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S-Antigen, Retina and Pineal Gland (Arrestin) (SAG) ELISA Kits

may act as a GTP/GDP-binding protein\; may play a role in signal transduction in the retina [RGD, Feb 2006].. Additionally we are shipping SAG Antibodies (63) and SAG Proteins (13) and many more products for this protein.

list all ELISA KIts Gene Name GeneID UniProt
SAG 20215 P20443
SAG 6295 P10523
SAG 25539 P15887
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Top SAG ELISA Kits at antibodies-online.com

Showing 10 out of 34 products:

Catalog No. Reactivity Sensitivity Range Quantity Supplier Delivery Price Details
Human 250-5000 pg/mL 96 Tests Log in to see 11 to 13 Days
$785.71
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Human
96 Tests Log in to see 8 to 9 Days
$680.63
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Monkey
96 Tests Log in to see 8 to 9 Days
$770.00
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Pig
96 Tests Log in to see 8 to 9 Days
$770.00
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Rabbit
96 Tests Log in to see 8 to 9 Days
$770.00
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Chicken
96 Tests Log in to see 8 to 9 Days
$770.00
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Rat
96 Tests Log in to see 11 to 13 Days
$785.71
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Mouse
96 Tests Log in to see 11 to 13 Days
$785.71
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Guinea Pig
96 Tests Log in to see 11 to 13 Days
$801.43
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Dog
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$801.43
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More ELISA Kits for SAG Interaction Partners

Mouse (Murine) S-Antigen, Retina and Pineal Gland (Arrestin) (SAG) interaction partners

  1. The G-protein coupled receptor, DRD4, requires ARR1 and ARR4 for desensitization and internalization.

  2. ARR4 modulates essential functions in high acuity vision and downstream cellular signaling pathways that are not fulfilled or substituted by the coexpression of ARR1, despite its high expression levels in all mouse cones.

  3. crystal structure of a constitutively active form of human rhodopsin (show RHO ELISA Kits) bound to a pre-activated form of the mouse visual arrestin, determined by serial femtosecond X-ray laser crystallography

  4. Sag (show RNF7 ELISA Kits) is essential for embryonic vasculogenesis and tumor angiogenesis.

  5. SAG (show RNF7 ELISA Kits) knockdown caused the accumulation of proapoptotic Bax (show BAX ELISA Kits) and SARM, imbalance of Bcl-2 (show BCL2 ELISA Kits)/Bax (show BAX ELISA Kits) in the mitochondria, induction of cytosolic cytochrome c (show CYCS ELISA Kits) and activation of caspases, all of which led to disequilibrium between life and death of macrophages.

  6. tetrameric visual arrestin 1 is a biomarker for retinal function in diabetic mice, assessed by MRI (show C7ORF49 ELISA Kits)

  7. The data suggest that monomeric arrestin-1 is cytotoxic and WT arrestin-1 protects rods by forming mixed oligomers with the mutant and/or competing with it for the binding to non-receptor partners.

  8. Findings suggest a role for Bardet-Biedl syndrome 5 (BBS5) in regulating light-dependent translocation of arrestin1 (Arr1).

  9. Visual arrestin interaction with clathrin adaptor AP-2 (show TFAP2A ELISA Kits) regulates photoreceptor survival in the vertebrate retina.

  10. the 139-loop stabilizes basal conformation of arrestin-1 and acts as a brake, preventing its binding to non-preferred forms of rhodopsin (show RHO ELISA Kits).

Human S-Antigen, Retina and Pineal Gland (Arrestin) (SAG) interaction partners

  1. Macular dysfunction can occur in Oguchi disease with the 1147delA mutation in the SAG (show DMBT1 ELISA Kits) gene.

  2. NEDD4-1 (show NEDD4 ELISA Kits) overexpression sensitizes cancer cells to etoposide-induced apoptosis by reducing SAG (show DMBT1 ELISA Kits) levels through targeted degradation. SAG (show DMBT1 ELISA Kits) is added to a growing list of NEDD4-1 (show NEDD4 ELISA Kits) substrates and mediates its biological function.

  3. Sag (show DMBT1 ELISA Kits) is a Kras-cooperating oncogene (show RAB1A ELISA Kits) that promotes lung tumorigenesis

  4. Based on their observed affinity for arrestin-1, P-opsin (show RHO ELISA Kits) and inactive P-Rh very likely affect the physiological monomer-dimer-tetramer equilibrium of arrestin-1, and should therefore be taken into account when modeling photoreceptor function.

  5. Compound heterozygosity of a nonsense R193X mutation and a heterozygous deletion of 3,224 bp encompassing exon 2 in the SAG (show DMBT1 ELISA Kits) gene is the cause of Oguchi's disease in a Chinese family.

  6. Identification of autoantibodies specific for two retinal antigens (CRALBP (show RLBP1 ELISA Kits) and S-Ag) supports the concept of an autoimmunological origin of the disease.

  7. the arrestin 1147delA, which has been known as a frequent cause of Oguchi disease, also may be related to the pathogenesis of autosomal recessive RP.

  8. We describe a case of Oguchi disease with unusual findings caused by a putative heterozygous mutation in the SAG (show DMBT1 ELISA Kits) gene.

  9. maintenance of low levels of the active monomer is the biological role of arrestin-1 self-association

  10. Rhodopsin (show RHO ELISA Kits)-arrestin complexes alter the morphology of endosomal compartments and severely damage receptor-mediated endocytic functions in retinitis pigmentosa.

Cow (Bovine) S-Antigen, Retina and Pineal Gland (Arrestin) (SAG) interaction partners

  1. Conformational changes are involved in the arrestin-rhodopsin (show RHO ELISA Kits) binding interface through multiple docking modes.

  2. K2A mutations in arrestin-1, -2, and -3 significantly reduced their binding to active phosphorhodopsin.

  3. maintenance of low levels of the active monomer is the biological role of arrestin-1 self-association

  4. We hypothesize that, although arrestin requires at least a single Rho*P to bind the membrane, a single arrestin can actually interact with a pair of receptors

  5. variant form of arrestin-1 binds rod outer segment membranes

  6. Models suggest that the phosphorylated carboxy-terminal region of rhodopsin (show RHO ELISA Kits), Rh(330-348), undergoes significant conformational changes and becomes structured upon binding to arrestin.

  7. arrestin and p44 bind differently to different phosphorylated rhodopsin species and that this may be due to a structural difference between p44's and arrestin's basal states.

SAG Antigen Profile

Antigen Summary

may act as a GTP/GDP-binding protein\; may play a role in signal transduction in the retina

Gene names and symbols associated with SAG

  • S-antigen; retina and pineal gland (arrestin) (sag) antibody
  • S-antigen; retina and pineal gland (arrestin) b (sagb) antibody
  • S-antigen (PF10_0343) antibody
  • S-antigen; retina and pineal gland (arrestin) (SAG) antibody
  • arrestin (sag) antibody
  • S-antigen, retina and pineal gland (arrestin) (Sag) antibody
  • S-antigen; retina and pineal gland (arrestin) (Sag) antibody
  • A930001K18Rik antibody
  • ARR antibody
  • Arr1 antibody
  • arrestin antibody
  • Irbp antibody
  • MGC75721 antibody
  • MGC84416 antibody
  • RP47 antibody
  • S-AG antibody
  • sag antibody
  • sag1 antibody
  • SAGMR antibody
  • SANTI antibody
  • zgc:114197 antibody

Protein level used designations for SAG

S-antigen; retina and pineal gland (arrestin) , -antigen; retina and pineal gland (arrestin) , Arrestin Sb , S-antigen , s-arrestin-like , S-AG , S-arrestin , retinal S-antigen , rod photoreceptor arrestin , 48 kDa protein , arrestin 1 , rod arrestin , visual arrestin 1 , retinal S-antigen (48 KDa protein) , arrestin1 , arrestin, S-antigen

GENE ID SPECIES
394670 Xenopus (Silurana) tropicalis
447588 Xenopus laevis
619268 Danio rerio
810500 Plasmodium falciparum 3D7
100445407 Pongo abelii
100598651 Nomascus leucogenys
398109 Xenopus laevis
20215 Mus musculus
6295 Homo sapiens
397151 Sus scrofa
280922 Bos taurus
25539 Rattus norvegicus
403906 Canis lupus familiaris
768877 Gallus gallus
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