Neurotransmitters Collection

Brain protein research. Computer artwork of a brain and coloured dots from a protein microarray. Protein microarrays can be used to follow protein interactions

Effects of ecstasy on brain function. Computer artwork representing the effects of MDMA (3, 4-methylenedioxy-N-methylamphetamine), or ecstasy, on the nerves (centre) and synapses (nerve junctions)

Brain synapse, anatomical artwork
Brain synapse. Anatomical computer artwork of a human brain with an enlargement showing the structure of a synapse (lower right) within one of the striate bodies that make up the striatum

Striatum, anatomical artwork
Striatum. Anatomical computer artwork of a human brain, showing the striate bodies (blue and green) in the midbrain, and the substantia nigra (black) in the brainstem

Neural network, artwork C013 / 4636
Neural network. Computer artwork of nerve cells (neurons) connected by processes (filaments), known as dendrites and axons, to form a neural network

Neuromuscular synapse, light micrograph
Neuromuscular junction. Fluorescent confocal light micrograph of the junction between a nerve cell and a muscle (not seen). The axon of the nerve cell (neuron) has been tagged with a blue dye

Neurological drug treatment, artwork
Neurological drug treatment, conceptual image. Computer artwork representing the use of drugs that affect neural networks by altering the transmission of neurotransmitters across synapses (blue)

Synapse structure, artwork
Synapse structure. Cutaway artwork showing the structure of a synapse, the point where two nerve ending meet. The electrical impulse moving along a nerve is transmitted to the adjacent nerve by

Synapse, artwork
Synapse. Computer artwork of a synapse, the junction between nerve cells. Synapses transmit electrical signals from one nerve cell to the next

Synaptic endorphins, artwork
Synaptic endorphins. Artwork showing the release (top) of neurotransmitters called endorphins (yellow) from the end of a nerve (blue)

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Neurotransmitters: Unraveling the Intricacies of Brain Protein Research Delving into the depths of brain function, researchers have been captivated by the enigmatic world of neurotransmitters. These tiny molecules play a pivotal role in transmitting signals between neurons, shaping our thoughts, emotions, and actions. One fascinating area of study is exploring how ecstasy affects brain function. By examining the impact on neurotransmitter levels and receptor activity, scientists strive to unravel its short-term euphoric effects and potential long-term consequences on cognitive abilities. Anatomical artwork depicting brain synapses provides a visual feast for understanding these intricate connections. The striatum, an essential component involved in reward processing and movement control, takes center stage in anatomical illustrations that showcase its complexity. Artistic renditions also bring neural networks to life – intricate webs of communication pathways that allow information to flow seamlessly throughout our brains. Artwork like C013 / 4636 beautifully captures this interconnectedness within our vast neurological landscape. Zooming in closer under a microscope reveals mesmerizing light micrographs showcasing neuromuscular synapses – where nerve impulses meet muscle fibers. These images provide valuable insights into disorders such as muscular dystrophy or myasthenia gravis. Further exploration leads us to captivating artworks illustrating nerve synapses - junctions where electrical signals are transmitted from one neuron to another. These stunning visuals emphasize their vital role in coordinating complex processes like learning, memory formation, and sensory perception. Computer-generated artwork showcases synapses with unparalleled intricacy – vibrant colors highlighting their dynamic nature as they facilitate rapid communication between neurons across different regions of the brain. Understanding neurochemical imbalances has paved the way for groundbreaking neurological drug treatments depicted through thought-provoking artworks. These creations symbolize hope for those suffering from conditions like depression or schizophrenia by targeting specific neurotransmitter systems to restore balance within delicate neuronal circuits. Intricate yet awe-inspiring artistic representations continue to shed light on the wonders of synapses.