Nanoprobes logo
Nanoprobes logo
0
Our Nanogold® labeling reagents are also available in:

0.8 nm 

1.4 nm 

5 nm 

12 nm 

Amino-Nanogold® 1.4 nm (Positively Charged)

Selectively label unique sugar or activated carboxyl sites! Positively ionizing amino-groups enable charge-based staining or labeling of negatively charged targets

Nanoparticle Size: 1.4 nm
Reactive Groups: Amino, Positive Charge
Unit Sizes: 30 nmol

Amino-Nanogold® 1.4 nm (Positively Charged)

Selectively label unique sugar or activated carboxyl sites! Positively ionizing amino-groups enable charge-based staining or labeling of negatively charged targets

Nanoparticle Size: 1.4 nm
Reactive Groups: Amino, Positive Charge
Unit Sizes: 30 nmol
SKU
Description
Price
  • 2022-30NMOL

Amino-Nanogold® 1.4 nm (Positively Charged)

$ 411.00

Our Nanogold® labeling reagents are also available in:

0.8 nm 

1.4 nm 

5 nm 

12 nm 

Grow the size - Keep the precision

Combine nanoparticle developers with Nanogold® labels

Easy, archival developers for any scope or blots
  • GoldEnhance™:
    Simple. Superior. Precision nanoparticle enhancement
    Sharp, archival staining of blots or easy viewing in any scope.
  • Silver Enhancement:
    Precision nanoparticles, not colloidal silver blobs: precise development for any scope.
Product Information

Amino-Nanogold® 1.4 nm (Positively Charged)

Positively and negatively charged 1.4 nm Nanogold® may be used as ionic labels.

The positive Nanogold® has multiple amines on its surface, whereas negative Nanogold® has multiple carboxyl groups.

Application:

Tracing the yeast endocytic pathway (see: Prescianotto-Baschong, C., and Riezman, H.: Mol. Cell Biol., 9, 173-189 (1998)). [Other references]

1.4 nm Nanogold® Labeling Reagents

Nanogold® is a better gold label.

The 1.4 nm Nanogold® particle is a gold compound: it is not just adsorbed to proteins, like colloidal gold, but covalently reacts at specific sites under mild buffer conditions. This gives a well defined product that can be purified chromatographically.

Nanogold® brings the versatility of fluorescent conjugation to gold labeling.

Label virtually any molecule

Label any molecule with a suitable reactive group: oligonucleotides, lipids, peptides, proteins, enzyme inhibitors and others. This is a big improvement over colloidal gold, which may be adsorbed only to antibodies and a limited range of proteins and peptides.

Nanogold® is small and highly uniform in size, in sharp contrast to small colloidal gold preparations (most commonly used “1 nm” colloidal golds actually range from 1 to 3 nm).

Label your own biomolecules with our Nanogold® labeling reagents,
or check out our range of antibody IgG, Fab’ and streptavidin Conjugates with Nanogold®.

Left: Silver-enhanced Nanogold®-labeled K+ channel Kv2.1 subunit in rat brain, X15,000 (J.-H. Tao-Cheng, NIH). Right: Darkfield STEM micrographs of Maleimido Nanogold® labeled A β peptide targeting proteasomes; sample was stained with methylamine vanadate. White dots are 1.4 nm Nanogold®. From Gregori, L., Hainfeld, J.F., Simon, M.N., and Goldgaber, D. (1997). Binding of amyloid beta protein to the 20S proteasome. J. Biol. Chem. 272, 58-62.

Left: Silver-enhanced Nanogold®-labeled K+ channel Kv2.1 subunit in rat brain, X15,000 (J.-H. Tao-Cheng, NIH).
Right: Darkfield STEM micrographs of Maleimido Nanogold® labeled A β peptide targeting proteasomes; sample was stained with methylamine vanadate. White dots are 1.4 nm Nanogold®.

From Gregori, L., Hainfeld, J.F., Simon, M.N., and Goldgaber, D. (1997). Binding of amyloid beta protein to the 20S proteasome. J. Biol. Chem. 272, 58-62.

Easily enhanced for electron microscopy, light microscopy, cryo-EM, blots…

Try our precision nanoparticle developers for slow development with low background!

Features and Advantages

  • Unparalleled penetration of conjugates -up to 40 µm!
  • Higher density of immunolabeling than with larger gold probes.
  • Can be conjugated to any molecule with a suitable reactive group. Available with different reactivities.
  • Extremely uniform 1.4 nm gold particle.
  • Label at specific sites which do not obstruct native reactivity.
  • Close to stoichiometric labeling.
  • Reacts under mild, neutral conditions.
  • Conjugates are easily isolated by gel filtration.
  • Conjugates are stable to a wide range of pH and ionic strengths.
  • High stability: conjugates show unchanged reactivity after storage for a year.
Nanogold® labels only at specific reactive sites. Labeling is selective for thiols (cysteine residues) or primary amines (N-terminal, lysine residues).