Fine wine flavour perception and appreciation: Blending neuronal processes, tasting methods and expertise

Â Â Â Â Â Â Â Â Â The human brain was assumed to be an elliptical electric dipole. Repeated quantitative electroencephalographic measurements over several weeks were completed for a single subject who sat in either a magnetic eastward or magnetic southward direction. The predicted potential difference equivalence for the torque while facing perpendicular (west-to-east) to the northward component of the geomagnetic field (relative to facing south) was 4 Î¼V. The actual measurement was 10 Î¼V. The oscillation frequency around the central equilibrium based upon the summed units of neuronal processes within the cerebral cortices for the moment of inertia was 1 to 2 ms which are the boundaries for the action potential of axons and the latencies for diffusion of neurotransmitters. The calculated additional energy available to each neuron within the human cerebrum during the torque condition was ~10-20 J which is the same order of magnitude as the energy associated with action potentials, resting membrane potentials, and ligand-receptor binding. It is also the basic energy at the level of the neuronal cell membrane that originates from gravitational forces upon a single cell and the local expression of the uniaxial magnetic anisotropic constant for ferritin which occurs in the brain. These results indicate that the more complex electrophysiological functions that are strongly correlated with cognitive and related human properties can be described by basic physics and may respond to specific geomagnetic spatial orientation.

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Faculty Opinions recommendation of Monosomes actively translate synaptic mRNAs in neuronal processes.

Faculty Opinions – Post-Publication Peer Review of the Biomedical Literature ◽

10.3410/f.737287566.793570915 ◽

2020 ◽

Author(s):

Utz Fischer

Keyword(s):

Neuronal Processes

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Action and the Problem of Free Will

10.1093/oso/9780198794325.003.0007 ◽

2017 ◽

Author(s):

Shaun Gallagher

Keyword(s):

Motor Control ◽

Free Will ◽

Social Contexts ◽

Conscious Awareness ◽

Pure Consciousness ◽

Control Processes ◽

Traditional Notion ◽

Intentional Actions ◽

Neuronal Processes

This chapter examines the concept of free will as it is discussed in philosophy and neuroscience. It reviews reflective and perceptual theories of agency and argues against neuro-centric conclusions about the illusory nature of free will. Experiments conducted by Benjamin Libet suggest that neural activations prior to conscious awareness predict specific actions. This has been taken as evidence that challenges the traditional notion of free will. Libet’s experiments, arguably, are about motor control processes on an elementary timescale and say nothing about freely willed intentional actions embedded in personal and social contexts that involve longer-term, narrative timescales. One implication of this interpretation is that enactivism is not a form of simple behaviorism. Agency is not a thing reducible to elementary neuronal processes; nor is it an idea or a pure consciousness. It rather involves a structure of complex relations.

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Systematic Underreproduction of Time Is Independent of Judgment Certainty

Neural Plasticity ◽

10.1155/2016/6890674 ◽

2016 ◽

Vol 2016 ◽

pp. 1-8 ◽

Cited By ~ 3

Author(s):

Martin Riemer ◽

Darren Rhodes ◽

Thomas Wolbers

Keyword(s):

Magnetic Stimulation ◽

Posterior Parietal Cortex ◽

Judgment Bias ◽

Time Discrimination ◽

Temporal Intervals ◽

Neuronal Processes ◽

Posterior Parietal ◽

Temporal Stimuli ◽

The Right ◽

Temporal Judgments

We recently proposed that systematic underreproduction of time is caused by a general judgment bias towards earlier responses, instead of reflecting a genuine misperception of temporal intervals. Here we tested whether this bias can be explained by the uncertainty associated with temporal judgments. We applied transcranial magnetic stimulation (TMS) to inhibit neuronal processes in the right posterior parietal cortex (PPC) and tested its effects on time discrimination and reproduction tasks. The results show increased certainty for discriminative time judgments after PPC inhibition. They suggest that the right PPC plays an inhibitory role for time perception, possibly by mediating the multisensory integration between temporal stimuli and other quantities. Importantly, this increased judgment certainty had no influence on the degree of temporal underreproduction. We conclude that the systematic underreproduction of time is not caused by uncertainty for temporal judgments.

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Sublethal Exposure Effects of the Neonicotinoid Clothianidin Strongly Modify the Brain Transcriptome and Proteome in the Male Moth Agrotis ipsilon

Insects ◽

10.3390/insects12020152 ◽

2021 ◽

Vol 12 (2) ◽

pp. 152

Author(s):

Camille Meslin ◽

Françoise Bozzolan ◽

Virginie Braman ◽

Solenne Chardonnet ◽

Cédric Pionneau ◽

...

Keyword(s):

Sex Pheromone ◽

Molecular Mechanisms ◽

Insect Pest ◽

Agrotis Ipsilon ◽

Positive Effects ◽

Male Moth ◽

Hormetic Effect ◽

Pest Insects ◽

Neuronal Processes ◽

The Brain

Insect pest management relies mainly on neurotoxic insecticides, including neonicotinoids such as clothianidin. The residual accumulation of low concentrations of these insecticides can have positive effects on target pest insects by enhancing various life traits. Because pest insects often rely on sex pheromones for reproduction and olfactory synaptic transmission is cholinergic, neonicotinoid residues could indeed modify chemical communication. We recently showed that treatments with low doses of clothianidin could induce hormetic effects on behavioral and neuronal sex pheromone responses in the male moth, Agrotis ipsilon. In this study, we used high-throughput RNAseq and proteomic analyses from brains of A. ipsilon males that were intoxicated with a low dose of clothianidin to investigate the molecular mechanisms leading to the observed hormetic effect. Our results showed that clothianidin induced significant changes in transcript levels and protein quantity in the brain of treated moths: 1229 genes and 49 proteins were differentially expressed upon clothianidin exposure. In particular, our analyses highlighted a regulation in numerous enzymes as a possible detoxification response to the insecticide and also numerous changes in neuronal processes, which could act as a form of acclimatization to the insecticide-contaminated environment, both leading to enhanced neuronal and behavioral responses to sex pheromone.

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What Is the Relationship between the Presence of Volatile Organic Compounds in Food and Drink Products and Multisensory Flavour Perception?

Foods ◽

10.3390/foods10071570 ◽

2021 ◽

Vol 10 (7) ◽

pp. 1570

Author(s):

Charles Spence

Keyword(s):

Volatile Organic Compounds ◽

Organic Compounds ◽

Mass Spectrometry Data ◽

Complex Relationship ◽

Chemical Profile ◽

Volatile Organic ◽

Flavour Perception ◽

Food And Drink ◽

The Relationship ◽

Unique Chemical

This narrative review examines the complex relationship that exists between the presence of specific configurations of volatile organic compounds (VOCs) in food and drink products and multisensory flavour perception. Advances in gas chromatography technology and mass spectrometry data analysis mean that it is easier than ever before to identify the unique chemical profile of a particular food or beverage item. Importantly, however, there is simply no one-to-one mapping between the presence of specific VOCs and the flavours that are perceived by the consumer. While the profile of VOCs in a particular product undoubtedly does tightly constrain the space of possible flavour experiences that a taster is likely to have, the gustatory and trigeminal components (i.e., sapid elements) in foods and beverages can also play a significant role in determining the actual flavour experience. Genetic differences add further variation to the range of multisensory flavour experiences that may be elicited by a given configuration of VOCs, while an individual’s prior tasting history has been shown to determine congruency relations (between olfaction and gustation) that, in turn, modulate the degree of oral referral, and ultimately flavour pleasantness, in the case of familiar foods and beverages.

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Anatomical organization of the lateral cervical nucleus in Artiodactyls

Veterinary Research Communications ◽

10.1007/s11259-021-09788-1 ◽

2021 ◽

Author(s):

Annamaria Grandis ◽

Anna Gardini ◽

Claudio Tagliavia ◽

Giulia Salamanca ◽

Jean-Marie Graïc ◽

...

Keyword(s):

Nitric Oxide ◽

Spinal Cord ◽

Cervical Spinal Cord ◽

Synaptic Activity ◽

Immunoperoxidase Method ◽

Somatosensory Information ◽

Lateral Cervical Nucleus ◽

Neuronal Processes ◽

Calbindin D28k ◽

Oxide Synthase

AbstractThe presence of the lateral cervical nucleus (LCN) in different mammals, including humans, has been established in a number of anatomical research works. The LCN receives its afferent inputs from the spinocervical tract, and conveys this somatosensory information to the various brain areas, especially the thalamus. In the present study, the organization of the calf and pig LCN was examined through the use of thionine staining and immunohistochemical methods combined with morphometrical analyses. Specifically, the localization of calbindin-D28k (CB-D28k) and neuronal nitric oxide synthase (nNOS) in the LCN was investigated using the immunoperoxidase method. Calf and pig LCN appear as a clearly defined column of gray matter located in the three cranial segments of the cervical spinal cord. Thionine staining shows that polygonal neurons represent the main cell type in both species. The calf and pig LCN contained CB-D28k-immunoreactive (IR) neurons of varying sizes. Large neurons are probably involved in the generation of the cervicothalamic pathway. Small CB-D28k-IR neurons, on the other hand, could act as local interneurons. The immunoreactivity for nNOS was found to be mainly located in thin neuronal processes that could represent the terminal axonal portion of nNOS-IR found in laminae III e IV. This evidence suggests that nitric oxide (NO) could modulate the synaptic activity of the glutamatergic spinocervical tracts. These findings suggest that the LCN of Artiodactyls might play an important role in the transmission of somatosensory information from the spinal cord to the higher centers of the brain.

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