Anti-Phosphotyrosine (Anti-pY)(T96-65R)

Anti-Phosphotyrosine (Anti-pY)(T96-65R)

  • $455.00


Description :Rabbit Polyclonal Antibody

Species :

Tag :

Expression System:

Sequence :

Specificity :Recognizes peptides and proteins phosphorylated on tyrosine residues.

Cited Applications :WB, ELISA, IHC, IP

Cross Reactivity :Pan-specific antibody. No reaction to phosphoserine/ phosphothreonine peptides and proteins.

Host :Rabbit

Immunogen :Phosphotyrosine peptide-KLH conjugates

Purification :Affinity chromatography

Stability :Store at 4oC (add 0.1% NaN3) for several months, and at -20oC for longer periods. For optimal storage, aliquot target into smaller quantities after centrifugation and store at recommended temperature. For optimal performance, avoid repeated handling and multiple freeze/thaw cycles.

Sample Data :Immunohistochemistry analysis of human breast cancer tissue with Anti-Phosphotyrosine (anti-pY) (1:50).

Scientific Background :Post-translational modification of proteins and peptides is a robust way to regulate function of existing proteins or peptides. Protein phosphorylation represents one the most abundant and important post-translational modifications of proteins. Phosphorylation on tyrosine residues in proteins is performed by a variety of tyrosine specific protein kinases in the cell which are involved in a wide variety of signaling networks. The Phospho-Tyrosine antibody detects phosphorylation on tyrosine residues in proteins and peptides.

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Research Areas :AKT/PKB Pathway, Angiogenesis, Apoptosis/Autophagy, Cancer, Cardiovascular Disease, Cell Cycle, Cellular Stress, ERK/MAPK Pathway, Inflammation, Invasion/Metastasis, JAK/STAT Pathway, JNK/SAPK Pathway, Metabolic Disorder, Neurobiology, NfkB Pathway, p38 Pathway, PKA/PKC Pathway, WNT Signaling, Cancer, Neurobiology, Inflammation, Metabolic Disorder, Cardiovascular Disease, AKT/PKB Pathway, ERK/MAPK Pathway, p38 Pathway, JNK/SAPK Pathway, NfkB Pathway, JAK/STAT Pathway, PKA/PKC Pathway, WNT Signaling, Apoptosis/Autophagy, Cell Cycle, Cellular Stress, Angiogenesis, Invasion/Metastasis