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CD63 antibody (AA 120-175)

CD63 Reactivity: Human, Mouse, Rat, Monkey, Dog FACS, WB, IHC, IF Host: Goat Polyclonal unconjugated
Catalog No. ABIN1440014
  • Target See all CD63 Antibodies
    CD63
    Binding Specificity
    • 13
    • 9
    • 8
    • 6
    • 4
    • 2
    • 1
    • 1
    • 1
    • 1
    • 1
    • 1
    • 1
    AA 120-175
    Reactivity
    • 122
    • 46
    • 7
    • 2
    • 1
    • 1
    Human, Mouse, Rat, Monkey, Dog
    Host
    • 72
    • 60
    • 4
    • 1
    • 1
    Goat
    Clonality
    • 90
    • 46
    • 2
    Polyclonal
    Conjugate
    • 65
    • 12
    • 10
    • 8
    • 7
    • 4
    • 3
    • 3
    • 2
    • 2
    • 2
    • 2
    • 2
    • 2
    • 2
    • 2
    • 2
    • 2
    • 2
    • 2
    • 1
    • 1
    This CD63 antibody is un-conjugated
    Application
    • 86
    • 59
    • 48
    • 40
    • 35
    • 28
    • 26
    • 17
    • 17
    • 12
    • 5
    • 3
    • 2
    • 2
    • 2
    • 2
    • 1
    • 1
    • 1
    • 1
    Flow Cytometry (FACS), Western Blotting (WB), Immunohistochemistry (IHC), Immunofluorescence (IF)
    Specificity
    Reacts with CD63, a 40-60 kDa glycoprotein, detected by Western blot in the following human (HeLa, HUH, Jurkat), mouse (AtT-20, Hepa, 3T3, RAW264.7), canine (MDCK) and monkey (COS-7) whole cell lysates.
    Characteristics
    Lysosome-associated membrane glycoprotein 3
    Purification
    epitope affinity purified
    Immunogen
    Purified recombinant peptide derived from within residues 120 aa to 175 aa of human CD63 produced in E. coli.
    Isotype
    IgG
    Product Specific Information

    What can the CD63 antibody ABIN1440014 be used for? This polyclonal goat anti-CD63 antibody is unconjugated and is suitable to detect CD63, a 40-60 kDa glycoprotein a wide variety of species (human, mouse, rat, dog and more). The CD63 antibody is validated for FACS, IF, IHC and Western blotting.

    What validation data is available for this CD63 antibody? 18 images for a variety of applications are available. The antibody is cited in 10 PubMed publications and it has 3 independent customer validations. Use our high quality CD63 antibody to reliably detect CD63.

    What is the function of CD63? CD63 unctions as cell surface receptor for TIMP1 and plays a role in the activation of cellular signaling cascades. Plays a role in the activation of ITGB1 and integrin signaling, leading to the activation of AKT, FAK/PTK2 and MAP kinases. Promotes cell survival, reorganization of the actin cytoskeleton, cell adhesion, spreading and migration, via its role in the activation of AKT and FAK/PTK2. Plays a role in VEGFA signaling via its role in regulating the internalization of KDR/VEGFR2. (UniProt)

  • Restrictions
    For Research Use only
  • Validation #100043 (Western Blotting)
    'Independent Validation' Badge
    by
    Center for Diabetes and Metabolic Diseases, Indiana University
    No.
    #100043
    Date
    08/30/2016
    Antigen
    CD63 antibody (CD63 Molecule) (AA 120-175)
    Lot Number
    47220715
    Method validated
    Western Blotting
    Positive Control
    A375 and SKMEL 28 melanoma cell line lysates
    Negative Control
    Notes
    The CD63 antibody ABIN1440014 works successfully in Western blot on human A375 and SKMEL 28 cell lysates.
    'Independent Validation' Badge
    Validation Images
    Full Methods
    Primary Antibody
    ABIN1440014
    Secondary Antibody
    Donkey anti-Goat IgG (H+L) IRDye680RD (LiCor, antibodies-online product number ABIN2169630 , lot number: C50330-03)
    Full Protocol
    • Cultured HeLa cells and human melanoma cell lines SK-MEL-28 and A375 were rinsed with PBS and lysed in 6M Urea/20mM Tris.
    • 20µg protein from each samples were used for Western blot analysis.
    • Samples were denatured in Bio-Rad Laemmli sample buffer (product 1610737, lot t350001755) containing beta-marcaptoethanol and separated on 4-20% Bio-Rad TGX gel (456-1034, lot t64041496).
    • Transfer onto PVDF membrane (Millipore, product IPLF00010, lot R5EA5898E) was done on TransBlot SD apparatus (Bio-Rad) following the manufacturer’s protocol.
    • Block membranes with LiCor Blocking Buffer (product 927-40000, lot V1381) for 2h.
    • Incubation with primary CD63 antibody ABIN1440014 diluted 1:500 in LiCor Blocking Buffer at 4°C overnight.
    • Wash 4x 15min with PBS-T.
    • Incubation with secondary antibody LiCor Donkey anti-Goat IgG (Heavy & Light Chain) Antibody (IRDye680RD) secondary antibody (antibodies-online product number ABIN2169630, lot C50330-03, 1:15000 dilution) and incubated on a shaker for 1h at RT.
    • Three rinses, followed by four 15min washes—2 PBS-T, 2 PBS (as required by LiCor).
    • Blot was developed on a LiCor imaging system (Odyssey 9120, scan resolution: 169um, image quality: low).
    Experimental Notes
    The size marker was developed with a different fluorophore and is superimposed on the blot image for illustrative purposes. Melanoma lysates, those from A375 and SKMEL 28 cells served as positive controls for general cell lysates. Multiple bands with MW of 40-60kDa are expected to be revealed by ABIN1440014 in the cell lysates.
  • Validation #100044 (Western Blotting)
    'Independent Validation' Badge
    by
    Center for Diabetes and Metabolic Diseases, Indiana University
    No.
    #100044
    Date
    08/30/2016
    Antigen
    CD63 antibody (CD63 Molecule) (AA 120-175)
    Lot Number
    47220715
    Method validated
    Western Blotting
    Positive Control
    C57BL/6 mouse serum
    Negative Control
    Notes
    'Independent Validation' Badge
    Validation Images
    Full Methods
    Primary Antibody
    ABIN1440014
    Secondary Antibody
    Donkey anti-Goat IgG (H+L) IRDye680RD (LiCor, antibodies-online product number ABIN2169630 , lot number: C50330-03)
    Full Protocol
    • Mouse serum was collected from C57BL/6 mice and lysed in 6M Urea/20mM Tris.
    • Exosomes were extracted with ExoQuick reagent (SBI, product #EXOQ5A, lot #140624-001) following the manufacturer’s protocol and resuspended in 30µl of modified RIPA buffer.
    • 20µl, 10µl, and 5µl aliquots of 5-fold diluted exosome solution were used.
    • Samples were denatured in Bio-Rad Laemmli sample buffer (product # 1610737, lot #t350001755)containing beta-marcaptoethanol and separated on 4-20% Bio-Rad TGX gel (product #456-1034, lot #t64041496).
    • Transfer onto PVDF membrane (Millipore, product #IPLF00010, lot #R5EA5898E) was done on TransBlot SD apparatus (Bio-Rad) following manufacturer’s protocol.
    • Block membranes with LiCor Blocking Buffer (product 927-40000, lot V1381) for 2h.
    • Incubation with
      • primary CD63 antibody ABIN1440014 at 4°C diluted 1:500 in LiCor Blocking Buffer at 4°C overnight.
      • primary rabbit anti-CD9 antibody (Proteintech, 20597-1-AP, lot 00013334) diluted 1:500 in LiCor Blocking Buffer at 4°C overnight.
    • Wash 4x 15min with PBS-T.
    • Incubation with secondary antibody LiCor Donkey anti-Goat IgG (Heavy & Light Chain) Antibody (IRDye680RD) secondary antibody (antibodies-online product number ABIN2169630, lot C50330-03, 1:15000 dilution) and incubated on a shaker for 1h at RT.
    • Three rinses plus four 15min washes—2 PBS-T, 2 PBS (as required by LiCor).
    • Blot was developed on a LiCor imaging system (Odyssey 9120, scan resolution: 169um, image quality: low).
    Experimental Notes
    • C57BL/6 mouse serum served as positive control for extracellular vesicle (EV) samples. A single band around 55kDA is expected in EV samples.
    • An alternative marker was used to confirm presence of EVs in the sample. Since CD63 is an exosomal marker, a quantitative correlation between the CD63 and the alternative marker signal strength with the amount of lysate loaded onto the gel is to be expected.
    • The size marker was developed with a different fluorophore and is superimposed on the blot image for illustrative purposes.
    Validation #101202 (Western Blotting)
    'Independent Validation' Badge
    by
    Internal Disease Clinic, Faculty of Veterinary Medicine, University of Zagreb
    No.
    #101202
    Date
    05/03/2017
    Antigen
    CD63
    Lot Number
    47080912
    Method validated
    Western Blotting
    Positive Control
    extracellular vesicles from bovine follicular fluid, verified with Flotillin-1 antibody
    Negative Control
    non-enriched fractions
    Notes
    Passed. The CD63 antibody ABIN1440014 specifically reveals a faint band of the expected molecular weight in fractions enriched for exosomes.
    'Independent Validation' Badge
    Validation Images
    Full Methods
    Primary Antibody
    ABIN1440014
    Secondary Antibody
    anti-goat-HRP
    Full Protocol
    • Isolate extracellular vesicles from 0.5ml follicular fluid from cow obtained from abattoir using the qEV size-exclusion chromatography kit (iZON Science, qEVoriginal Size Exclusion Columns, NC0888135):
      • Equilibrate columns with 10ml PBS.
      • Apply the follicular fluid.
      • Retain the first 3ml of the eluate as void volume negative control (V0).
      • Collect the next three 0.5ml fractions (1, 2, 3) which are expected to contain extracellular vesicles.
      • Collect next 0.5ml fraction (4) which is expected to contain proteins but not extracellular vesicles from follicular fluid.
    • Concentrate fractions 25x using Microcon filters (Millipore, Ultracel YM-30, MRCF0R30) with a 25kDa cut-off.
    • Boil all five fractions and 1µl of untreated follicular fluid as positive control in 1x Laemmli SDS sample buffer for 5min.
    • Separate all protein in each fraction, 10µg for fraction 2, the richest in protein on a freshly cast 4% acrylamide stacking gel and 10% acrylamide separation SDS-PAGE gel.
    • Transfer proteins onto a nitrocellulose membrane (GE Healthcare,Amersham Protran 0.45µm, 10600002) in an electroblotter tank (Biostep, electroblotting module GV100- EBGRM) Western blotting system using 20% methanol-containing transfer buffer for 2h at 150mA at RT.
    • Block the membrane with Odyssey blocking buffer (PBS) (Odyssey, 927-400000) for 1h at RT.
    • Incubation with primary goat anti-flotillin 1 antibody (antibodies-online, ABIN374222) diluted 1:500 in blocking buffer ON at 4°C.
    • Wash membrane 3x 5min with TBST (TBS, 0.1% Tween-20).
    • Incubate with secondary anti-goat-HRP antibody diluted 1:5000 in blocking buffer for 1h at RT.
    • Wash membrane 3x 5min with TBST.
    • Incubate membrane in Luminol for (Santa Cruz Biotechnology Inc., ImmunoCruz western blotting luminol reagent, SC-2048) 5min at RT.
    • Reveal chimiuminescent bands using a chemiluminescence detector (LI-COR, Odyssey Fc, OFC-0966) imaging system.
    • Strip membranes usingmild stripping protocol:
      • Incubate membrane with stripping buffer (1.5% (w/v) glycine, 0.0% (w/v) SDS, 1% (v/v) tween 20, pH2.2) shaking for 2x 10min at RT.
      • Wash membrane 2x 10min with PBS.
      • Wash membrane2x 5min in TBS.
      • Block the membrane with blocking buffer.
    • Incubate with primary goat anti-CD63 antibody (antibodies-online, ABIN1440014, lot 0047080912) diluted 1:200 in blocking buffer ON at 4°C.
    • Repeat the same steps as for the goat anti-flotillin 1 antibody.
    Experimental Notes
    • We observed an albumin band in western blot of some fractions when we used a different secondary (HRP conjugated mouse anti-CD9 antibody) (not shown). Albumin was not observed with ABIN1440014.
    • A problem we are going to solve by loading higher amount of sample and increasing primary antibody concentration is the weak band observed for CD63 due to the low abundance of the protein in this kind of exosomes.
  • Concentration
    3 mg/mL
    Buffer
    Polyclonal antibody supplied as a 200 µL (3 mg/mL) aliquot in PBS, 20 % glycerol and 0.05 % sodium azide
    Handling Advice
    The antibody solution should be gently mixed before use.
    Storage
    4 °C,-20 °C
    Storage Comment
    For continuous use, store at 2-8 deg,C for one-two days. For extended storage, store in -20 deg,C freezer. Working dilution samples should be discarded if not used within 12 hours.
  • Rather, Mishra, Su, Kumar, Singh, Misra, Lee, Furdui, Hamilton, Gould, Nader, Nader, Deep: "Mass Spectrometry-Based Proteome Profiling of Extracellular Vesicles Derived from the Cerebrospinal Fluid of Adult Rhesus Monkeys Exposed to Cocaine throughout Gestation." in: , Vol. 12, Issue 4, (2022) (PubMed).

    Song, Jiang, Li, Loor, Jiang, Yang, Feng, Liu, He, Wang, Li, Zhang, Du, Wang, Li, Liu: "Free fatty acids promote degranulation of azurophil granules in neutrophils by inducing production of NADPH oxidase-derived reactive oxygen species in cows with subclinical ketosis." in: Journal of dairy science, Vol. 105, Issue 3, pp. 2473-2486, (2022) (PubMed).

    Piao, Na, Seo, Hong, Sohn, Kwon, Lee, Kim: "Effects of general anaesthesia with an inhalational anaesthetic agent on the expression of exosomes in rats." in: International journal of medical sciences, Vol. 19, Issue 9, pp. 1399-1407, (2022) (PubMed).

    Kulka, Brennan, Mc Gee: "Investigation of canine extracellular vesicles in diffuse large B-cell lymphomas." in: PloS one, Vol. 17, Issue 9, pp. e0274261, (2022) (PubMed).

    Hirai, Ousaka, Fukushima, Kondo, Eitoku, Shigemitsu, Hara, Baba, Iwasaki, Kasahara, Ohtsuki, Oh: "Cardiosphere-derived exosomal microRNAs for myocardial repair in pediatric dilated cardiomyopathy." in: Science translational medicine, Vol. 12, Issue 573, (2021) (PubMed).

    Ferreira, Rosa Soares, Ramalho, Ribeiro-Rodrigues, Máximo, Zuzarte, Girão, Pereira: "Exosomes and STUB1/CHIP cooperate to maintain intracellular proteostasis." in: PLoS ONE, Vol. 14, Issue 10, pp. e0223790, (2020) (PubMed).

    Huang, Isobe, Yoshimura: "Changes in localization and density of CD63-positive exosome-like substances in the hen oviduct with artificial insemination and their effect on sperm viability." in: Theriogenology, Vol. 101, pp. 135-143, (2018) (PubMed).

    Lakhter, Pratt, Moore, Doucette, Maier, DiMeglio, Sims: "Beta cell extracellular vesicle miR-21-5p cargo is increased in response to inflammatory cytokines and serves as a biomarker of type 1 diabetes." in: Diabetologia, Vol. 61, Issue 5, pp. 1124-1134, (2018) (PubMed).

    Aguilera-Rojas, Badewien-Rentzsch, Plendl, Kohn, Einspanier: "Exploration of serum- and cell culture-derived exosomes from dogs." in: BMC veterinary research, Vol. 14, Issue 1, pp. 179, (2018) (PubMed).

    Martins-Marques, Pinho, Zuzarte, Oliveira, Pereira, Sluijter, Gomes, Girao: "Presence of Cx43 in extracellular vesicles reduces the cardiotoxicity of the anti-tumour therapeutic approach with doxorubicin." in: Journal of extracellular vesicles, Vol. 5, pp. 32538, (2016) (PubMed).

  • Target
    CD63
    Alternative Name
    CD63 (CD63 Products)
    Synonyms
    C75951 antibody, ME491 antibody, Tspan30 antibody, LAMP-3 antibody, MLA1 antibody, OMA81H antibody, TSPAN30 antibody, TSP29FA antibody, CD63 antigen antibody, CD63 molecule antibody, Cd63 molecule antibody, Cd63 antibody, CD63 antibody
    Background
    CD63 is a member of the transmembrane 4 superfamily, also known as the tetraspanin family. Most of the members are cell-surface proteins that are characterized by the presence of four hydrophobic domains. These proteins mediate signal transduction events that play a role in the regulation of cell development, activation, growth and motility. This protein is a cell surface glycoprotein that is known to complex with integrins. It may function as a blood platelet activation marker.
    Synonyms: CD63 antigen, CD63 antigen (melanoma 1 antigen), granulophysin, LAMP-3, lysosomal-associated membrane protein 3, lysosome-associated membrane glycoprotein 3, ME491, melanoma-associated antigen, melanoma 1 antigen, melanoma-associated antigen ME491, MLA1, ocular melanoma-associated antigen, OMA81H, tetraspanin-30, TSPAN30 antibody.
    Ensembl identifier: ENSG00000135404
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