k Nerve cell growth Nerve cell growth. Light micrograph of nerve cells neurons with immunofluorescent staining. These cells have been grown in culture. The stains show neurites thin strands, either axons or dendrites connecting nerve cell bodies. Short neurites are green, long ones are pink. Nerve cell bodies are blue, but nonneuronal cell nuclei also blue are seen as well. Neurons transmit electrical signals around the body, especially the brain and the spinal cord. These neurons have been grown from NT2 cells, a human teratocarcinoma cell line capable of differentiation into nerve cells. Such research may make neural regeneration possible for treating spinal paralysis and nerve disorders. Stock Photo - Afloimages

Login

Login

Nerve cell growth Nerve cell growth. Light micrograph of nerve cells neurons with immunofluorescent staining. These cells have been grown in culture. The stains show neurites thin strands, either axons or dendrites connecting nerve cell bodies. Short neurites are green, long ones are pink. Nerve cell bodies are blue, but non neuronal cell nuclei also blue are seen as well. Neurons transmit electrical signals around the body, especially the brain and the spinal cord. These neurons have been grown from NT2 cells, a human teratocarcinoma cell line capable of differentiation into nerve cells. Such research may make neural regeneration possible for treating spinal paralysis and nerve disorders.

RM

Add to Lightbox

Download Comp

Nerve cell growth

Nerve cell growth. Light micrograph of nerve cells (neurons) with immunofluorescent staining. These cells have been grown in culture. The stains show neurites (thin strands, either axons or dendrites) connecting nerve cell bodies. Short neurites are green, long ones are pink. Nerve cell bodies are blue, but non-neuronal cell nuclei (also blue) are seen as well. Neurons transmit electrical signals around the body, especially the brain and the spinal cord. These neurons have been grown from NT2 cells, a human teratocarcinoma cell line capable of differentiation into nerve cells. Such research may make neural regeneration possible for treating spinal paralysis and nerve disorders.

Details

ID

161169957

Collection

License type

Rights Managed

Photographer

AFLO

More

Top Categories

Editorial

2024 Paris Olympics

Latest Entertainment

2020 Tokyo Olympics

Creative

People and Lifestyle

Sport and Leisure

Business and Technology

Videos

Sport and Leisure

Drone and Timelapse

People and Lifestyle

Business and Technology

CONTENT

Editorial Photo

Editorial Video

Creative Photo

Creative Video

Imagemart Collection

Premium Historical Archive

Pro Wrestling Photo Archive

Blog

BUYING

Photo and Video Research Service

Privacy Policy

Terms & Conditions

EULA

COMPANY

About Us

Corporate

GET IN TOUCH

contact@afloimages.com

+81 3-5550-2120

SELLING

Become a Contributor

SERVICES

Aflo Atelier

Aflo Sport

Aflo Global

Nippon News

COMMUNITY

Photo website with Rights Managed and Royalty Free stock photos, images, illustrations and footage available for download immediately for commercial and editorial uses. Aflo is a leading independent supplier and producer of stock pictures and visual content. Search and find high quality images and video for design, print, web-use and publishing. Buy photos from our extensive collection of model released and property released sports images. Search some of the most beautiful travel and landscape pictures from our own photographers and license from our large collection of content, modern and archive, focusing on Japan. We provide free research. Register for personal account management and for full use of our Stock Photography website and start to download images now.

© 2024 AFLO All rights reserved