Catalogue Number: ORB151198-BOR
Manufacturer: | Biorbyt |
Type: | Polyclonal Primary Antibody - Conjugated |
Shipping Condition: | Blue Ice |
Storage Condition: | 2-8°C |
Unit(s): | 100 ug |
Host name: | Rabbit |
Clone: | |
Isotype: | |
Immunogen: | Synthetic peptide corresponding to the sequence near the C-terminus of mouse GRP94 |
Application: | ICC, IF, IP, WB, IHC |
HSP90B1
1 mg/ml
P08113
94kDa
22027
For research use only.
Polyclonal
-20°C
HSP90B1 antibody, GP96 antibody, TRA1 antibody, ECGP antibody, 94 kDa glucose regulated protein antibody, 94 kDa glucose-regulated protein antibody, ECGP antibody, Endoplasmin antibody, Endothelial cell (HBMEC) glycoprotein antibody, ENPL_HUMAN antibody, Glucose regulated protein 94kDa antibody, gp96 antibody, gp96 homolog antibody, GRP 94 antibody, GRP-94 antibody, Heat shock protein 90 kDa beta member 1 antibody, heat shock protein 90kDa beta (Grp94), member 1 antibody, Heat shock protein, 90 kDa, beta, 1 antibody, HSP90B1 antibody, Stress inducible tumor rejection antigen GP96 antibody, TRA1 antibody, tumor rejection antigen (gp96) 1 antibody, Tumor rejection antigen 1 antibody, Tumor rejection antigen gp96 antibody, Tumor rejection antigen-1 (gp96) antibody
Rabbit polyclonal to GRP94 (ATTO-488). Grp94 (glucose regulated protein 94, gp96) is a constitutively expressed endoplasmic reticulum (ER) lumenal protein that is up-regulated in response to cellular stress such as heat shock, oxidative stress or glucose depletion. Grp94 is thought to play a role in protein translocation to the ER, in their subsequent folding and assembly, and in regulating protein secretion. Grp94 also plays a role in antigen presentation by accessing the endogenous pathway and eliciting specific CTL responses to chaperone bound peptides via MHC class I pathway. Grp94 is a member of the Hsp90 family of stress proteins and shares sequence homology with its cytosolic equivalent, Hsp90. Both Hsp90 and Grp94 are calcium binding proteins. Despite sharing 50% sequence homology over its N domains and complete conservation in its ligand binding domains with Hsp90, Grp94 and Hsp90 differ in their interactions with regulatory ligands as Grp94 has weak ATP binding and hydrolyisis activity. Grp94 exists as a homodimer and the two subunits interact at two distinct intermolecular sites, C terminal dimerization domains and the N-terminal interacts with the middle domain of opposing subunits. Grp94 contains a carboxy terminal KDEL (Lys-Asp-Glu-Leu) sequence which is believed to aid in its retention in the ER.