Product Datasheet  
YWHAB Antibody  
Catalog Number: 32123  
Technical:tech@swbio.com  
Information:info@swbio.com  
Description  
  • host_species:  
  • Rabbit
  • Amount:  
  • 100μgμg
  • Swiss-Prot No.:  
  • Swiss-Prot:P31946
    NCBI Gene ID:7529
  • Form of Antibody:  
  • Supplied at 1.0mg/mL in phosphate buffered saline (without Mg2+ and Ca2+), pH 7.4, 150mM NaCl, 0.02% sodium azide and 50% glycerol.
  • Storage:  
  • Store at -20˚C
  • Immunogen:  
  • Recombinant protein of human YWHAB.
  • reactivity:  
  • Human,Mouse,Rat
  • appl_detail:  
  • WB 1:500 - 1:2000
    IHC 1:50 - 1:100
    IF 1:50 - 1:200
    IP 1:50 - 1:200
  • other_names:  
  • YWHAB; GW128; HS1; KCIP-1; 14-3-3,
  • Purification:  
  • Antibodies were purified by affinity purification using immunogen.
  • Specificity:  
  • The antibody detects endogenous level of total YWHAB protein.
  • Applications:  
  • WB,IHC,IF
  • Background:  
  • The 14-3-3 family of proteins plays a key regulatory role in signal transduction, checkpoint control, apoptotic and nutrient-sensing pathways (1,2). 14-3-3 proteins are highly conserved and ubiquitously expressed. There are at least seven isoforms, β, γ, ε, σ, ζ, τ, and η that have been identified in mammals. The initially described α and δ isoforms are confirmed to be phosphorylated forms of β and ζ, respectively (3). Through their amino-terminal α helical region, 14-3-3 proteins form homo- or heterodimers that interact with a wide variety of proteins: transcription factors, metabolic enzymes, cytoskeletal proteins, kinases, phosphatases, and other signaling molecules (3,4). The interaction of 14-3-3 proteins with their targets is primarily through a phospho-Ser/Thr motif. However, binding to divergent phospho-Ser/Thr motifs, as well as phosphorylation-independent interactions, has been observed (4). 14-3-3 binding masks specific sequences of the target protein and therefore modulates target protein localization, phosphorylation state, stability, and molecular interactions (1-4). 14-3-3 proteins may also induce target protein conformational changes that modify target protein function (4,5). Distinct temporal and spatial expression patterns of 14-3-3 isoforms have been observed in development and in acute response to extracellular signals and drugs, suggesting that 14-3-3 isoforms may perform different functions despite their sequence similarities (4). Several studies suggest that 14-3-3 isoforms are differentially regulated in cancer and neurological syndromes (2,3).



 
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