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Neurone Collection

Neurons, the fundamental building blocks of our nervous system, are intricate and fascinating cells that enable communication within our bodies

Background imageNeurone Collection: Nerve and glial cells, light micrograph

Nerve and glial cells, light micrograph
Nerve and glial cells, fluorescence light micrograph. These are neural stem cells that have differentiated into neurons (nerve cells, blue) and glial cells (support cells, red)

Background imageNeurone Collection: Nerve cell, SEM

Nerve cell, SEM
Nerve cell. Coloured scanning electron micrograph (SEM) of a nerve cell (neuron). Neurons are responsible for passing information around the central nervous system (CNS)

Background imageNeurone Collection: Immunofluorescent LM of neurons & astrocytes

Immunofluorescent LM of neurons & astrocytes
Immunofluorescent Light Micrograph of a network of neurons and astrocyte cells, in brain cortex. In the foreground, nerve fibres of neurons (green) are seen in a fine branching network

Background imageNeurone Collection: Synapse nerve junction, TEM

Synapse nerve junction, TEM
Synapse. Coloured transmission electron micrograph (TEM) of a synapse, a junction between two nerve cells, in the brain. At a synapse an electrical signal is transmitted from one cell to the next in

Background imageNeurone Collection: Brain tissue blood supply

Brain tissue blood supply. Light micrograph of a section through cortex tissue from a brain, showing the blood vessels (branching) that supply it

Background imageNeurone Collection: Nerve cell

Nerve cell. Computer artwork of a nerve cell, also called a neuron. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Glial stem cell culture, light micrograph

Glial stem cell culture, light micrograph
Glial stem cell culture. Fluorescent light micrograph of glial stem cells producing the protein NG2 (red) as they mature. These stem cells can differentiate into several types of glial cells

Background imageNeurone Collection: Cerebral cortex nerve cells

Cerebral cortex nerve cells. Confocal light micrograph of neurons (nerve cells, red) and glial cells (support cells, gold) from the cerebral cortex

Background imageNeurone Collection: Nerve cells

Nerve cells
Immunofluorescent Light Micrograph of neuron cells and astrocytes in mammalian spinal cord. Here, neuron cells stain red: the cell body appears pink

Background imageNeurone Collection: Myelination of nerve fibres, TEM

Myelination of nerve fibres, TEM
Myelination of nerve fibres. Coloured transmission electron micrograph (TEM) of Schwann cells (blue, with brown nuclei) insulating nerve fibres (axons, pink) with a myelin sheath

Background imageNeurone Collection: Neural stem cell culture

Neural stem cell culture. Fluorescent light micrograph of a group of neural stem cells (neurosphere) in culture. Neural stem cells are able to differentiate into neurons (nerve cells)

Background imageNeurone Collection: Motor neurons, light micrograph

Motor neurons, light micrograph. Motor neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Brain neuron

Brain neuron. Computer reconstruction of a medium spiny neuron from the basal ganglia of the brain. Neurons (nerve cells) are responsible for passing information around the central nervous system

Background imageNeurone Collection: Nerve cells, SEM

Nerve cells, SEM
Nerve cells. Coloured scanning electron micrograph (SEM) of nerve cells, known as neurones. Nerve cells occur in the brain, spinal cord, and in ganglia

Background imageNeurone Collection: Nerve cell, TEM

Nerve cell, TEM
Nerve cell. Coloured transmission electron micrograph (TEM) of a nerve cell body in cross- section. The cell has a large nucleus (yellow) and inner nucleolus (red)

Background imageNeurone Collection: Nerve cells, abstract artwork

Nerve cells, abstract artwork
Nerve cells. Abstract computer artwork of nerve cells, or neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Myelination of nerve fibres, TEM

Myelination of nerve fibres, TEM
Myelination of nerve fibres. Coloured transmission electron micrograph (TEM) of Schwann cells (red, with blue nuclei) insulating nerve fibres (axons, orange) with a myelin sheath

Background imageNeurone Collection: Myelinated nerve, TEM

Myelinated nerve, TEM
Myelinated nerve. Coloured transmission electron micrograph (TEM) of myelinated nerve fibres and Schwann cells. Myelin (purple) is an insulating fatty layer that surrounds nerve fibres (axons)

Background imageNeurone Collection: Synapse nerve junctions, SEM

Synapse nerve junctions, SEM
Synapse nerve junctions. Coloured scanning electron micrograph (SEM) of nerve cells showing the synapses (junctions, bulges) between them

Background imageNeurone Collection: Purkinje nerve cell, TEM C014 / 0583

Purkinje nerve cell, TEM C014 / 0583
Purkinje nerve cell. Transmission electron micrograph (TEM) of a purkinje nerve cell (green) from the cerebellum of the brain, showing the cell body (centre) and its primary dendrite (cell process)

Background imageNeurone Collection: Nerve synapse

Nerve synapse
Synapse. Illustration of a synaptic knob (at left), the junction between two nerve cells. When an electrical impulse reaches the synapse, vesicles (round blue shapes)

Background imageNeurone Collection: Nerve synapse, TEM

Nerve synapse, TEM
Nerve synapse. Coloured transmission electron micrograph (TEM) of the neuron (nerve) terminal at a synapse in the diaphragm

Background imageNeurone Collection: Nerve cell, SEM

Nerve cell, SEM
Nerve cell. Coloured scanning electron micrograph (SEM) of a neuron (nerve cell). The cell body is the central structure with neurites (long and thin structures) radiating outwards from it

Background imageNeurone Collection: Nerve cells, computer artwork

Nerve cells, computer artwork
Nerve cells. Computer artwork of nerve cells, or neurons

Background imageNeurone Collection: Substantia nigra in Parkinsons disease, illustration

Substantia nigra in Parkinsons disease, illustration
Substantia nigra. Computer illustration showing a degenerated substantia nigra and dopaminergic neurons in Parkinsons disease

Background imageNeurone Collection: Nasal lining, SEM

Nasal lining, SEM
Nasal lining. Coloured scanning electron micrograph (SEM) of the olfactory epithelium that lines the nasal cavity, showing olfactory cells (red) surrounded by numerous cilia (hair-like projections)

Background imageNeurone Collection: Nerve synapse and serotonin molecule

Nerve synapse and serotonin molecule
Nerve synapse and serotonin neurotransmitter molecule. Computer artwork of a junction, or synapse, between two nerve cells (neurons, blue)

Background imageNeurone Collection: Nerve cell growth

Nerve cell growth. Light micrograph of nerve cells (neurons) with immunofluorescent staining. These cells have been grown in culture

Background imageNeurone Collection: Prion disease treatment, artwork C018 / 1838

Prion disease treatment, artwork C018 / 1838
Prion disease treatment. Artwork of three pyramidal neurons (nerve cells). The cell at left is healthy. The cell at back has died because of a prion (pink) infection

Background imageNeurone Collection: Neural network, artwork C017 / 2276

Neural network, artwork C017 / 2276
Neural network, computer artwork

Background imageNeurone Collection: Pyramidal nerve cells, artwork C017 / 2273

Pyramidal nerve cells, artwork C017 / 2273
Pyramidal nerve cells. Computer artwork of pyramidal nerve cells from the cerebral cortex of the brain. Pyramidal cells are so named for their triangular cell bodies

Background imageNeurone Collection: Nerve synapse, artwork C017 / 3427

Nerve synapse, artwork C017 / 3427
Nerve synapse. Computer artwork of of a junction, or synapse, between two nerve cells (neurons). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Background imageNeurone Collection: Nerve synapse, artwork C017 / 3428

Nerve synapse, artwork C017 / 3428
Nerve synapse. Computer artwork of of a junction, or synapse, between two nerve cells (neurons). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Background imageNeurone Collection: Pyramidal nerve cells, artwork C017 / 2274

Pyramidal nerve cells, artwork C017 / 2274
Pyramidal nerve cells. Computer artwork of pyramidal nerve cells from the cerebral cortex of the brain. Pyramidal cells are so named for their triangular cell bodies

Background imageNeurone Collection: Neural network, artwork C017 / 2278

Neural network, artwork C017 / 2278
Neural network, computer artwork

Background imageNeurone Collection: Nerve synapse, artwork F006 / 7073

Nerve synapse, artwork F006 / 7073
Nerve synapse. Computer artwork of a junction, or synapse, between two nerve cells (neurons, blue). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Background imageNeurone Collection: Nerve synapse, artwork F006 / 7074

Nerve synapse, artwork F006 / 7074
Nerve synapse. Computer artwork of a junction, or synapse, between two nerve cells (neurons, blue). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Background imageNeurone Collection: Nerve synapse, artwork F006 / 7090

Nerve synapse, artwork F006 / 7090
Nerve synapse. Computer artwork of a junction, or synapse, between two nerve cells (neurons, blue). As the electrical signal reaches the presynaptic end of a neuron it triggers the release of

Background imageNeurone Collection: Nerve cells, artwork F007 / 5514

Nerve cells, artwork F007 / 5514
Computer artwork of nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Nerve cells, artwork F007 / 5522

Nerve cells, artwork F007 / 5522
Computer artwork of nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Nerve cells, artwork F007 / 5523

Nerve cells, artwork F007 / 5523
Computer artwork of nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Nerve cells, artwork F007 / 5526

Nerve cells, artwork F007 / 5526
Computer artwork of nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Nerve cells, artwork F007 / 5521

Nerve cells, artwork F007 / 5521
Computer artwork of nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Nerve cells, artwork F007 / 5512

Nerve cells, artwork F007 / 5512
Computer artwork of nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Nerve cells, artwork F007 / 5510

Nerve cells, artwork F007 / 5510
Computer artwork of nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Nerve cells, artwork F007 / 5530

Nerve cells, artwork F007 / 5530
Computer artwork of nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Nerve cells, artwork F007 / 5519

Nerve cells, artwork F007 / 5519
Computer artwork of firing nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body

Background imageNeurone Collection: Nerve cells, artwork F007 / 5518

Nerve cells, artwork F007 / 5518
Computer artwork of nerve cells, also called neurons. Neurons are responsible for passing information around the central nervous system (CNS) and from the CNS to the rest of the body



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Neurons, the fundamental building blocks of our nervous system, are intricate and fascinating cells that enable communication within our bodies. This captivating image showcases nerve and glial cells under a light microscope, revealing their unique structures and functions. In another stunning capture, we witness the synapse nerve junction through a transmission electron microscope (TEM), where signals are transmitted between neurons. The complexity of this microscopic world is further highlighted in an immunofluorescent light micrograph depicting neurons and astrocytes, emphasizing their role in supporting neuronal function. A striking scanning electron microscope (SEM) image zooms in on a single nerve cell, showcasing its intricate details and delicate branching structure. These specialized cells play a crucial role in transmitting electrical impulses throughout our body's complex network. Moving beyond individual cells, we explore the vastness of glial stem cell culture under a light microscope. These versatile cells have the potential to differentiate into various types of support cells for neurons. The importance of blood supply to brain tissue is beautifully illustrated in an image capturing the cerebral cortex's intricate network of nerve cells nourished by tiny blood vessels. This symbiotic relationship ensures optimal functioning of our cognitive abilities. Delving deeper into neural stem cell culture reveals their remarkable ability to self-renew and differentiate into different types of brain cells. These incredible properties hold immense promise for regenerative medicine and understanding neurological disorders better. Lastly, we observe motor neurons under a light microscope—key players responsible for transmitting signals from the central nervous system to muscles or glands throughout our body. Their precise organization allows us to perform coordinated movements effortlessly. These captivating images provide glimpses into the mesmerizing world of neurones—a testament to nature's intricacy and beauty as they orchestrate every thought, sensation, movement within us while unraveling mysteries that continue to captivate scientists worldwide.