), participate in tubulin biogenesis. TBCD and TBCE have also been implicated in microtubule dynamics through regulation of tubulin heterodimer dissociation. Understanding the in vivo function of these proteins will shed light on the Kenny-Caffey/Sanjad-Sakati syndrome, an important human disorder associated with TBCE. Here we show that, when overexpressed, TBCB depolymerizes microtubules. We found that this function is based on the ability of TBCB to form a binary complex with TBCE that greatly enhances the efficiency of this cofactor to dissociate tubulin in vivo and in vitro. We also show that TBCE, TBCB and alpha-tubulin form a ternary complex after heterodimer dissociation, whereas the free beta-tubulin subunit is recovered by TBCA. These complexes might serve to escort alpha-tubulin towards degradation or recycling, depending on the cell requirements. 相似文献
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