恒耀平台官方登录

<noframes id="n9d9x">
    <strike id="n9d9x"></strike>

          <noframes id="n9d9x"><address id="n9d9x"></address>

            <address id="n9d9x"><nobr id="n9d9x"><progress id="n9d9x"></progress></nobr></address>
            <form id="n9d9x"></form>

            <noframes id="n9d9x">
              <strike id="n9d9x"></strike>

                    <noframes id="n9d9x"><address id="n9d9x"></address>

                      <address id="n9d9x"><nobr id="n9d9x"><progress id="n9d9x"></progress></nobr></address>
                      <form id="n9d9x"></form>
                      View Cart   647 FluoroNanogold?for Super-Res! Join our Mailing List

                      Buy now1.4 nm Nanogold® Labeling Reagents


                      Updated: January 1, 2020
                      See also:

                      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 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.

                      Although 1.4 nm Nanogold® is smaller than most other EM probes, it can easily be enhanced with GoldEnhance™ or silver (LI Silver or HQ Silver) by brief exposure (1 - 5 min.) to produce highly visible grains 2-20 nm in size (depending on development time). Further development (8-25 min.) gives a black signal easily seen in the light microscope and on immunoblots, polyacrylamide gels and Western blots.

                      Try GoldEnhance™ EM Plus for slow development with low background!

                       


                      Features of Nanogold®

                      • 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.

                      After labeling with Nanogold®,
                      get rapid, precise enhancement
                      with our Silver Enhancers
                      or new GoldEnhance™!

                       Nanogold labels only at specific reactive sites. Labeling is selective for thiols (cysteine residues) or primary amines (N-terminal, or lysine residues)

                       


                      Buy nowMonomaleimido Nanogold® - Instructions

                      Prepare the smallest gold immunoprobe with your own primary antibody
                      for unsurpassed resolution, penetration and localization, or label a variety of other biological molecules.

                      1.4 nm Monomaleimido Nanogold® may be used to covalently label Fab', IgG, proteins or peptides containing cysteine, and other molecules with sulfhydryls -- Use our unique gold labeling reagents just as you would use fluorescent labeling reagents.

                      Easy to use: Simply mix redissolved Monomaleimido Nanogold® with the target molecule for 1-16 hours, then chromatographically purify the product by gel filtration, ion exchange chromatography or hydrophobic interaction chromatography. The maleimide on the 1.4 nm Nanogold® specifically reacts with a free sulfhydryl under mild conditions to produce a stable covalent bond.

                      A similar product based on the smaller 11 gold atom cluster, undecagold, is also available (Monomaleimido-Undecagold).

                      Applications:

                      • Create your own small gold probes by linking Nanogold® to your primary antibody Fab' fragments. [References]
                      • Label other proteins directly for high resolution site specific identification.
                      • Label peptides containing cysteine (see Gregori, L., et al.; J. Biol. Chem., 272, 258-262 (1997)). [References]
                      • Label 5'-thiolated oligonucleotides directly with Nanogold® (see Alivisatos, A. P., et al.; Nature, 382, 609 (1996)). [References]

                      Monomaleimido Nanogold® labeling
                      of the phosphorylase kinase complex:


                      STEM images of phosphorylase kinase complex with Nanogold-labeled d subunit.

                      Phosphorylase-b kinase was incubated with excess exogenous calmodulin and a threshold concentration of urea to promote exchange of calmodulin for the d subunit and size exclusion-HPLC was used to remove the excess calmodulin from the enzyme. Using metabolically labeled [35S]calmodulin to allow quantification, an exchange of approximately 10% of all d subunits within 1 h was measured. The exchanged enzyme retained full catalytic activity. Calmodulins that were then derivatized with maleimido-Nanogold and exchanged under the conditions described above. Analysis of STEM images of these Nanogold-exchanged images allowed the placement of the d subunit within the phosphorylase kinase holoenzyme.

                      From: Traxler KW, Norcum MT, Hainfeld JF, Carlson GM. Direct Visualization of the Calmodulin Subunit of Phosphorylase Kinase via Electron Microscopy Following Subunit Exchange. J Struct Biol. 2001 Sep;135(3):231-8.

                      Need an even smaller probe? Try our 0.8 nm Monomaleimido-Undecagold



                      Buy nowMono-Sulfo-NHS-Nanogold® - Instructions

                      Mono-Sulfo-NHS-Nanogold® is the 1.4 nm Nanogold® compound with a single reactive group, a sulfo-N-hydroxysuccinimide ester (sulfo-NHS) that reacts with primary amines under mild conditions (pH 7.5 to 8.2).

                      The result is stable, covalent attachment of the Nanogold® to a protein, lipid, peptide, modified oligonucleotide or other amine-containing molecule to give a unique gold probe without the problems associated with colloidal gold (aggregation, poor stability, and low penetration).

                      Nanogold® is readily enhanced with a silver developer (LI Silver or HQ Silver) so that the small gold particles are easily visualized by EM or light microscopy, or by eye on blots and gels.

                      Mono-Sulfo-NHS-Nanogold® is easy to use: The dry labeling reagent is dissolved in a small amount of DMSO or isopropanol, reconstituted with water and mixed with the molecule to be labeled. Reaction is complete in a few hours, and the labeled conjugate is purified chromatographically by gel filtration.

                      Applications:

                      • Label proteins which do not contain a cysteine.
                      • Label peptides at the N-terminal (see Segond von Banchet, G., and Heppelman, B.: J. Histochem. Cytochem., 43, 821 (1995)).
                      • Use Fv antibody fragments to prepare the smallest antibody probes (see Ribrioux, S., et al.: J. Histochem. Cytochem., 44, 207-213 (1996)).
                      • Label small molecules as inhibitors or substrate analogs.
                      • Label amino-substituted lipids for insertion into liposomes.

                      Need an even smaller probe? Try our 0.8 nm Mono-Sulfo-NHS-Undecagold

                       


                      Buy nowClick Nanogold®

                      Click chemistry is the reaction between an azide and an alkyne or similar group. It is a bioorthogonal reaction (i.e. it does not occur naturally) which lets let you label selectively in living cells, tissues and even animals without cross-reactivity. Click Nanogold® reagents are stable, biocompatible, and well tolerated by living cells. They provide ultra-high resolution, putting the Nanogold® right on the target site: locate targets at macromolecular resolution.

                      Both reactivities are available:

                      • Mono-Azido Nanogold® reacts with alkynes and related reagents; may be used for some copper-free click reactions.
                      • Mono-Alkyne Nanogold® reacts with azides.

                      Applications:

                      • Label dynamic processes as they happen in living cells or tissues - Click reagents will not hydrolyze or degrade.
                      • Label components in living cells: Ignore endogenous species like biotin or cross-reactive proteins.
                      • High-resolution labeling of subunits or molecular sites: just incorporate the corresponding reactive azide or alkyne - no antibody or probe required.
                      • Optical Visualization: use silver or gold enhancement to visualize by light microscopy or for super-sensitive blotting. See as little as 1 pg of target IgG!
                      • Multiplex your labeling: Add a click reaction to detect an additional target if there is no suitable antibody or probe.
                      Nanogold® Click labeling reactions

                       


                      Buy nowMonoamino Nanogold® - Instructions

                      1.4 nm Nanogold® with a primary amine attached for crosslinking reactions.

                      Covalent attachment to the carbohydrate moiety of a glycoprotein may be achieved by periodate oxidation of the carbohydrate followed by reaction with Monoamino Nanogold® and reduction of the resulting Schiff base linkages (see: Shah, N., et al.: Endocrinology, 136, 2825-2835 (1995)).

                      Need an even smaller probe? Try our 0.8 nm Mono-Sulfo-NHS-Undecagold

                       


                      Buy nowCharged Nanogold® - Instructions

                      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]

                      Need an even smaller probe? Try our 0.8 nm Charged Undecagold

                       


                      Buy nowNon-Functionalized Nanogold® - Instructions

                      Non-fuctionalized Nanogold® is an inert, stable form of the 1.4 nm Nanogold® particle with no reactive chemical functionalities or specific affinity properties.

                      Applications:

                      • As a size standard for calibration in high-resolution electron microscopy.
                      • Sizing pores (see: Schwartz, M. P., and Matouschek, A.: The dimensions of the protein import channels in the outer and inner mitochondrial membranes. Proc. Natl. Acad. Sci. USA, 96, 13086-13090 (1999)). [Complete references]
                      • For tracing contiguous interior spaces in cells and tissues.

                      Need an even smaller probe? Try our 0.8 nm Non-Functionalized Undecagold

                       


                      Custom Nanogold® Conjugates & Labeling

                      Nanoprobes will perform custom conjugation of Nanogold®, FluoroNanogold, undecagold or colloidal gold to primary antibodies, peptides, small molecules, or other molecules if feasible. This includes the purification and characterization of conjugates. Call 877-447-6266 (US toll-free number) or (631) 205-9490, use the custom synthesis quotation form, or e-mail us at [email protected] to discuss your project and obtain a quote.

                       

                       

                      Price List:
                      1.4 nm Nanogold®
                      Labeling Reagents
                      Custom conjugation is also available, of Nanogold®, FluoroNanogold, undecagold
                      or colloidal gold to primary antibodies, peptides, small molecules, or other molecules.
                      Need rapid, precise enhancement? Try our Silver Enhancers and Gold Enhancers
                      Monomaleimido Nanogold®
                      #2020-30NMOL
                      Monomaleimido Nanogold®
                      1.4 nm gold particle with single maleimide group for selectively labeling thiols (-SH). May be used to label primary Fab' antibody fragments, IgG, cysteine groups on proteins, or other sulfhydryl containing compounds. 30 nmol provided: enough to label 0.2 mg of Fab'. 30 nmol
                      $449
                      Qty:

                      Code (Optional)

                      #2020A-5X6NMOL
                      Monomaleimido Nanogold®
                      in 5 aliquots

                      Same total quantity as 2020-30 nmol, but provided in 5 separate tubes. Since the malieide moiety is unstable once dissolved, separate aliquots are preferable if several smaller-quantity labeling reactions are planned at different times.
                      30 nmol
                      in 5 x 6 nmol aliquots
                      $501
                      Qty:

                      Code (Optional)

                      #2020S-6NMOL
                      Monomaleimido Nanogold® introductory size
                      Same as 2020-30 nmol, but packaged in an introductory size for smaller labeling experiments. 6 nmol
                      $142
                      Qty:

                      Code (Optional)

                      Monoamino Nanogold®
                      #2021-30NMOL
                      Monoamino Nanogold®
                      1.4 nm gold particle with a single primary amine may be used for labeling the carbohydrate moiety of glycoproteins or other applications. 30 nmol
                      $334
                      Qty:

                      Code (Optional)

                      #2021A-5X6NMOL
                      Monoamino Nanogold®
                      in 5 aliquots

                      Same total quantity as 2021-30 nmol, but provided in 5 separate tubes. Preferable if several smaller-quantity labeling reactions are planned at different times.

                      30 nmol
                      in 5 aliquots
                      $373

                      Qty:

                      Code (Optional)

                      #2021S-6NMOL
                      Monoamino Nanogold® introductory size
                      Same as 2021-30 nmol, but packaged in an introductory size for smaller labeling experiments. 6 nmol
                      $98
                      Qty:

                      Code (Optional)

                      Mono-Sulfo-NHS-Nanogold®
                      #2025-30NMOL
                      Mono-Sulfo-NHS-Nanogold®
                      1.4 nm gold particle with a single N-hydroxy-sulfosuccin-imide group. Used for labeling primary amines. 30 nmol
                      $449
                      Qty:

                      Code (Optional)

                      #2025A-5X6NMOL
                      Mono-Sulfo- NHS-Nanogold®
                      in 5 aliquots

                      Same total quantity as 2025-30 nmol, but provided in 5 separate tubes. Since the sulfo-NHS moiety is unstable once dissolved, separate aliquots are preferable if several smaller-quantity labeling reactions are planned at different times.
                      30 nmol
                      in 5 aliquots
                      $501
                      Qty:

                      Code (Optional)

                      #2025S-6NMOL
                      Mono-Sulfo-NHS-Nanogold® introductory size
                      Same as 2025-30 nmol, but packaged in an introductory size for smaller labeling experiments. 6 nmol
                      $142
                      Qty:

                      Code (Optional)

                      Click Nanogold®: Mono-Azido-Nanogold®
                      #2026-30NMOL
                      Mono-Azido-Nanogold®
                      1.4 nm gold particle with a single azide group. Used for click labeling of alkynes and related compounds. 30 nmol
                      $449
                      Qty:

                      Code (Optional)

                      #2026-5X6NMOL
                      Mono-Azido-Nanogold®
                      in 5 aliquots

                      Same total quantity as 2026-30 nmol, but provided in 5 separate tubes. Convenient if several smaller-quantity labeling reactions are planned at different times.
                      30 nmol
                      in 5 aliquots
                      $501
                      Qty:

                      Code (Optional)

                      #2026-6NMOL
                      Mono-Azido-Nanogold® introductory size
                      Same as 2026-30 nmol, but packaged in an introductory size for smaller labeling experiments. 6 nmol
                      $142
                      Qty:

                      Code (Optional)

                      Click Nanogold®: Mono-Alkyne-Nanogold®
                      #2027-30NMOL
                      Mono-Alkyne-Nanogold®
                      1.4 nm gold particle with a single alkyne group. Used for click labeling of azides. 30 nmol
                      $449
                      Qty:

                      Code (Optional)

                      #2027-5X6NMOL
                      Mono-Alkyne-Nanogold®
                      in 5 aliquots

                      Same total quantity as 2027-30 nmol, but provided in 5 separate tubes. Convenient if several smaller-quantity labeling reactions are planned at different times.
                      30 nmol
                      in 5 aliquots
                      $501
                      Qty:

                      Code (Optional)

                      #2027-6NMOL
                      Mono-Alkyne-Nanogold® introductory size
                      Same as 2027-30 nmol, but packaged in an introductory size for smaller labeling experiments. 6 nmol
                      $142
                      Qty:

                      Code (Optional)

                      Charged Nanogold®
                      #2022-30NMOL
                      Positively Charged Nanogold®
                      1.4 nm gold particles with a net positive charge; contains multiple amines. Use these particles for alternative coupling schemes, or to bind to negatively charged sites. 30 nmol
                      $344
                      Qty:

                      Code (Optional)

                      #2023-30NMOL
                      Negatively Charged Nanogold®
                      1.4 nm gold particles with a net negative charge; contains multiple amines. Use these particles for alternative coupling schemes, or to bind to positively charged sites. 30 nmol
                      $344
                      Qty:

                      Code (Optional)

                      Non-Functionalized Nanogold®
                      #2010-30NMOL
                      Nanogold® Particles, Non- Functionalized
                      1.4 nm gold particles only, lyophilized; non-reactive form. 30 nmol
                      $238
                      Qty:

                      Code (Optional)

                      Nanogold® Custom Labeling
                      Custom Labeling with Nanogold® Your antibody (IgG or Fab'), proteins, and other molecules. Contact us for a quote
                      View Cart International orders: Our regional distributors can provide expedited customs processing and delivery.

                       

                       

                       

                      © 1990-2017 Nanoprobes, Inc. All rights reserved. Sitemap

                      city

                      culture

                      Information

                      Super League

                      mailbox

                      aviation

                      game

                      Buddhism

                      Celebrity