anti-s100-a1 (S10A1) Antibodies

The protein encoded by S10A1 is a member of the S100 family of proteins containing 2 EF-hand calcium-binding motifs. Additionally we are shipping s100-a1 Proteins (4) and many more products for this protein.

list all antibodies Gene Name GeneID UniProt
S10A1 6271 P23297
S10A1 20193 P56565
S10A1 295214 P35467
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Top anti-s100-a1 Antibodies at

Showing 4 out of 4 products:

Catalog No. Reactivity Host Conjugate Application Images Quantity Supplier Delivery Price Details
Cow Rabbit Un-conjugated IC, IF, WB Immunofluorescent analysis of S100-A1 staining in HEK293T cells. Formalin-fixed cells were permeabilized with 0.1% Triton X-100 in TBS for 5-10 minutes and blocked with 3% BSA-PBS for 30 minutes at room temperature. Cells were probed with the primary antibody in 3% BSA-PBS and incubated overnight at 4 °C in a humidified chamber. Cells were washed with PBST and incubated with a DyLight 594-conjugated secondary antibody (red) in PBS at room temperature in the dark. DAPI was used to stain the cell nuclei (blue). Western blot analysis of S100-A1 expression in HEK293T (A), mouse brain (B), rat brain (C), C6 (D) whole cell lysates. 200 μL Log in to see 13 to 14 Days
Cow Rabbit Un-conjugated IHC, WB Immunohistochemical analysis of S100-A1 staining in human brain formalin fixed paraffin embedded tissue section. The section was pre-treated using heat mediated antigen retrieval with sodium citrate buffer (pH 6.0). The section was then incubated with the Western blot analysis of S100-A1 expression in Hela (A) whole cell lysates. 200 μL Log in to see 13 to 14 Days
Human Rabbit Un-conjugated IHC, ELISA, WB   0.1 mg Log in to see 2 to 6 Days
Human Rabbit Un-conjugated IHC, WB   200 μL Log in to see 13 to 14 Days

S10A1 Antibodies by Reactivity, Application, Clonality and Conjugate

Attributes Applications Host Clonality

Mouse (Murine)

Rat (Rattus)

More Antibodies against s100-a1 Interaction Partners

Human s100-a1 (S10A1) interaction partners

  1. Data suggest that calcium signaling plays important role in prevention of protein misfolding; complexes of S100A1 (show S100A1 Antibodies) and STIP1 (show STIP1 Antibodies) are key players in this pathway; the stoichiometry of S100A1 (show S100A1 Antibodies)/STIP1 (show STIP1 Antibodies) interaction appears to be three S100A1 (show S100A1 Antibodies) dimers plus one STIP1 (show STIP1 Antibodies) monomer; each S100A1 (show S100A1 Antibodies)-STIP1 (show STIP1 Antibodies)-binding interaction is entropically driven. (S100A1 (show S100A1 Antibodies) = S100 calcium binding protein A1 (show S100A1 Antibodies); STIP1 (show STIP1 Antibodies) = stress-induced-phosphoprotein 1 (show STIP1 Antibodies)) [REVIEW]

  2. Data suggest that three dimers of S100A1 (S100 calcium binding protein A1 (show S100A1 Antibodies)) associate with one molecule of STIP1 (show STIP1 Antibodies) (stress-inducible phosphoprotein 1) in a calcium-dependent manner; individual STIP1 (show STIP1 Antibodies) TPR (tetratricopeptide repeat) domains, TPR1, TPR2A and TPR2B, bind a single S100A1 (show S100A1 Antibodies) dimer with significantly different affinities; TPR2B domain possesses highest affinity for S100A1 (show S100A1 Antibodies).

  3. Results identified amino acids motif in S100A1 (show S100A1 Antibodies) for protein binding to 2-oxohistidine which appears to be an evolutionarily conserved capacity from bacteria to human.

  4. a correlation between S100B (show S100B Antibodies) + A1-positive Human Articular Chondrocytes in monolayer culture and their neochondrogenesis capacity in pellet culture, is reported.

  5. CaM (show CALM1 PLURAL_@27095@) and S100A1 (show S100A1 PLURAL_@27095@) can concurrently bind to and functionally modulate RyR1 (show RYR1 PLURAL_@27095@) and RyR2 (show RYR2 PLURAL_@27095@), but this does not involve direct competition at the RyR (show RYR1 PLURAL_@27095@) CaM (show CALM1 PLURAL_@27095@) binding site.

  6. In line with these observations, rhesus monkey rhadinovirus infection resulted in rapid degradation of SP100 (show SP100 Antibodies), followed by degradation of PML (show PML Antibodies) and the loss of ND10 structures, whereas the protein levels of ATRX (show ATRX Antibodies) and DAXX (show DAXX Antibodies) remained constant.

  7. molecular dynamics simulations of S100A1 (show S100A1 Antibodies) in the apo (show C9orf3 Antibodies)/holo (Ca(2 (show CA2 Antibodies)+)-free/bound) states, is reported.

  8. In this review, we aim to describe the molecular basis and regulatory function of S100A1 (show S100A1 Antibodies)--{REVIEW}

  9. Data indicate that Cu-oxidized S100 calcium binding protein A4 (S100A4) interacted with S100 calcium binding protein A1 (S100A1) and prevented protein phosphatase 5 (PP5) activation.

  10. Patients with acute myocardial infarction (MI) showed significantly increased S100A1 (show S100A1 Antibodies) serum levels. S100A1 signaling in cardiac fibroblasts occurs th (show S100A1 Antibodies)rough endosomal (show S100A1 Antibodies)TLR4/MyD88.

Cow (Bovine) s100-a1 (S10A1) interaction partners

  1. identified S100A1 (show S100A1 Antibodies), but not calmodulin (show KRIT1 Antibodies) or other S100 proteins, as a potent molecular chaperone (show HSP90AA1 Antibodies) and a new member of the Hsp70 (show HSP70 Antibodies)/Hsp90 (show HSP90 Antibodies) multichaperone complex (S100A1 (show S100A1 Antibodies))

  2. Results suggest that S100A1 (show S100A1 Antibodies) can act as a linker between the calcium and redox signalling pathways.

  3. beta-mercaptoethanol modification of apo (show C9orf3 Antibodies)-S100A1 (show S100A1 Antibodies) makes its structure more similar to that of holo-S100A1 (show S100A1 Antibodies), so that it becomes much better adjusted for calcium coordination.

Mouse (Murine) s100-a1 (S10A1) interaction partners

  1. Data (including data from studies using knockout mice) suggest that S100A1 (show S100A1 Antibodies) (S-100 calcium-binding protein (show GUCA1B Antibodies) A1 (show BCL2A1 Antibodies), alpha chain (show FCGRT Antibodies)) is involved in protein kinase A- (RIIalpha and RIIbeta (show PRKAR2B Antibodies))-dependent signaling resulting in nuclear redistribution/influx of HDAC4 (histone deacetylase 4 (show HDAC5 Antibodies)) in skeletal muscle fibers.

  2. S100A1 (show S100A1 Antibodies)-KO exhibited increased right ventricular (RV) weight and elevated RV pressure in the absence of altered left ventricular filling pressures, increase in wall thickness of muscularized pulmonary arteries and a reduction in microvascular perfusion.

  3. S100A1 (show S100A1 Antibodies) and S100B (show S100B Antibodies) are dispensable for endochondral ossification during skeletal development.

  4. S100A1 (show S100A1 Antibodies) ablationalso reduced plaque associated and increased non-plaque associated PO4-Akt (show AKT1 Antibodies) and PO4-GSK3beta (show GSK3b Antibodies) staining.

  5. Patients with acute myocardial infarction (MI) showed significantly increased S100A1 (show S100A1 Antibodies) serum levels. Experimental MI in mice induced comparable S100A1 (show S100A1 Antibodies) release. S100A1 (show S100A1 Antibodies) signaling in cardiac fibroblasts occurs through endosomal TLR4 (show TLR4 Antibodies)/MyD88 (show MYD88 Antibodies).

  6. hypoxia-induced MiR (show MLXIP Antibodies)-138 is an essential mediator of EC dysfunction via its ability to target the 3'UTR (show UTS2R Antibodies) of S100A1 (show S100A1 Antibodies).

  7. Report downregulation of S100A1 (show S100A1 Antibodies) expression in critical limb ischemia impairs postischemic angiogenesis via compromised proangiogenic endothelial cell function and nitric oxide synthase (show NOS Antibodies) regulation.

  8. S100A1 (show S100A1 Antibodies) and calmodulin bind to an overlapping domain on the ryanodine receptor (show RYR3 Antibodies) type 1 to tune the Ca2 (show CA2 Antibodies)+ release process, and thereby regulate skeletal muscle function. (Review)

  9. The RyR1 (show RYR1 Antibodies)-L3625D mutation removed both an early activating effect of S100A1 (show S100A1 Antibodies) and calmodulin and delayed the suppression of RyR1 (show RYR1 Antibodies) Ca2 (show CA2 Antibodies)+ release, providing new insights into calmodulin and S100A1 (show S100A1 Antibodies) regulation of skeletal muscle excitation-contraction coupling.

  10. Data suggest that the absence of S100A1 (show S100A1 Antibodies) suppresses physiological AP-induced Ca(2 (show CA2 Antibodies)+) release flux, resulting in impaired contractile activation and force production in skeletal muscle.

s100-a1 (S10A1) Antigen Profile

Protein Summary

The protein encoded by this gene is a member of the S100 family of proteins containing 2 EF-hand calcium-binding motifs. S100 proteins are localized in the cytoplasm and/or nucleus of a wide range of cells, and involved in the regulation of a number of cellular processes such as cell cycle progression and differentiation. S100 genes include at least 13 members which are located as a cluster on chromosome 1q21. This protein may function in stimulation of Ca2+-induced Ca2+ release, inhibition of microtubule assembly, and inhibition of protein kinase C-mediated phosphorylation. Reduced expression of this protein has been implicated in cardiomyopathies.

Gene names and symbols associated with anti-s100-a1 (S10A1) Antibodies

  • S100 calcium binding protein A1 (S100A1) antibody
  • S100 calcium binding protein A1 (S100a1) antibody
  • AI266795 antibody
  • S100 antibody
  • S100-alpha antibody
  • S100a antibody

Protein level used designations for anti-s100-a1 (S10A1) Antibodies

S-100 protein alpha chain , S-100 protein subunit alpha , S100 alpha , S100 calcium-binding protein A1 , S100 protein, alpha polypeptide , protein S100-A1

100858258 Gallus gallus
6271 Homo sapiens
480141 Canis lupus familiaris
528735 Bos taurus
20193 Mus musculus
295214 Rattus norvegicus
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