Secondary Antibodies

Fab Sheep IgG (H&L) Antibody Rhodamine Conjugated

Applications IF: 1:1,000 - 1:5,000
FC: 1:500 - 1:2,500
FLISA: 1:10,000 - 1:50,000
Conjugation TRITC

Fab Human IgG (H&L) Antibody Rhodamine Conjugated

Applications IF: 1:1,000 - 1:5,000
FC: 1:500 - 1:2,500
FLISA: 1:10,000 - 1:50,000
Conjugation TRITC

Mouse IgE (Fc specific) rabbit polyclonal antibody, TRITC

Applications Can be used to identify and measure IgE, antigen or antibody, at the cellular and subcellular level by immunofluorescence staining of appropriately treated cell and tissue substrates, and to demonstrate circulating antibodies in serodiagnostic microbiology and autoimmune diseases; to identify a specific antigen or immune complex using a reference antibody of mouse origin in the middle layer of the indirect test procedure. This immunoconjugate is not pre-diluted. The optimum working dilution of each conjugate should be established by titration before being used. Excess labelled antibody must be avoided because it may cause high unspecific background staining and interfere with the specific signal.
Recommended working dilutions: 1/10 - 1/40.
Reactivities Mouse
Conjugation TRITC

Monkey IgG (Fab specific) rabbit polyclonal antibody, TRITC

Applications Can be used for direct staining of fixed cell and tissue substrates; to demonstrate the intracellular presence of free or Ig-bound subunits of both kappa or lambda type. In general this conjugate is not recommended as direct or indirect screening reagent for If isotypes on surface membranes of vital lymphoid cells. The activity to the common Ig/Fab subunit may result in the staining of immunoglobulins bound to the Fc-receptors on non-lymphoid cells. Combinations of isotype-specific reagents should be used instead for this purpose. This immunoconjugate is not pre-diluted. The optimum working dilution of each conjugate should be established by titration before being used. Excess labelled antibody must be avoided because it may cause high unspecific background staining and interfere with the specific signal.
Working dilutions are usually between 1:10 and 1:40.
Reactivities Monkey
Conjugation TRITC

Mouse IgM (Fc specific) rabbit polyclonal antibody, TRITC

Applications ELISA.
Immunocytochemistry.
(In)direct immunofluorescence

Immunohistochemistry on Frozen Sections.
Direct immunofluorescence staining of cytoplasmic Ig of appropriately treated cell and tissue substrates; to demonstrate immunoglobulins or specific antibodies in cells and tissues; to identify circulating antibodies in serodiagnostic microbiology and autoimmune diseases. This immunoconjugate is not pre-diluted. The optimum working dilution of each conjugate should be established by titration before being used. Excess labelled antibody must be avoided because it may cause high unspecific background staining and interfere with the specific signal.
Recommended Working Dilutions: 1/10- 1/80.
Reactivities Mouse
Conjugation TRITC

F(ab')2 Sheep IgG (H&L) Antibody Rhodamine Conjugated

Applications IF: 1:500-1:2,500
Conjugation TRITC

Mouse IgG (gamma 1, 2a, 2b and 3 chain) Antibody Rhodamine Conjugated

Applications WB: 1:2,000 - 1:10,000
IHC: 1:1,000 - 1:5,000
IF: 1:1,000 - 1:5,000
FC: 1:1,000 - 1:5,000
FLISA: 1:20,000 - 1:100,000
Conjugation TRITC

Goat IgG (H+L chain), adsorbed rabbit polyclonal antibody, TRITC

Applications Suitable for ELISA, Immunomicroscopy and Flow cytometry or FACS analysis as well as other antibody based fluorescent assays requiring lot-to-lot consistency.
Recommended Dilutions:
ELISA: 1/10,000 - 1/50,000.
IF Microscopy: 1/1000 - 1/5000.
Reactivities Goat
Conjugation TRITC

Porcine IgG (H+L chain) rabbit polyclonal antibody, TRITC

Applications ELISA.
Immunocytochemistry.
Immunofluorescence.
Immunohistochemistry Frozen Sections.

Can be used to identify and measure IgG, antigen or antibody, at the cellular and subcellular level by immunofluorescence staining of appropriately treated cell and tissue substrates. If two Nordic immunoconjugates with different labels but originating from the same host animal species are used for direct two-colour staining, they can safely be mixed and used in a single step, without the danger of interaction between the two reagents. This immunoconjugate is not pre-diluted. The optimum working dilution of each conjugate should be established by titration before being used. Excess labelled antibody must be avoided because it may cause high unspecific background staining and interfere with the specific signal.
Recommended Working Dilutions: 1/20-1/80.
Reactivities Porcine
Conjugation TRITC

Guinea pig IgG (H+L chain) rabbit polyclonal antibody, TRITC

Applications Suitable for Immunomicroscopy and Flow Cytometry or FACS analysis as well as other antibody based fluorescent assays requiring lot-to-lot consistency.
Recommended Dilutions:
FLISA: 1/10,000-1/50,000.
IF Microscopy: 1/1,000-1/5,000.
Flow Cytometry: 1/500-1/2,500.
Reactivities Guinea Pig
Conjugation TRITC

Goat IgG (H+L chain) rabbit polyclonal antibody, TRITC

Applications Suitable for Immunomicroscopy (1/1,000-1/5,000) and Flow Cytometry (1/500-1/2,500) or FACS analysis as well as other antibody based fluorescent assays requiring lot-to-lot consistency.
Reactivities Goat
Conjugation TRITC

Mouse IgG (H+L chain) rabbit polyclonal antibody, TRITC

Applications Suitable for Immunomicroscopy and Flow Cytometry or FACS analysis as well as other antibody based fluorescent assays requiring lot-to-lot consistency.
Recommended Dilution(s):
FLISA : 1:10,000 - 1:50,000
IF Microscopy : 1:1,000 - 1:5,000
Other Dilution: FLOW CYTOMETRY 1:500 - 1:2,500
Reactivities Mouse
Conjugation TRITC

Fab Chicken IgG (H&L) Antibody Rhodamine Conjugated

Applications IF: 1:1,000 - 1:5,000
FC: 1:500 - 1:2,500
FLISA: 1:10,000 - 1:50,000
Conjugation TRITC

Fab Golden Syrian Hamster IgG (H&L) Antibody Rhodamine Conjugated

Applications IF: 1:500-1:2,500
FC: 1:500 - 1:2,500
FLISA: 1:10,000 - 1:50,000
Conjugation TRITC

Fab Mouse IgG (H&L) Antibody Rhodamine Conjugated

Applications IF: 1:1,000 - 1:5,000
FC: 1:500 - 1:2,500
FLISA: 1:10,000 - 1:50,000
Conjugation TRITC