MBL

Anti-Neuron specific enolase (NSE) (Human) pAb

Product Code:
 
MBL-PD002-H
Product Group:
 
Primary Antibodies
Supplier:
 
MBL
Host Type:
 
Rabbit
Antibody Isotype:
 
Affinity Purified Ig
Antibody Clonality:
 
Polyclonal
Regulatory Status:
 
RUO
Target Species:
  • Human
  • Mouse
  • Rat
Application:
 
Immunohistochemistry (IHC)
Shipping:
 
4°C
Storage:
 
4°C
 

No additional charges, what you see is what you pay! *

CodeSizePrice
MBL-PD002-H6 mL£209.00
Quantity:
Prices exclude any Taxes / VAT
How to order with us   Contact us
Stay in control of your spending. These prices have no additional charges, not even shipping!
* Rare exceptions are clearly labelled (only 0.14% of items!).
Multibuy discounts available! Contact us to find what you can save.
This product comes from: United States.
Typical lead time: 10-14 working days.
Contact us for more accurate information.
  • Further Information
  • Documents
  • References
  • Show All

Further Information

Background:
Enolase is a soluble protein, which consists of homo/hetero dimmer of α, β and γ subunits. The αγ and γγ enolases are called as neuron-specific enolase (NSE) or γ-enolase, because they present at high level in central nervous tissue and at low level in various other tissues, especially in neurons and neuroendocrine cells. NSE is also known as tumor marker, because some of brain, lung and other cancers express and secret it at high level.
Formulation:
In 20 mM HEPES/135 mM NaCl/1% BSA/0.09% sodium azide
Gene IDs:
Human: 2026 Mouse: 13806, 13807 Rat: 24334
Immunogen Translated:
NSE was purified from human brain
Reactivity:
This antibody reacts with human, mouse and rat NSE on Immunohistochemistry.
Shelf Life:
3 years
Source:
This antibody was purified from rabbit serum using affinity column. The rabbit was immunized with purified human brain NSE.
Target:
NSE

Documents

References

1) Hayashi, Y., et al., J. Histochem. Cytochem. 37, 1147-1152 (1989) 2) Haimoto, H., et al., Lab. Invest. 52, 257-263 (1985) 3) Kato, K., et al., Clin. Chim. Acta. 127, 353-363 (1983) 4) Kato, K., et al., J. Neurochem 37, 998-1005 (1981)