HQ and LI Silver and GoldEnhance References by Application

• Medline search for silver enhancement (results displayed in a new window) (from NCBI/NLM).
• View PDF files with the free Acrobat Reader (from Adobe).
• Alternative: silver enhancement references Sorted by Product.
• Most recent references (added in the last month).

General

1. Hainfeld, J. F.: Labeling with Nanogold and undecagold: techniques and results. Scanning Microsc. Suppl. (Proc. 14^th Pfefferkorn Conf.); Malecki, M., and Roomans, G. M. (Eds.). Scanning Microscopy International, Chicago, IL, 10, 309-322 (1996).
   • Jim Hainfeld: Medline search (results will be displayed in a new window).

2. Hainfeld, J. F., and Powell, R. D.: Nanogold Technology: New Frontiers in Gold Labeling. Cell Vision, 4, 408-432 (1997).
   • Complete paper (PDF) (courtesy of the Cell Vision).

3. Hainfeld, J. F., and Furuya, F. R.: Silver-enhancement of Nanogold and undecagold: in Immunogold-Silver Staining: Principles, Methods and Applications," M. A. Hayat (Ed.); CRC Press, Boca Raton, FL, 1995, pp. 71-96.

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Gels: Staining Nanogold® Labeled Proteins on Gels

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

2. Hainfeld, J. F., and Furuya, F. R.: Silver Enhancement of Nanogold and Undecagold. In Immunogold-Silver Staining: Principles, Methods and Applications," M. A. Hayat (Ed.); CRC Press, Boca Raton, FL, 1995, pp. 71-96.

3. Rayner, S. L., and Stephenson, F. A. Labelling and characterization of gamma-amminobutyric acid_A receptor subunit-specific antibodies with monomaleimido-Nanogold. Biochem. Soc. Trans., 25, 546S (1997).

Tissue and Immunohistochemistry

Electron Microscopy

Pre-embedding Labeling

1. Baude, A.; Nusser, Z.; Molnar, E.; McIlhinney, R. A. J., and Somogyi, P.: High-resolution immunogold localization of AMPA type glutamate receptor subunits at synaptic and non-synaptic sites in rat hippocampus. Neuroscience, 69, 1031-1055 (1995).
   • Peter Somogyi: Medline search (results will be displayed in a new window).

2. Baude, A., Nusser, A., Roberts, J.D.B., Mulvihill, E., McIlhinney, R.A.J., and Somogyi, P. The metabotropic glutamate receptor (mGluR1 a) is concentrated at perisynaptic membranes of neuronal subpopulations as detected by immunogold reaction. Neuron, 11, 771-787 (1993).

3. Bernard, V.; Levey, A. I., and Bloch, B.: Regulation of the subcellular distribution of m4 muscarinic acetylcholine receptors in striatal neurons in vivo by the cholinergic environment: evidence for regulation of cell surface receptors by endogenous and exogenous stimulation J. Neurosci., 19, 10237-10249 (1999).
   • Abstract (courtesy of the Journal of Neuroscience).

4. Bernard, V.; Somogyi, P., and Bolam, J. P.: Cellular, subcellular and subsynaptic distribution of AMPA-type glutamate receptor subunits in the neostriatum of the rat. J. Neuroscience, 17, 819-833 (1997).
   • Abstract (courtesy of the Journal of Neuroscience).

5. Bergles, D. E.; Roberts, J. D. B.; Somogyi, P., and Jahr, C. E.: Glutamatergic synapses on oligodendrocyte precursor cells in the hippocampus. Nature, 405, 187-190 (2000).

6. Burry, R.W., Vandré, D. D., and Hayes, D. M.: Silver enhancement of gold antibody probes in pre-embedding electron microscopic immunocytochemistry. J. Histochem. Cytochem., 40, 1849-1856 (1992).
   • Abstract (from JHC Online).

7. Du, J.; Tao-Cheng, J.-H.; Zerfas, P., and McBain, C. J. The K+ channel, Kv2.1, is apposed to astrocytic processes and is associated with inhibitory postsynaptic membranes in hippocampal and cortical principal neurons and inhibitory interneurons. Neuroscience, 84, 37-48 (1998).

8. Feng, D.; Nagy, J. A.; Brekken, R. A.; Pettersson, A.; Manseau, E. J.; Pyne, L.; Mulligan, R.; Thorpe, P. E.; Dvorak, H. F., and Dvorak, A. M.: Ultrastructural localization of the vascular permeability factor/vascular endothelial growth factor (VPF/VEGF) receptor-2 (FLK-1, KDR) in normal mouse kidney and in the hyperpermeable vessels induced by VPF/VEGF-expressing tumors and adenoviral vectors J. Histochem. Cytochem., 48, 545-555 (2000).
   • Abstract (from JHC Online).

9. Hanson, J. E., and Smith, Y.: Group I metabotropic glutamate receptors at GABAergic synapses in monkeys; J. Neurosci., 19, 6488-6496 (1999).
   • Abstract (courtesy of the Journal of Neuroscience).

10. Hearne, C. E.; Johnson, D. L., and Van Campen, H.: Immunogold-Silver Staining (IGSS) of (NCP and CP) BVDV-infected subcellular fraction bands; In Proc 55th Ann. Mtg. Micros. Soc. Amer., G. W. Bailey, R. V. W. Dimlich, K. B. Alexander, J. J. McCarthy and T. P. Pretlow (Eds.). Springer-Verlag, New York, NY, pp. 155-156 (1997).

11. Hearne, C. E., and Van Campen, H.: Immunogold-Silver Staining (IGSS) of agarose embedded (NCP) BVDV-infected cell suspensions; In Proc 54th Ann. Mtg. Micros. Soc. Amer., G. W. Bailey, J. M. Corbett, R. V. W. Dimlich, J. R. Michael and N. J., Zaluzec (Eds.). San Francisco Press, San Francisco, CA, pp. 902-903 (1996).
    • Download this paper as a PDF file from the Microscopy Society of America.

12. Humbel, B. M.; De Jong, M. D. M.; Müller, W. H., and Verkleij, A. J.: Pre-embedding immunolabeling for electron microscopy: An evaluation of permeabilization methods and markers. Microsc. Res. Tech., 42, 43-58 (1998).

13. Li, H.; Ohishi, H.; Kinoshita, A.; Shigemoto, R.; Nomura, S., and Mizuno, N.: Localization of a metabotropic glutamate receptor, mGluR7, in axon terminals of presumed nociceptive, primary afferent fibers in the superficial layers of the spinal dorsal horn: an electron microscope study in the rat. Neuroscience lett., 223, 153-156 (1997).
    • Abstract (courtesy of the Neuroscience Letters).

14. Li, S.-H.; Cheng, A. L.; Li, H., and Li, X.-J.: Cellular effects and altered gene expression in PC12 cells stably expressing mutant huntingtin. J. Neuroscience, 19, 5159-5172 (1999).
    • Abstract (courtesy of the Journal of Neuroscience).

15. Lin, M., Sistina, Y., and Rodger, J. C.: Electron-microscopic localisation of thiol and disulphide groups by direct monomaleimido-Nanogold labeling in the spermatozoa of a marsupial, the tammar wallaby (Macropus eugenii); Cell Tisue Res., 282, 291-296 (1995).

16. Lujan, R.; Nusser, Z.; Roberts, J. D. B.; Shigemoto R.; Ohishi, H., and Somogyi, P.: Differential plasma membrane distribution of metabotropic glutamate receptors mGluR1-alpha, mGluR1 and mGluR5, relative to neurotransmitter release sites. J. Chem. Neuroanat., 13, 219-241 (1997).

17. Lujan, R.; Nusser, Z.; Roberts, J. D. B.; Shigemoto R., and Somogyi, P.: Perisynaptic location of metabotropic glutamate receptors mGluR1 and mGluR5 on dendrites and dendritic spines in the rat hippocampus. Eur. J. Neuroscience, 8, 1488-1500 (1996).

18. Nixon, G. F., Mignery, G. A., and Somlyo, A. V.: Immunogold localization of inositol 1,4,5-trisphosphate receptors and characterization of ultrastructural features of the sarcoplasmic reticulum in phasic and tonic smooth muscle; J. Muscle Res. Cell Mot., 15, 682-700 (1994).

19. Nusser, Z., and Somogyi, P.: Compartmentalised distribution of GABA_A and glutamate receptors in relation to transmitter release sites on the surface of cerebellar neurones. Prog. Brain Research, (C. I. De Zeeuw, P. Strata and J. Voogd, Eds.), Elsevier, Oxford, UK.; 114, 1488-1500 (1997).

20. Nusser, Z., Sieghart, W., and Somogyi, P.: Segregation of different GABA_A receptors to synaptic and extrasynaptic membranes of cerebellar granule cells. J. Neuroscience, 18, 1693-1703 (1998).
    • Abstract (courtesy of the Journal of Neuroscience).

21. Nusser, Z.; Sieghart, W.; Stephenson, F. A., and Somogyi, P.: The alpha-6 subunit of the GABA_A receptor is concentrated in both inhibitory and excitatory synapses on cerebellar granule cells. J. Neuroscience, 16, 103-114 (1996).
    • Abstract (courtesy of the Journal of Neuroscience).

22. Nusser, Z.; Roberts, J. D. B.; Baude, A.; Richards, J. G., and Somogyi, P. Relative densities of synaptic and extrasynaptic GABA-A receptors on cerebellar granule cells as determined by a quantitative immunogold method. J. Neuroscience; 15, 2948-2960 (1995).
    • Abstract (courtesy of the Journal of Neuroscience).

23. Nusser, Z.; Roberts, J. D. B.; Baude, A.; Richards, J. G.; Sieghart, W., and Somogyi. P. Immunocytochemical localization of the alpha-1 and beta-2/3 subunits of the GABA-A receptor in relation to specific GABAergic synapses in the dentate gyrus. Eur. J. Neurosci., 7, 630-646 (1995).

24. Sawada, H., Sugawara, I., Kitami, A., and Hayashi, M. Vitronectin in the cytoplasm of Leydig cells in the rat testis. Biol. Reprod., 54, 29-35 (1996).

25. Sawada, H., and Esaki, H: Use of Nanogold followed by silver enhancement and gold toning for preembedding immunolocalization. J. Elect. Micro., 43, 361-66 (1994).

26. Somogyi, P.; Tamas, G.; Lujan, R., and Buhl, E. H.: Salient features of synaptic organization in the cerebral cortex. Brain Res., Brain Res. Rev., 26 113-135 (1999).

27. Suzuki, E., and Hirosawa, K. Immunolocalization of a Drosophila phosphatidylinositol transfer protein (rdgB) in normal and rdgA mutant photoreceptor cells with special reference to the subrhabdomeric cisternae. J. Electron Microsc, 43, 183-9 (1994).
    • Abstract (courtesy of the Journal of Cell Biology).

28. Soussan, L.; Burakov, M.; Daniels, M. P.; Toister-Achituv, M.; Porat, A.; Yarden, Y., and Elazar, Z.: ERG30, a VAP-33-related protein, functions in protein transport mediated by COPI vesicles. J. Cell Biol., 146, 301-311 (1999).
    • Abstract (courtesy of the Journal of Cell Biology).

29. Suzuki, Y.; Itakura, M.; Kashiwagi, M.; Nakamura, N.; Matsuki, T.; Sakuta, H.; Naito, N.; Takano, K.; Fujita, T., and Hirose, S.: Identification by differential display of a hypertonicity-inducible inward rectifier potassium channel highly expressed in chloride cells. J. Biol. Chem, 274, 11376-11382 (1999).
    • Abstract (courtesy of the Journal of Biological Chemistry).

30. Tanner, V. A., Ploug, T., and Tao-Cheng, J.-H. Subcellular localization of SV2 and other secretory vesicle components in PC12 cells by an efficient method of preembedding EM Immunocytochemistry for cell cultures. J. Histochem. Cytochem., 44, 1481-1488 (1996).
    • Abstract (from JHC Online).

31. Thompson, W. F., Beven, A. F., Wells, B., and Shaw, P. J. Sites of rDNA transcription genes are widely dispersed through the nucleolus in Pisum sativum and can comprise single genes. Plant J., 12, 571-581 (1997).

32. Yanase, K.; Smith, R. M.; Cizman, B.; Foster, M. H.; Peachey, L. D.; Jarrett, L., and Madaio, M. P.: A subgroup of Murine monoclonal anti-deoxyribonucleic acid antibodies traverse the cytoplasm and enter the nucleus in a time- and temperature- dependent manner; Laboratory Investigation, 71, 52-60 (1994).

33. Yazama, F., Esaki, M., and Sawada, H.: Immunocytochemistry of Extracellular Matric Components in the Rat Seminiferous Tubule: Electron Microscopic Localization with Improved Methodology. Anat. Rec., 248, 51-62 (1997).

34. Yoshida, M.;Wakatsuki, Y.; Kobayashi, Y.; Itoh, T.; Murakami, K.; Mizoguchi, A.; Usui, T.; Chiba, T., and Kita, T.; Cloning and Characterization of a Novel Membrane-Associated Antigenic Protein of Helicobacter pylori. Infection and Immunity, 67, 286-293 (1999).
    • Abstract (courtesy of Infection and Immunity).

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Pre-embedding Labeling with Post-embedding silver enhancement

1. Prescianotto-Baschong, C., and Riezman, H.: Morphology of the yeast endocytic pathway. Mol. Cell Biol., 9, 173-189 (1998).

Post-embedding Labeling

1. Baude, A.; Nusser, Z.; Molnar, E.; McIlhinney, R. A. J., and Somogyi, P.: High-resolution immunogold localization of AMPA type glutamate receptor subunits at synaptic and non-synaptic sites in rat hippocampus. Neuroscience, 69, 1031-1055 (1995).
   • Peter Somogyi: Medline search (results will be displayed in a new window).

2. Baude, A., Nusser, A., Roberts, J.D.B., Mulvihill, E., McIlhinney, R.A.J., and Somogyi, P. The metabotropic glutamate receptor (mGluR1 a) is concentrated at perisynaptic membranes of neuronal subpopulations as detected by immunogold reaction. Neuron, 11, 771-787 (1993).

3. Bernard, V.; Somogyi, P., and Bolam, J. P.: Cellular, subcellular and subsynaptic distribution of AMPA-type glutamate receptor subunits in the neostriatum of the rat. J. Neuroscience, 17, 819-833 (1997).
   • Abstract (courtesy of the Journal of Neuroscience).

4. Gardiol, A., Racca, C., and Triller, A.: Dendritic and Postsynaptic Protein Synthetic Machinery. J. Neuroscience, 19, 168-179 (1999).
   • Abstract (courtesy of the Journal of Neuroscience).

5. Halasy, K.; Buhl, E. H.; Lörinczi, Z.; Tamás, G., and Somogyi, P: Synaptic target selectivity and input of GABAergic basket and bistratified interneurons in the CA1 area of the rat hippocampus. Hippocampus, 6, 306-329 (1996).

6. Krenács, T., and Krenács, L.: Immunogold-silver staining (IGSS) for single and multiple antigen detection in archived tissues following antigen retrieval. Cell Vision, 4, 387-393 (1997).

7. Krenács, T. and Dux, L. Silver-enhanced immunogold labeling of calcium-ATPase in sarcoplasmic reticulum of skeletal muscle. J. Histochem. Cytochem., 42, 967-968 (1994).

8. Krenács, T., and Krenács, L.: Comparison of embedding media for immunogold-silver staining. In Immunogold-Silver Staining: Principles, Methods and Applications," M. A. Hayat (Ed.); CRC Press, Boca Raton, FL, 1995, pp. 57-70.

9. Lujan, R.; Nusser, Z.; Roberts, J. D. B.; Shigemoto R.; Ohishi, H., and Somogyi, P.: Differential plasma membrane distribution of metabotropic glutamate receptors mGluR1-alpha, mGluR1 and mGluR5, relative to neurotransmitter release sites. J. Chem. Neuroanat., 13, 219-241 (1997).

10. Lujan, R.; Nusser, Z.; Roberts, J. D. B.; Shigemoto R., and Somogyi, P.: Perisynaptic location of metabotropic glutamate receptors mGluR1 and mGluR5 on dendrites and dendritic spines in the rat hippocampus. Eur. J. Neuroscience, 8, 1488-1500 (1996).

11. Matsubara, A., Laake, J. H., Davanger, S., Usami, S.-I., and Otterson, O. P.; Organization of AMPA receptor subunits at a glustamate synapse: A quantitative immunogold analysis of hair cell synapses in the rat organ of Corti. J. Neuroscience, 16, 4457-4467 (1996).
    • Abstract (courtesy of the Journal of Neuroscience).

12. Nusser, Z.; Cull-Candy, S., and Farrant, M.; Differences in synaptic GABA_A receptor number underlie variation in GABA mini amplitude; Neuron, 19, 697-709 (1997).

13. Nusser, Z., and Somogyi, P.: Compartmentalised distribution of GABA_A and glutamate receptors in relation to transmitter release sites on the surface of cerebellar neurones. Prog. Brain Research, (C. I. De Zeeuw, P. Strata and J. Voogd, Eds.), Elsevier, Oxford, UK.; 114, 1488-1500 (1997).

14. Nusser, Z.; Sieghart, W.; Benke, D.; Fritschy, J.-M., and Somogyi, P.: Differential synaptic localization of two major gamma-aminobutyric acid type A receptor alpha subunits on hippocampal pyramidal cells. Proc. Natl. Acad. Sci. USA, 93, 11939-11944 (1996).
    • Complete paper (PDF) (courtesy of the National Academy of Sciences of the USA).
    • Abstract (html) (courtesy of the National Academy of Sciences of the USA).

15. Nusser, Z.; Sieghart, W.; Stephenson, F. A., and Somogyi, P.: The alpha-6 subunit of the GABA_A receptor is concentrated in both inhibitory and excitatory synapses on cerebellar granule cells. J. Neuroscience, 16, 103-114 (1996).
    • Abstract (courtesy of the Journal of Neuroscience).

16. Nusser, Z.; Mulvihill, E.; Streit, P., and Somogyi, P.: Subsynaptic segregation of metabotropic and ionotropic glutamate receptors as revealed by immunogold localization. Neuroscience, 61, 421-427 (1994).

17. Nusser, Z.; Roberts, J. D. B.; Baude, A.; Richards, J. G., and Somogyi, P. Relative densities of synaptic and extrasynaptic GABA-A receptors on cerebellar granule cells as determined by a quantitative immunogold method. J. Neuroscience; 15, 2948-2960 (1995).
    • Abstract (courtesy of the Journal of Neuroscience).

18. Nusser, Z.; Roberts, J. D. B.; Baude, A.; Richards, J. G.; Sieghart, W., and Somogyi. P. Immunocytochemical localization of the alpha-1 and beta-2/3 subunits of the GABA-A receptor in relation to specific GABAergic synapses in the dentate gyrus. Eur. J. Neurosci., 7, 630-646 (1995).

19. Salas, P. J. I.: Insoluble gamma-tubulin-containing structures are anchored to the apical network of intermediate filaments in polarized CACO-2 epithelial cells. J. Cell Biol., 146, 645-657 (1999).
    • Abstract (courtesy of the Journal of Cell Biology).

20. Shigemoto, R., Kulik, A., Roberts, J. D. B., Ohishi, H., Nusser, Z., Kaneko, T., and Somogyi, P.; Target-cell-specific concentration of a metabotropic glutamate receptor in the presynaptic active zone. Nature, 381, 523-525 (1996).

21. Somogyi, P.; Tamas, G.; Lujan, R., and Buhl, E. H.: Salient features of synaptic organization in the cerebral cortex. Brain Res., Brain Res. Rev., 26 113-135 (1999).

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Ultrathin Cryosections

1. Baude, A., Nusser, A., Roberts, J.D.B., Mulvihill, E., McIlhinney, R.A.J., and Somogyi, P. The metabotropic glutamate receptor (mGluR1 a) is concentrated at perisynaptic membranes of neuronal subpopulations as detected by immunogold reaction. Neuron, 11, 771-787 (1993).

2. Robinson, J. M., and Takizawa, T.: Novel Labeling methods for EM analysis of ultrathin cryosections. In Proc 54th Ann. Mtg. Micros. Soc. Amer., G. W. Bailey, J. M. Corbett, R. V. W. Dimlich, J. R. Michael and N. J., Zaluzec (Eds.). San Francisco Press, San Francisco, CA, pp. 894-895 (1996).
   • Download this paper as a PDF file from the Microscopy Society of America.

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Light and Confocal Microscopy

1. Griffing, L. R., Villanueva, M. A., Taylor, J., and Moon, S.: Confocal Epipolorization Microscopy of Gold Probes in Plant Cells and Protoplasts; Methods in Cell Biology, 49, 109-121 (1995).

2. Lackie, P. M.: Immunogold silver staining for light microscopy; Histochem. Cell. Biol., 106, 9-17 (1996).

3. Ribrioux, S., Kleymann, G., Haase, W., Heitmann, K., Ostermeier, C., and Michel, H. Use of Nanogold- and Fluorescent-labeled Antibody Fv Fragments in Immunocytochemistry. J. Histochem. Cytochem., 44, 207-213 (1996).
   • Abstract (from JHC Online).

4. Segond von Banchet, G., and Heppelman, B.: Non-radioactive localization of substance P binding sites in rat brain and spinal cord using peptides labeled with 1.4 nm gold particles; J. Histochem. Cytochem., 43, 821 (1995).
   • Abstract (from JHC Online).

5. Sun, X.J., Tolbert, L.P. and Hildebrand, J.G. Using laser scanning confocal microscopy as a guide for electron microscopic study: a simple method for correlation of light and electron microscopy. J. Histochem. Cytochem., 43, 329-35 (1995).
   • Abstract (from JHC Online).

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In Situ Hybridization and In Situ PCR

1. Punnonen, E.-L., Fages, C., Wartiovaara, J., and Rauvala, H.: Ultrststructural Localization of beta-Actin and Amphoterin mRNA in Cultured Cells: Application of tyramide signal amplification and comparison of detection methods; J. Histochem. Cytochem., 47, 99 (1999).
   • Abstract (from JHC Online).

2. Tubbs, R.; Pettay, J.; Skacel, M.; Powell, R.; Stoler, M.; Roche, P., and Hainfeld, J.: Gold-Facilitated in Situ Hybridization: A Bright-Field Autometallographic Alternative to Fluorescence in Situ Hybridization for Detection of HER-2/neu Gene Amplification. Am. J. Pathol., 160, 1589-1595 (2002).
   • Abstract (courtesy of the American Journal of Pathology)

3. Schöfer, C.; Weipoltshammer, K.; Hauser-Kronberger, C., and Wachtler, F.: High-resolution detection of nucleic acids at the electron microscope level - Review of in situ hybridization technology, the use of gold, and Catalyzed Reporter Deposition (CARD). Cell Vision, 4, 443-454 (1997).
   • See the complete paper (PDF format) (courtesy of the Cell Vision).

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Gold Toning

1. Sawada, H., and Esaki, M.: A practical technique to postfix Nanogold-immunolabeled specimens with osmium and to embed them in Epon for electron microscopy J. Histochem. Cytochem., 48, 493-498 (2000).

2. Sawada, H., and Esaki, H: Use of Nanogold followed by silver enhancement and gold toning for preembedding immunolocalization. J. Elect. Micro., 43, 361-66 (1994).

3. Yazama, F., Esaki, M., and Sawada, H.: Immunocytochemistry of Extracellular Matric Components in the Rat Seminiferous Tubule: Electron Microscopic Localization with Improved Methodology. Anat. Rec., 248, 51-62 (1997).

Contents | Catalog information | Tech Help | Feature: Nanogold®-ISH | Info (LI Silver) | Home

DAB/Gold-Silver Double Labeling

1. Bernard, V.; Levey, A. I., and Bloch, B.: Regulation of the subcellular distribution of m4 muscarinic acetylcholine receptors in striatal neurons in vivo by the cholinergic environment: evidence for regulation of cell surface receptors by endogenous and exogenous stimulation J. Neurosci., 19, 10237-10249 (1999).
   • Abstract (courtesy of the Journal of Neuroscience).

2. Li, H.; Ohishi, H.; Kinoshita, A.; Shigemoto, R.; Nomura, S., and Mizuno, N.: Localization of a metabotropic glutamate receptor, mGluR7, in axon terminals of presumed nociceptive, primary afferent fibers in the superficial layers of the spinal dorsal horn: an electron microscope study in the rat. Neuroscience lett., 223, 153-156 (1997).
   • Abstract (courtesy of the Neuroscience Letters).

3. Salas, P. J. I.: Insoluble gamma-tubulin-containing structures are anchored to the apical network of intermediate filaments in polarized CACO-2 epithelial cells. J. Cell Biol., 146, 645-657 (1999).
   • Abstract (courtesy of the Journal of Cell Biology).

Gold Enhancement

Molecular TEM

1. Scheibel, T.; Kowal, A. S.; Bloom, J. D., and Lindquist, S.L.: Bidirectional amyloid fiber growth for a yeast prion determinant. Current Biology, 11, 366-369 (2001).

Tissue and Immunohistochemistry: EM

1. Ackerley, C. A.; Tilups, A.; Bear, C. E., and becker, L. E.: Correlative LM/TEM studies are essential in evaluating the effectiveness of liposome mediated delivery of the cystic fibrosis transmembrane regulator (CFTR) as a corrective therapy in a CFTR knockout mouse that develops lung disease; Proc. 57^th Ann. Mtg., Micros. Soc. Amer.; G. W. Bailey, W. G. Jerome, S. McKernan, J. F. Mansfield, and R. L. Price (Eds.); Springer-Verlag, New York, NY; 1999, 484-485.

2. Cheung, A. L.; Graf, A. H.; Hauser-Kronberger, C.; Dietze, O.; Tubbs, R. R., and Hacker, G. W.: Detection of human papillomavirus in cervical carcinoma: comparison or peroxidase, Nanogold, and catalyzed reporter deposition (CARD)-Nanogold in situ hybridization Mod. Pathol., 12, 689 (1999).

3. Grondin, G., and Beaudoin, A. R.: A New Pre-Embedding Immunogold Method that Permits to Obtain a Very High Signal with a Very Good Ultrastructure. Microsc. Microanal., 7, (Suppl. 2: Proceedings) (Proceedings of the Fifty-Ninth Annual Meeting, Microscopy Society of America); Bailey, G. W.; Price, R. L.; Voelkl, E., and Musselman, I. H., Eds.; Springer-Verlag, New York, NY, 2001, pp. 1044-1045.

4. Hainfeld, J. F.; Powell, R. D.; Stein, J. K.; Hacker, G. W.; Hauser-Kronberger, C.; Cheung, A. L. M., and Schofer, C.: Gold-based autometallography; Proc. 57^th Ann. Mtg., Micros. Soc. Amer.; G. W. Bailey, W. G. Jerome, S. McKernan, J. F. Mansfield, and R. L. Price (Eds.); Springer-Verlag, New York, NY; 1999, 486-487.
   • See the complete paper
   • Jim Hainfeld: Medline search (results will be displayed in a new window).

5. Malecki, M.; Hsu, A.; Truong, L., and Sanchez, S: Molecular immunolabeling with recombinant single-chain variable fragment (scFv) antibodies designed with metal-binding domains; Proc. Natl. Acad. Sci. USA, 99, 213-218 (2002).
   • Abstract (courtesy of the National Academy of Sciences of the USA).

6. Powell, R. D.; Joshi, V. N.; Halsey, C. M. R.; Hainfeld, J. F.; Hacker, G. W.; Hauser-Kronberger, C.; Muss, W. H., and Takvorian, P. M.: Combined Cy3 / Nanogold conjugates for immunocytochemistry and in situ hybridization; Proc. 57^th Ann. Mtg., Micros. Soc. Amer.; G. W. Bailey, W. G. Jerome, S. McKernan, J. F. Mansfield, and R. L. Price (Eds.); Springer-Verlag, New York, NY; 1999, 478-479.
   • See the complete paper

7. Tubbs, R.; Pettay, J.; Skacel, M.; Powell, R.; Stoler, M.; Roche, P., and Hainfeld, J.: Gold-Facilitated in Situ Hybridization: A Bright-Field Autometallographic Alternative to Fluorescence in Situ Hybridization for Detection of HER-2/neu Gene Amplification. Am. J. Pathol., 160, 1589-1595 (2002).
   • Abstract (courtesy of the American Journal of Pathology)

8. Weipoltshammer, K.; Schéfer, C.; Almeder, M., and Wachtler, F.: Signal enhancement at the electron microscopic level using Nanogold and gold-based autometallography. Histochem. Cell Biol., 114, 489-495 (2000).
   • Abstract (courtesy of the Journal of Cell Biology).

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In Situ Hybridization

1. Graf, A. H.; Cheung, A. L.; Hauser-Kornberger, C.; Dandachi, N.; Tubbs, R. R.; Dietze, O., and Hacker, G. W.: Clinical relevance of HPV 16/18 testing methods in cervical squamous cell carcinoma. Appl. Immunohistochem. Molecul. Morphol., 8, 300-9 (2000).

2. Hainfeld, J. F.; Powell, R. D.; Stein, J. K.; Hacker, G. W.; Hauser-Kronberger, C.; Cheung, A. L. M., and Schofer, C.: Gold-based autometallography; Proc. 57^th Ann. Mtg., Micros. Soc. Amer.; G. W. Bailey, W. G. Jerome, S. McKernan, J. F. Mansfield, and R. L. Price (Eds.); Springer-Verlag, New York, NY; 1999, 486-487.
   • See the complete paper
   • Jim Hainfeld: Medline search (results will be displayed in a new window).

3. Powell, R. D.; Joshi, V. N.; Halsey, C. M. R.; Hainfeld, J. F.; Hacker, G. W.; Hauser-Kronberger, C.; Muss, W. H., and Takvorian, P. M.: Combined Cy3 / Nanogold conjugates for immunocytochemistry and in situ hybridization; Proc. 57^th Ann. Mtg., Micros. Soc. Amer.; G. W. Bailey, W. G. Jerome, S. McKernan, J. F. Mansfield, and R. L. Price (Eds.); Springer-Verlag, New York, NY; 1999, 478-479.
   • See the complete paper

4. Weipoltshammer, K.; Schéfer, C.; Almeder, M., and Wachtler, F.: Signal enhancement at the electron microscopic level using Nanogold and gold-based autometallography. Histochem. Cell Biol., 114, 489-495 (2000).
   • Abstract (courtesy of the Journal of Cell Biology).

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