Agrisera AB

Finding the correct secondary antibody can be difficult, so we have put together a guide to help you find exactly what you need. Below you can find antibody recommendations, FAQs, as well as explanations to common terms related to secondary antibodies.

Recommended Agrisera secondary antibodies

Need a high-titer secondary antibody for successful Western blot results on plant and algal samples? Below is a list of recommended secondary antibodies for chemiluminescent detection.

Based on an analysis of antibody performance in available publications, conducted by CiteAB, it is clear that Agrisera's secondary antibodies perform above market average. This means that Agrisera secondary antibodies can be used at high dilutions, and are therefore price-worthy reagents, that will provide you with a consistent performance over many experiments.

Clearing up some terminology

A lot of what you need to know about Agrisera secondary antibodies can be found in their name, but it may be hard to decipher. As an example, we will go through the different parts of the name of a commonly used type of secondary antibody, namely Goat anti-Rabbit IgG (H&L), HRP-conjugated.

Goat: The first part of the name of any of our secondary antibodies lets you know the host species. In this example, the antibody was produced in Goat.
anti-Rabbit IgG: The second part of the name tells you that the antibody was made to Rabbit IgG, and thus specifically binds to this molecule. This means that it can be used with any primary antibody made in Rabbit. Detailed information on different types of immunoglobulins can be found under Antibody types on our page Protocols and Technical information.
(H&L): This part denotes that the secondary antibody will recognize both the Heavy & Light chain of Rabbit IgG. IgG molecules are comprised of two identical heavy chains, and two identical light chains. Both the heavy and light chains are further categorized into constant and variable parts, but H&L refers to the complete chains, i.e. the whole immunoglobulin.

Antibody chains Image 1. Depiction of an immunoglobulin molecule with the constant heavy chains, variable heavy chains, constant light chains and variable light chains highlighted.

HRP-conjugated: The last part of the name in this example tells you that the antibody is conjugated to Horseradish Peroxidase (HRP). For more details on different conjugations, see the conjugations section below.

Conjugations

Depending on the antibody application you wish to use, you will need a secondary antibody with a conjugation suitable for this application. Agrisera offers secondary antibodies to be used in a wide range of immunoassays, as detailed below.

Secondary antibodies conjugated to HRP (Horseradish peroxidase) and ALP (Alkaline phosphatase) enzymes are frequently used to visualize target proteins in Western blot, ELISA and Immunohistochemistry. Other common conjugations include Biotin and different fluorescent dyes.

HRP: Horseradish peroxidase (HRP) catalyzes the oxidation of specific substrates, which gives rise to a characteristic color change or the emission of light. When using secondary antibodies conjugated to HRP, the detection is thus chromogenic, chemiluminescent or fluorescent, and can be recorded by the naked eye or a CCD camera. This type of conjugate is characterized by long shelf-life and good stability.
ALP: Alkaline phosphatase (ALP) is an enzyme that catalyzes the hydrolysis of phosphate esters at alkaline pH, producing a colored or fluorescent product. When using antibodies conjugated to ALP, visualization of the antibody binding to the target is often achieved using chromogenic reagents, and no CCD camera is necessary. An ALP-conjugated secondary antibody is thus a good choice when there is no CCD camera available in the lab. Visualization is also possible using chemiluminescence, with high sensitivity. ALP detection may offer low background signal for certain types of samples or assay conditions.
Biotin: Biotin, also known as Vitamin B7 or Vitamin H, is a small molecule with high affinity to avidin and streptavidin. Biotin-streptavidin is one of the strongest non-covalent interactions in nature, and the binding is nearly irreversible, allowing the formation of extremely stable complexes, resistant to denaturation by heat, pH and other denaturing agents. Biotin-conjugated (or biotinylated) secondary antibodies are often used when the target protein is of low expression. This is due to the fact that the signal is amplified, as multiple biotin molecules will bind to a single IgG molecule. For detection in immunoassays, the biotin-conjugated antibody is utilized together with avidin or streptavidin, coupled to HRP, ALP or a fluorescent dye.
Dylight®: Dylight® is a group of fluorescent dyes with high fluorescence intensity and photostability. Agrisera offers secondary antibodies conjugated to these fluorophores, with absorption at 350, 405, 488, 550, 594, 633, 650, 680 and 800 nm. These wavelengths have low spectral overlap, which means that they can be combined to produce multi-color imaging.

Image 2. Visible light spectrum with Dylight® wavelengths marked out.

Dylight® 488 is recommended for immunofluorescence in plant tissues. Using this wavelength will allow the exclusion of cell wall autofluorescence and chlorophyll fluorescence (range of 640-850 nm, with two peaks at 690 nm and 740 nm).

FITC: Fluorescein Isothiocyanate (FITC) is a fluorophore that absorbs ultraviolet or blue light with absorption at 488 nm, excitation at 498 nm, and emission at 517 nm. This is one of the most commonly used fluorescent dyes, and due to this, the majority of instruments come with 488 nm laser as the standard. FITC is compatible with a range of imagining techniques, for specific labeling of target molecules, and their visualization and tracking in structures within cells and tissue.
TRITC: Tetramethylrhodamine (TRITC) is a red-orange fluorophore with adsorption at 532 nm, excitation at 557 nm, and emission at 576 nm. TRITC is widely used in immunofluorescence staining, for labelling specific proteins and structures within cells, as well as in fluorescence in situ hybridization (FISH), to visualize specific nucleic acid sequences. FITC has moderate photostability.
Unconjugated: Unconjugated antibodies have not been labeled with any type of reporter molecule, like a dye or an enzyme, and can be used as capture or detection antibodies in immunoassays, such as ELISA or Immunofluorescence assay (IFA). Such antibodies are also employed in Immunoprecipitation (IP) and flow cytometry (Flowcyt) for cell surface or intracellular staining, to identify and quantify specific cell populations based on their surface markers or intracellular proteins. Beyond this, they can also be used when you wish to choose the conjugation yourself. This may be a good option when doing complex Flowcyt or Multiplex assays.

Table 1. Fluorescent conjugations available for Agrisera secondary antibodies, as well as the corresponding laser line, filter, excitation max and emission max.

height="12"> Dylight® 550

Conjugation	Laser lane	Common filter	Excitation max	Emission max
Dylight® 350	355	450/50 nm	353 nm	432 nm
Dylight® 488	488	525/50 nm	493 nm	518 nm
FITC	488	530/43 nm	497 nm	517 nm
TRITC	532	585/42 nm	557 nm	576 nm
561	585/42 nm	562 nm	576 nm
Dylight® 594	594	630/69 nm	593 nm	618 nm
Dylight® 633	628-640	660/20 nm	638 nm	658 nm
Dylight® 650	628-640	695/40 nm	652 nm	672 nm
Dylight® 680	628-640	695/40 nm	692 nm	712 nm
Dylight® 800	785	780/60 nm	777 nm	794 nm

Some more antibody terms

Agrisera offers over 800 secondary antibodies, suitable for many different applications and research areas. If you are, for example, researching human cell biology, you may come across suitable secondary antibodies with quite complicated names. To help you navigate all different types of secondary antibodies in Agrisera's catalog, we have explained further antibody terms below.

Min. cross-reactivity: Minimal cross-reactivity means that the secondary antibody will not recognize other types of immunoglobulins than the one it is targeted for. For example, Goat anti-Human IgM, min. cross-reactivity to human IgG and IgA denotes that the secondary antibody is specific to Human IgM, and will not bind to Human IgG or IgA, as there is minimal cross-reactivity to these other immunoglobulins.
Pre-adsorbed: Also called cross-adsorption, and often used synonymously with minimal cross-reactivity. Pre-adsorption is a purification step, during which the secondary antibody solution is passed through a column, with serum proteins of potentially cross-reactive species immobilized in the matrix. The specific antibodies pass through the column, and constitute the purified product, while the non-specific ones bind to the serum proteins in the column and are later discarded.
F(ab)'2 fragment: The F(ab)'2 fragment of an antibody consists of just the two ligh chain dimers, linked together by a disulfade bond to preserve the antigen-binding site. In this case, the Fc part of the antibody has thus been removed, which prevents non-specific binding to cell Fc receptors and Protein A/G. This type of secondary antibody is used in very specific applications, involving whole mammalian cells or tissue samples, as they can penetrate the tissue easier and eliminates cross-reactions to Fc receptors.
Fc fragment: The Fc fragment of an antibody consists only of the lower part of the heavy chains. Secondary antibodies produced against the Fc part of another species, will thus only interact with the heavy chain of the target antibody.

Image 3. Depiction of an immunoglobulin molecule with the whole molecule, the F(ab)'2 fragment, the F(ab) fragment and the Fc fragment highlighted.

Antibody reactivity to recombinant protein,does not validate antibody specificity in endogenous sample

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Agrisera AB