Predictive motor activation during action observation in human infants

Certain regions of the human brain are activated both during action execution and action observation. This so-called ‘mirror neuron system’ has been proposed to enable an observer to understand an action through a process of internal motor simulation. Although there has been much speculation about the existence of such a system from early in life, to date there is little direct evidence that young infants recruit brain areas involved in action production during action observation. To address this question, we identified the individual frequency range in which sensorimotor alpha-band activity was attenuated in nine-month-old infants'' electroencephalographs (EEGs) during elicited reaching for objects, and measured whether activity in this frequency range was also modulated by observing others'' actions. We found that observing a grasping action resulted in motor activation in the infant brain, but that this activity began prior to observation of the action, once it could be anticipated. These results demonstrate not only that infants, like adults, display overlapping neural activity during execution and observation of actions, but that this activation, rather than being directly induced by the visual input, is driven by infants'' understanding of a forthcoming action. These results provide support for theories implicating the motor system in action prediction.     

The transfer of motor functional strategies via action observation

When someone is choosing one piece from a bowl full of fruit, many pieces are within reach and visible. Although the desired piece seems to govern the particular pattern and direction of that person's reaching movement, the selection process is not impervious to the presence of task-irrelevant information (i.e. the other fruits). Evidence suggests that the kinematics of reach-to-grasp actions for a desired object integrates the motor features of all the objects which might become potential targets. Transcranial magnetic stimulation (TMS) and motor-evoked potentials (MEPs) were used by us to establish if that motor integration process can be transferred to an onlooker. Our results indicate that observation of hybrid reach-to-grasp movement kinematics is reflected in the observer's pattern of MEP amplitudes. This effect can be defined as a form of motor resonance which operates by 'reading' the kinematics of an observed action. The brain's ability to mirror motor integration processes while observing someone else's action helps an onlooker to understand what the other person is doing and to predict his/her motor alternatives.     

不同炮制方法对牡丹皮相关药理效应的影响

目的：探讨不同炮制方法（“去心”、“清炒”、“酒制”、“制炭”）对牡丹皮相关药理效应（抗炎、镇痛、止血、保肝等）的影响。方法：醋酸扭体实验、热板法探讨对镇痛药效的影响;采用毛细血管通透性探讨对抗炎作用的影响;测小鼠出血、凝血时间探讨对止血作用的影响;制作小鼠急性肝损伤,探讨对护肝、保肝作用的影响。结果：①炒炭炮制品具有较好的止血作用,与其他各种炮制品相比,差异显著,P〈O．05,其他各种炮制品之间比较无显著性差异,P〉O．05;②在保肝作用方面,“去心”、“清炒”法较好,与其他炮制品比较,差异显著P〈O．05;“酒制”次之,“制炭”较差,但两者比较无显著性差异,P〉O．05;（3）在抗炎、镇痛药效方面,“去心”、“清炒”、“酒制”之间无显著性差异,但以上3种炮制方法均优于“制炭”,P〈O．05。结论：炮制方法对牡丹皮的药理效应有一定的影响：“制炭”止血作用做好,但减弱了其抗炎、镇痛、护肝的作用;“酒制”法可能对抗炎、镇痛作用有好处;“去心”、“清炒”法之间的药理效应在本研究中无显著差异、     

Investigations on the mechanism of photodynamic action of different psoralens with DNA

Investigations on the photodynamic action of psoralens with DNA were performed, using experimental techniques of fluorescence lifetime and NMR-CIDNP, as well as SCF-MO and CNDO molecular orbital calculations. It has been shown that the formation of a biradical through the triplet state is the decisive step for psoralen dimer formation, as well as for cyclobutane addition with thymine, while singlet oxygen production is responsible for enzyme inactivation (e.g., lysozyme and trypsin). The molecular orbital calculations, in agreement with experimental results, indicate that the differences in biological effectivity of different psoralens are based on variations in triplet formation probability.     

Phototactic responses of four marine dinoflagellates with different types of eyespot and chloroplast

Great structural variety is seen in the eyespot of dinoflagellates, a structure involved in phototaxis. Although there are several works on the phototactic responses in some species of dinoflagellates, none of the dinoflagellates used in these studies possessed an eyespot and, therefore, we have no knowledge of the relationship between eyespot type and phototactic response. In this study, we determined wavelength dependency curves for phototaxis in four marine dinoflagellates that possess a different type of either eyespot or chloroplast. These include: (i) a dinoflagellate possessing a peridinin-containing ohioroplast with an eyespot (Scrippsiella hexapraecingula Horiguchi et Chihara); (ii) a dinoflagellate containing a diatom endosymbiont and with the type B eyespot sensu Dodge (1984; (Peridinium foli-aceum (Stein) Biecheler); (iii) a dinoflagellate with peri-dinin-containing chloroplasts, but lacking an eyespot (Atexandrium hiranoi Kita et Fukuyo); and (iv) a dinoflagellate with fucoxanthin, 19′-hexanoyloxyfucoxanthin and 19′-butanoyloxyfucoxanthin, but lacking an eyespot (Gymnodinium mikimotoi Miyabe et Kominami ex Oda), Regardless of the eyespot or the chloroplast type, all four dinoflagellates showed similar wavelength dependency curves for phototaxis, with sensitivity between 380 and 520 nm, the highest peak at approximately 440 or 460 nm and smaller peaks or shoulders at 400–420 nm and 480–500 nm. Substantial peaks have also been noted in the ultraviolet range (260–280 nm). The ultrastructural study of the eye-spot of Scrippsiella hexapraecingula revealed that the eyespot consists of two layers of lipid globules and probably acts as a quarter-wave stack antenna.     

Effectiveness of using an unskilled model in action observation combined with motor imagery training for early motor learning in elderly people: a preliminary study

Abstract

Aim of the study: To investigate a more available model for the early phase of motor learning after action observation combined with motor imagery training in elderly people. To address the purpose, we focused on a slow, unskilled model demonstrating an occasional error.

Materials and methods: A total of 36 elderly people participated in the current study and were assigned to either the unskilled or skilled model observation groups (n?=?12, respectively), or the control group (n?=?12). The participants in the observation groups observed the assigned a video clip of an unskilled or skilled model demonstrating a ball rotation task. During the observation, the participants were instructed to imagine themselves as the person in the video clip. The participants in the control group read a scientific paper during the equivalent period of action observation and motor imagery. We measured ball rotation performance (the time required for five rotations, the number of ball drops) in pre- and post-intervention (observation combined with motor imagery training for intervention groups or reading for control group).

Results: Ball rotation performance (ball rotation speed) significantly improved in the unskilled model observation group compared to the other two groups.

Conclusions: Intervention for action observation using unskilled model combined with motor imagery was effective for improving motor performance during the early phase of motor learning.     

Favouritism in the motor system: social interaction modulates action simulation

The ability to anticipate others'' actions is crucial for social interaction. It has been shown that this ability relies on motor areas of the human brain that are not only active during action execution and action observation, but also during anticipation of another person''s action. Recording electroencephalograms during a triadic social interaction, we assessed whether activation of motor areas pertaining to the human mirror-neuron system prior to action observation depends on the social relationship between the actor and the observer. Anticipatory motor activation was stronger when participants expected an interaction partner to perform a particular action than when they anticipated that the same action would be performed by a third person they did not interact with. These results demonstrate that social interaction modulates action simulation.     

运动对时距知觉的影响及其神经机制

在运动过程中,时距知觉的能力非常重要,能帮助个体对时长进行判断及对事件的发生做出预测和准备.近年来,越来越多的研究发现运动本身会直接影响个体的时距知觉.本文分别从运动参数、运动阶段、视觉运动刺激和运动有关的个体因素四个方面梳理了运动对时距知觉产生影响的行为学证据.目前已经有大量研究从不同角度证明,大脑运动系统组成了支持...     

Thalamic input to motor cortex facilitates goal-directed action initiation

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Comparative investigations of manual action representations: evidence that chimpanzees represent the costs of potential future actions involving tools

The ability to adjust one's ongoing actions in the anticipation of forthcoming task demands is considered as strong evidence for the existence of internal action representations. Studies of action selection in tool use reveal that the behaviours that we choose in the present moment differ depending on what we intend to do next. Further, they point to a specialized role for mechanisms within the human cerebellum and dominant left cerebral hemisphere in representing the likely sensory costs of intended future actions. Recently, the question of whether similar mechanisms exist in other primates has received growing, but still limited, attention. Here, we present data that bear on this issue from a species that is a natural user of tools, our nearest living relative, the chimpanzee. In experiment 1, a subset of chimpanzees showed a non-significant tendency for their grip preferences to be affected by anticipation of the demands associated with bringing a tool's baited end to their mouths. In experiment 2, chimpanzees' initial grip preferences were consistently affected by anticipation of the forthcoming movements in a task that involves using a tool to extract a food reward. The partial discrepancy between the results of these two studies is attributed to the ability to accurately represent differences between the motor costs associated with executing the two response alternatives available within each task. These findings suggest that chimpanzees are capable of accurately representing the costs of intended future actions, and using those predictions to select movements in the present even in the context of externally directed tool use.     

Two different types of electrogenic amino acid action on pancreatic acinar cells

The electrogenic action of the basic amino acid, l-arginine, has been compared with the action of the neutral amino acids, l-alanine and glycine, in mouse pancreatic acinar cells. All three amino acids cause membrane depolarization, but while the reversal potential for the action of the neutral amino acids is close to the calculated value of the Na equilibrium potential (+30 m V) the reversal potential for the l-arginine effects is +7 m V. The neutral amino acids exhibit mutual inhibition, but l-arginine did not inhibit the l-alanine-or glycine-evoked depolarization nor did the neutral amino acids inhibit the action of l-arginine. While l-alanine markedly depressed acetylcholine-evoked depolarization, l-arginine had no such effect. It is concluded that there are at least two quite different types of electrogenic amino acid action in pancreatic acinar cells.     

Spatial Comparisons of Mechanosensory Information Govern the Grooming Sequence in Drosophila

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Thyroxine influence on different ion-specific adenosine triphosphatase activities in fat body of Bombyx mori during development

The effects of thyroxine on the activity of different ATPases (Na⁺-K⁺, Ca²⁺, and Mg²⁺) in fat body cells of the silkworm, Bombyx mori, were investigated during different developmental stages. In both sexes the maximum enzyme activity was observed in the fat body cells of day 7 last instar larva (the day before spinning). Na⁺-K⁺, Ca²⁺-, and Mg²⁺-ATPase activity in the fat body markedly declined after pupation and continued to decrease in day 1 adults. Injection of thyroxine (T4) at doses of 1.0 and 2.0 μg/g during fifth instar significantly elevated all ATPase activities in the larval, pupal, and adult stages in both sexes. At a dose of 0.5 μg/g, T4 had no effect on day 2 fifth instar larva, although it increased the ATPase activity at the other stages investigated. A higher dose (3.0 μg/g) caused a significant reduction in enzyme activity in all stages with the exception of day 2 fifth instar larva. Thus, the repression of enzyme activity with the higher dose and the elevation of enzyme activity with the lower dose establish the biphasic nature of T4 action on the ATPase system in fat body cells of the silkworm. Arch. Insect Biochem. Physiol. 37:191–196, 1998. © 1998 Wiley-Liss, Inc.     

RNA interference of two acetylcholinesterase genes in Plutella xylostella reveals their different functions

Acetylcholinesterase (AChE, EC 3.1.1.7) is an important enzyme with a typical function of degrading the neurotransmitter acetylcholine. Although two ace genes were reported in Plutella xylostella, their function differences remain largely unknown. The chemically synthesized siRNAs (si‐Pxace1 and si‐Pxace2) were injected into the second instar larvae to knock down Pxace1 and Pxace2, either respectively or simultaneously. The mRNA abundance of Pxace1 and Pxace2 was significantly reduced to 7–33.5% of the control levels at 72 h after siRNA injection. The AChE activities were significantly decreased at 96 h after treatment. Silencing of Pxace1 or Pxace2 resulted in mortality of 33.9 and 22.9%, respectively. The survivors in siRNA‐treated groups had apparent growth inhibition such as reduction in larvae weights and lengths, malformation and motor retardation. Knockdown of Pxace1 apparently affected more on larvae growth than that of Pxace2, suggesting that Pxace1 had more important roles than Pxace2. Both Pxace1 and Pxace2 genes might have atypical functions in regulating larvae growth and motor ability.     

Disrupting the experience of control in the human brain: pre-supplementary motor area contributes to the sense of agency

The feeling of controlling events through one''s actions is fundamental to human experience, but its neural basis remains unclear. This ‘sense of agency’ (SoA) can be measured quantitatively as a temporal linkage between voluntary actions and their external effects. We investigated the brain areas underlying this aspect of action awareness by using theta-burst stimulation to locally and reversibly disrupt human brain function. Disruption of the pre-supplementary motor area (pre-SMA), a key structure for preparation and initiation of a voluntary action, was shown to reduce the temporal linkage between a voluntary key-press action and a subsequent electrocutaneous stimulus. In contrast, disruption of the sensorimotor cortex, which processes signals more directly related to action execution and sensory feedback, had no significant effect. Our results provide the first direct evidence of a pre-SMA contribution to SoA.     

Roles of different neurochemical systems in mechanisms underlying the antinociceptive effect of extrahigh-frequency electromagnetic radiation

We studied the effect of low-intensity extrahigh-frequency (EHF) electromagnetic radiation (EMR) on the duration of a pain behavioral reaction in rats under conditions of experimental induction of tonic pain (formalin test). The antinociceptive effect of EHF irradiation was modulated by suppression of the activity of a few neurochemical systems resulting from the blockade of receptors of opioid peptides, α-and β-adrenoreceptors, receptors of dopamine and melatonin, as well as from inhibition of serotonin synthesis. We demonstrated that all the respective neurochemical systems are to a certain extent involved in the mechanisms underlying the analgesic action of EHF EMR. Within an early phase of pain stress, functioning of the opioidergic and noradrenergic systems and the effects of melatonin play leading roles, while the activity of the serotonergic system plays such a role within the second (tonic) phase. Neirofiziologiya/Neurophysiology, Vol. 39, No. 2, pp. 165–173, March–April, 2007.