alexa fluor
SAM FCM (Alexa Fluor 647) |
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abx098902-100tests | Abbexa | 100 tests | 1479.6 EUR |
SAM FCM (Alexa Fluor 488) |
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abx098904-60tests | Abbexa | 60 tests | 1629.6 EUR |
Anti-RPSA Alexa Fluor® 488 |
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A4-829-C100 | ExBio | 0.1 mg | 372 EUR |
Anti-CD40 antibody (Alexa-fluor 488) |
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STJ170000 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: CD40 (48 to 50 kDa) is a transmembrane glycoprotein mainly expressed on the surface of B cells and also expressed on monocytes, dendritic cells, and thymic epithelium. CD40 is a member of the tumor necrosis factor (TNF) receptor superfamily, which includes the low affinity nerve growth factor (NGF) receptor and CD95/Fas. CD40 is the receptor for CD40 ligand. CD40L (CD40L, CD154, gp39, and TRAM) belongs to the TNF gene family and is expressed more widely than CD40, predominantly on activated CD4+ T cells. Following interaction with CD40 ligand, CD40 mediates a number of major immunoregulatory functions, central to the control of thymus dependent humoral immunity and may be critical in the development of cell mediated immune responses. Other biological actions include B cell homotypic adhesion, proliferation, immunoglobulin isotype switch, and secretion. Activation of CD40 has also been shown to inhibit the growth of certain B cell lymphomas and to induce the death of transformed cells of mesenchymal or epithelial origin |
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Anti-LAMP3 antibody (Alexa-fluor 488) |
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STJ170004 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: The dendritic cell lysosomal-associated membrane protein (DC-LAMP)/CD208 is a type I integral transmembrane glycoprotein mostly homologous to CD68, of about 45 kDa in mouse and 90 kDa in human (glycosylation), with a bipartite C-terminal structure divided by a serine/proline rich region, a transmembrane domain and a conserved tyrosine-based lysosomal targeting motif in its cytoplasmic tail. Initially cloned as a specific marker of human mature dendritic cells (DCs), DC-LAMP has been subsequently shown to be expressed in alveolar type II pneumocytes. In both cell types, the molecule is found in the limiting membrane of intracellular multi-lamellar bodies, known as MIIC (MHC class II compartments) in human mature DCs and as lung surfactant-containing lamellar bodies in type II pneumocytes. In the latter cell type, DC-LAMP expression is also detected at the cell surface. |
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Anti-LAMP3 antibody (Alexa-fluor 546) |
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STJ170005 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: The dendritic cell lysosomal-associated membrane protein (DC-LAMP)/CD208 is a type I integral transmembrane glycoprotein mostly homologous to CD68, of about 45 kDa in mouse and 90 kDa in human (glycosylation), with a bipartite C-terminal structure divided by a serine/proline rich region, a transmembrane domain and a conserved tyrosine-based lysosomal targeting motif in its cytoplasmic tail. Initially cloned as a specific marker of human mature dendritic cells (DCs), DC-LAMP has been subsequently shown to be expressed in alveolar type II pneumocytes. In both cell types, the molecule is found in the limiting membrane of intracellular multi-lamellar bodies, known as MIIC (MHC class II compartments) in human mature DCs and as lung surfactant-containing lamellar bodies in type II pneumocytes. In the latter cell type, DC-LAMP expression is also detected at the cell surface. |
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Anti-LAMP3 antibody (Alexa-fluor 647) |
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STJ170006 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: The dendritic cell lysosomal-associated membrane protein (DC-LAMP)/CD208 is a type I integral transmembrane glycoprotein mostly homologous to CD68, of about 45 kDa in mouse and 90 kDa in human (glycosylation), with a bipartite C-terminal structure divided by a serine/proline rich region, a transmembrane domain and a conserved tyrosine-based lysosomal targeting motif in its cytoplasmic tail. Initially cloned as a specific marker of human mature dendritic cells (DCs), DC-LAMP has been subsequently shown to be expressed in alveolar type II pneumocytes. In both cell types, the molecule is found in the limiting membrane of intracellular multi-lamellar bodies, known as MIIC (MHC class II compartments) in human mature DCs and as lung surfactant-containing lamellar bodies in type II pneumocytes. In the latter cell type, DC-LAMP expression is also detected at the cell surface. |
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Anti-IL3RA antibody (Alexa-fluor 488) |
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STJ170009 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: IL3 exerts its biologic activity through its interaction with a cell surface receptor that consists of two subunits. The a subunit (CD123) specifically binds IL3, whereas the ß subunit is required for signaling and is common to the GMCSFR and IL5-R. 107D2.08 and 106C2.02 mAbs were obtained after mouse immunization with sorted human tonsillar PDC. Both clones strongly stain PDCs and basophils, weakly stain monocytes, CD34+ derived DCs and CD11c+ DC, while no staining is observed on T, B, NK cells as well as on mono-derived DCs. Staining with 107D2.08 and 106C2.02 mAbs are maintained on sorted PDC cultured in the presence of IL3 and CD40L, but lost when IL3 alone is added to the culture. The recognition of the IL3Ra chain by 107D2.08 and 106C2.02 was confirmed by transfection studies. 107D2.08 appeared to be the most appropriate clone for in situ studies. 107D2.08 allowed the first observation of IL3Ra+ cells in breast tumor microenvironment |
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Anti-IL3RA antibody (Alexa-fluor 546) |
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STJ170010 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: IL3 exerts its biologic activity through its interaction with a cell surface receptor that consists of two subunits. The a subunit (CD123) specifically binds IL3, whereas the ß subunit is required for signaling and is common to the GMCSFR and IL5-R. 107D2.08 and 106C2.02 mAbs were obtained after mouse immunization with sorted human tonsillar PDC. Both clones strongly stain PDCs and basophils, weakly stain monocytes, CD34+ derived DCs and CD11c+ DC, while no staining is observed on T, B, NK cells as well as on mono-derived DCs. Staining with 107D2.08 and 106C2.02 mAbs are maintained on sorted PDC cultured in the presence of IL3 and CD40L, but lost when IL3 alone is added to the culture. The recognition of the IL3Ra chain by 107D2.08 and 106C2.02 was confirmed by transfection studies. 107D2.08 appeared to be the most appropriate clone for in situ studies. 107D2.08 allowed the first observation of IL3Ra+ cells in breast tumor microenvironment |
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Anti-IL3RA antibody (Alexa-fluor 647) |
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STJ170011 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: IL3 exerts its biologic activity through its interaction with a cell surface receptor that consists of two subunits. The a subunit (CD123) specifically binds IL3, whereas the ß subunit is required for signaling and is common to the GMCSFR and IL5-R. 107D2.08 and 106C2.02 mAbs were obtained after mouse immunization with sorted human tonsillar PDC. Both clones strongly stain PDCs and basophils, weakly stain monocytes, CD34+ derived DCs and CD11c+ DC, while no staining is observed on T, B, NK cells as well as on mono-derived DCs. Staining with 107D2.08 and 106C2.02 mAbs are maintained on sorted PDC cultured in the presence of IL3 and CD40L, but lost when IL3 alone is added to the culture. The recognition of the IL3Ra chain by 107D2.08 and 106C2.02 was confirmed by transfection studies. 107D2.08 appeared to be the most appropriate clone for in situ studies. 107D2.08 allowed the first observation of IL3Ra+ cells in breast tumor microenvironment |
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Anti-CD207 antibody (Alexa-fluor 488) |
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STJ170014 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: Langerin/CD207 is a transmembrane C-type lectin receptor (CLR) of epidermal and mucosal Langerhans cells (LCs) that induces Birbeck's granule formation. Langerin features a single carbohydrate recognition domain (CRD) with mannose-type specificity in its extracellular portion. Langerin is unique among the CLRs in that it contains an intracellular domain with a proline-rich motif. Langerin expression has not been reported outside the DC system. (Valladeau J et al, 1999, Eur.J.Immunol., 29:2695-2704; Valladeau J et al, 2000 Immunity, 12 : 71-81; Kashihara M et al, 1986, J.Invest.Derm., 87 :602-607 Ito T et al, 1999, J.Immunol., 163 :1409-1419 ;Saeland S & Valladeau J, CD207 (Langerin) Workshop reports 2002, Leukocyte-Typing VII, White Cell Diff Antigens, D. Mason et al, Eds, Oxford University Press:306-307) |
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Anti-CD207 antibody (Alexa-fluor 546) |
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STJ170015 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: Langerin/CD207 is a transmembrane C-type lectin receptor (CLR) of epidermal and mucosal Langerhans cells (LCs) that induces Birbeck's granule formation. Langerin features a single carbohydrate recognition domain (CRD) with mannose-type specificity in its extracellular portion. Langerin is unique among the CLRs in that it contains an intracellular domain with a proline-rich motif. Langerin expression has not been reported outside the DC system. (Valladeau J et al, 1999, Eur.J.Immunol., 29:2695-2704; Valladeau J et al, 2000 Immunity, 12 : 71-81; Kashihara M et al, 1986, J.Invest.Derm., 87 :602-607 Ito T et al, 1999, J.Immunol., 163 :1409-1419 ;Saeland S & Valladeau J, CD207 (Langerin) Workshop reports 2002, Leukocyte-Typing VII, White Cell Diff Antigens, D. Mason et al, Eds, Oxford University Press:306-307) |
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Anti-CD207 antibody (Alexa-fluor 647) |
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STJ170016 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: Langerin/CD207 is a transmembrane C-type lectin receptor (CLR) of epidermal and mucosal Langerhans cells (LCs) that induces Birbeck's granule formation. Langerin features a single carbohydrate recognition domain (CRD) with mannose-type specificity in its extracellular portion. Langerin is unique among the CLRs in that it contains an intracellular domain with a proline-rich motif. Langerin expression has not been reported outside the DC system. (Valladeau J et al, 1999, Eur.J.Immunol., 29:2695-2704; Valladeau J et al, 2000 Immunity, 12 : 71-81; Kashihara M et al, 1986, J.Invest.Derm., 87 :602-607 Ito T et al, 1999, J.Immunol., 163 :1409-1419 ;Saeland S & Valladeau J, CD207 (Langerin) Workshop reports 2002, Leukocyte-Typing VII, White Cell Diff Antigens, D. Mason et al, Eds, Oxford University Press:306-307) |
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Anti-IL7R antibody (Alexa-fluor 488) |
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STJ170020 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: The IL7-R consists of 2 chains, IL-7R known as CD127 and common cytokine receptor chain known as CD132. A 75 to 80kDa human IL-7 receptor has been cloned that belongs to hematopoietic cytokinereceptor super family. R34-34, raised against human leukemic pre-B cells, recognized a molecule expressed on normal B cell precursors but not on mature B cells. This antibody specifically reverted IL-7 mediated growth inhibition of leukemic BCP (normal B cells precursors) and mature T cells. IL-7R expression is dramatically influenced by cytokines and antigens. This IL-7R displays both high and low affinity for its ligand (IL-7). Inhibitory and proliferative effects of IL-7 can be mediated through the same receptor on various lineages. CD4+ memory T cells express high level of IL-7R Subsets that express it generally require it, including progenitors of T and B cells, naïve and memory T cells. (Pandrau-Garcia D et al, 1994, Blood, 83, 3613-9 Mazzucchelli R et al, Nat. Review Immunol., 2007,7, 144-54) |
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Anti-IL7R antibody (Alexa-fluor 546) |
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STJ170021 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: The IL7-R consists of 2 chains, IL-7R known as CD127 and common cytokine receptor chain known as CD132. A 75 to 80kDa human IL-7 receptor has been cloned that belongs to hematopoietic cytokinereceptor super family. R34-34, raised against human leukemic pre-B cells, recognized a molecule expressed on normal B cell precursors but not on mature B cells. This antibody specifically reverted IL-7 mediated growth inhibition of leukemic BCP (normal B cells precursors) and mature T cells. IL-7R expression is dramatically influenced by cytokines and antigens. This IL-7R displays both high and low affinity for its ligand (IL-7). Inhibitory and proliferative effects of IL-7 can be mediated through the same receptor on various lineages. CD4+ memory T cells express high level of IL-7R Subsets that express it generally require it, including progenitors of T and B cells, naïve and memory T cells. (Pandrau-Garcia D et al, 1994, Blood, 83, 3613-9 Mazzucchelli R et al, Nat. Review Immunol., 2007,7, 144-54) |
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Anti-IL7R antibody (Alexa-fluor 647) |
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STJ170022 | St John's Laboratory | 100 µg | 471.6 EUR |
Description: The IL7-R consists of 2 chains, IL-7R known as CD127 and common cytokine receptor chain known as CD132. A 75 to 80kDa human IL-7 receptor has been cloned that belongs to hematopoietic cytokinereceptor super family. R34-34, raised against human leukemic pre-B cells, recognized a molecule expressed on normal B cell precursors but not on mature B cells. This antibody specifically reverted IL-7 mediated growth inhibition of leukemic BCP (normal B cells precursors) and mature T cells. IL-7R expression is dramatically influenced by cytokines and antigens. This IL-7R displays both high and low affinity for its ligand (IL-7). Inhibitory and proliferative effects of IL-7 can be mediated through the same receptor on various lineages. CD4+ memory T cells express high level of IL-7R Subsets that express it generally require it, including progenitors of T and B cells, naïve and memory T cells. (Pandrau-Garcia D et al, 1994, Blood, 83, 3613-9 Mazzucchelli R et al, Nat. Review Immunol., 2007,7, 144-54) |
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Anti-Hu CD16 Alexa Fluor® 488 |
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A4-646-T100 | ExBio | 100 tests | 322.8 EUR |
Goat anti Mouse IgG1 (Alexa Fluor 488) |
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43R-1649 | Fitzgerald | 500 ug | 684 EUR |
Description: Goat anti Mouse IgG1 secondary antibody (Alexa Fluor 488) |
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Alpha Fluor™ 488 acid [equivalent to Alexa Fluor™ 488 acid] |
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1790 | AAT Bioquest | 5 mg | 367.2 EUR |
Alpha Fluor™ 532 acid [equivalent to Alexa Fluor™ 532 acid] |
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1795 | AAT Bioquest | 10 mg | 471.6 EUR |
Anti-Alexa Fluor 647 Antibody | M647-65A-400 |
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M647-65A-400 | Immunology Consultants Laboratory | 1.0 mg | 379 EUR |
Description: Anti-Alexa Fluor 647 Antibody | M647-65A-400 | Immunology Consultants Laboratory Host: Mouse Format: Unconjugated AP Product Type: Primary Antibody Antibody Clonality: Monoclonal |
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Anti-Hu CD72 Alexa Fluor® 488 |
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A4-310-T100 | ExBio | 100 tests | 322.8 EUR |
Anti-Bov CD9 Alexa Fluor® 488 |
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A4-354-C100 | ExBio | 0.1 mg | 322.8 EUR |
Donkey anti Goat IgG (H + L) (Alexa Fluor 594) |
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43R-ID005AF | Fitzgerald | 500 ug | 405.6 EUR |
Description: Donkey anti Goat IgG (H + L) secondary antibody (Alexa Fluor 594) |
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Donkey anti Rat IgG (H + L) (Alexa Fluor 594) |
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43R-ID022AF | Fitzgerald | 500 ug | 436.8 EUR |
Description: Donkey anti Rat IgG (H + L) secondary antibody (Alexa Fluor 594) |
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Donkey anti Goat IgG (H + L) (Alexa Fluor 647) |
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43R-ID028AF | Fitzgerald | 500 ug | 516 EUR |
Description: Donkey anti Goat IgG (H + L) secondary antibody (Alexa Fluor 647) |
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Donkey anti Rat IgG (H + L) (Alexa Fluor 594) |
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43R-ID047AF | Fitzgerald | 500 ug | 554.4 EUR |
Description: Donkey anti Rat IgG (H + L) secondary antibody (Alexa Fluor 594) |
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Donkey anti Chicken IgY (H + L) (Alexa Fluor 594) |
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43R-ID056AF | Fitzgerald | 500 ug | 411.6 EUR |
Description: Donkey anti Chicken IgY secondary antibody (H + L) (Alexa Fluor 594) |
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Donkey anti Chicken IgY (H + L) (Alexa Fluor 647) |
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43R-ID060AF | Fitzgerald | 300 ug | 510 EUR |
Description: Donkey anti Chicken IgY (H + L) (Fab'2) (Alexa Fluor 647) |
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Rabbit anti Chicken IgY (H + L) (Alexa Fluor 594) |
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43R-IR016AF | Fitzgerald | 1 mg | 337.2 EUR |
Description: Rabbit anti Chicken IgY (H + L) secondary antibody (Alexa Fluor 594) |
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AF350 Phalloidin [equivalent to Alexa Fluor® 350 phalloidin] |
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23150 | AAT Bioquest | 300 Tests | 367.2 EUR |
AF488 Phalloidin [equivalent to Alexa Fluor® 488 phalloidin] |
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23153 | AAT Bioquest | 300 Tests | 367.2 EUR |
AF594 Phalloidin [equivalent to Alexa Fluor® 594 phalloidin] |
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23158 | AAT Bioquest | 300 Tests | 367.2 EUR |
AF350-streptavidin conjugate [Streptavidin, Alexa Fluor™ 350 Conjugate] |
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16890 | AAT Bioquest | 1 mg | 211.2 EUR |
AF488-streptavidin conjugate [Streptavidin, Alexa Fluor™ 488 Conjugate] |
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16891 | AAT Bioquest | 1 mg | 211.2 EUR |
AF594-streptavidin conjugate [Streptavidin, Alexa Fluor™ 594 Conjugate] |
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16892 | AAT Bioquest | 1 mg | 211.2 EUR |
Anti-Hu CD30 Alexa Fluor® 700 |
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A7-455-T100 | ExBio | 100 tests | 322.8 EUR |
Anti-Hu CD94 Alexa Fluor® 700 |
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A7-727-T100 | ExBio | 100 tests | 322.8 EUR |
Anti-Hu CD56 Alexa Fluor® 700 |
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A7-789-T100 | ExBio | 100 tests | 322.8 EUR |
XFD350 acid *Same Structure to Alexa Fluor™ 350 acid* |
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1786 | AAT Bioquest | 5 mg | 318 EUR |
XFD546 acid *Same Structure to Alexa Fluor™ 546 acid* |
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1791 | AAT Bioquest | 5 mg | 318 EUR |
XFD568 acid *Same Structure to Alexa Fluor™ 568 acid* |
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1792 | AAT Bioquest | 5 mg | 318 EUR |
XFD488 tetrazine *Same Structure to Alexa Fluor™ 488 tetrazine* |
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4600 | AAT Bioquest | 1 mg | 157 EUR |
XFD488 aldehyde *Same Structure to Alexa Fluor™ 488 aldehyde* |
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9015 | AAT Bioquest | 5 mg | 425 EUR |
XFD488 aldehyde *Same Structure to Alexa Fluor™ 488 aldehyde* |
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9016 | AAT Bioquest | 1 mg | 308 EUR |
Anti-Hu CD3 zeta (pY153) Alexa Fluor® 488 |
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A4-686-C100 | ExBio | 0.1 mg | 322.8 EUR |
Anti-Hu CD3 zeta (pY72) Alexa Fluor® 488 |
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A4-712-C100 | ExBio | 0.1 mg | 322.8 EUR |
Anti-Hu CD3 zeta (pY142) Alexa Fluor® 488 |
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A4-730-C100 | ExBio | 0.1 mg | 322.8 EUR |
Anti-Hu CD3 zeta (pY111) Alexa Fluor® 488 |
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A4-737-C100 | ExBio | 0.1 mg | 322.8 EUR |
Donkey anti Goat IgG (H + L) (Fab 2) (Alexa Fluor 594) |
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43R-ID012AF | Fitzgerald | 300 ug | 492 EUR |
Description: Donkey anti Goat IgG (H + L) secondary antibody (Fab'2) (Alexa Fluor 594) |