Highly validated PrecisA Monoclonals
and Triple A Polyclonals
Atlas Antibodies’ PrecisA Monoclonals and Triple A Polyclonals antibodies are validated in IHC, WB and ICC-IF. Enhanced validation is applied as an extra layer of antibodies validation thus ensuring high specificity and selectivity for the target proteins.
Neuroscience Marker Panel
The nervous system controls and regulates involuntary and voluntary processes in the organism, including higher-order functions such as perception, cognition, emotions, and others.
At Atlas Antibodies, we have developed a panel of PrecisA Monoclonals primary antibodies designed to recognize the main anatomical and neurochemical cell types in rodents and the human nervous system.
Neural Lineage Development Markers
Atlas Antibodies manufactures primary polyclonal and monoclonal antibodies targeting relevant markers in the neural lineage development pathways such as E-cadherin/CDH1, FABP7/BLBP, EOMES/TBR2, DCX, RBFOX3/NeuN, and many more.
Neuroinflammation Markers
Neuroinflammation broadly defines the collective reactive immune response in the brain and spinal cord in response to injury and disease.
Atlas Antibodies offers a wide range of neuroinflammation antibodies targeting non-neuronal cell types involved in neuroinflammation processes such as Microglia, Oligodentrocytes, and Astrocytes.
Cortical Layer Markers
Cortical layer markers are useful tools for studying the development, functional neuroanatomy, and pathology of the cerebral cortex.
The cerebral cortex is organized into six layers of both morphologically and functionally divergent neurons. The different layers can be identified using antibodies against the specific protein expressed in each layer.
Glioma Markers
Atlas Antibodies offers antibodies targeting the glioma proteome, the tumor microenvironment and the key molecular markers for glioma classification.
Gliomas are one of the most aggressive and lethal solid tumors of the central nervous system.
Markers for Glioma Classification
ATRX has become a routine marker for the classification of gliomas and is most often used in combination with various other markers, such as IDH1 and GFAP.
We also suggest related products.
Neural Stem Cell Markers
Stem cells have a capacity for self-renewal by producing more of the same cell type. Changes in the expression levels of specific molecules help identify the presence of neural stem cells in studies focused on further differentiation toward distinct neural lineages.
Our neural stem cells offer a unique and powerful tool for basic research and regenerative medicine.
