Aktuelle Methoden der submikroskopischen Abbildung: Unterschied zwischen den Versionen

Aktuelle Version vom 16. April 2010, 15:53 Uhr

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Wichtige Übersichtsartikel
Medline Suchterm/ Synonyme
Was ist das	Elektronentomographie
Struktur
Physiologie
Knockout
Transgen
Mutation
Polymorphismus
Genexpression
Inhibitoren
Agonisten

Bibliographie

↑ Imaging of cell migration. EMBO J 25(15):3480-93 (2006) PMID 16900100
↑ Fluorescence imaging in living animals. Focus on "Uptake and trafficking of fluorescent conjugates of folic acid in intact kidney determined using intravital two-photon microscopy". Am J Physiol Cell Physiol 287(2):C257-9 (2004) PMID 15238357
↑ Defining lipid raft structure and function with proximity imaging. Am J Physiol Heart Circ Physiol 290(6):H2165-6 (2006) PMID 16428346
↑ Multimodal optical imaging. Am J Physiol Lung Cell Mol Physiol 285(2):L269-80 (2003) PMID 12851207
↑ The time has finally arrived: use of intravital microscopy in the airway circulation. Am J Physiol Lung Cell Mol Physiol 282(5):L957-8 (2002) PMID 11943659
↑ Intravital multiphoton microscopy of dynamic renal processes. Am J Physiol Renal Physiol 288(6):F1084-9 (2005) PMID 15883167
↑ Pushing, pulling, dragging, and vibrating renal epithelia by using atomic force microscopy. Am J Physiol Renal Physiol 278(5):F689-701 (2000) PMID 10807580
↑ Application of in vivo microscopy: evaluating the immune response in living animals. Arthritis Res Ther 7(6):246-52 (2005) PMID 16277700
↑ New biophysical techniques and their application to the study of membranes. Biochem J 228(2):281-95 (1985) PMID 3893419
↑ Localization accuracy in single-molecule microscopy. Biophys J 86(2):1185-200 (2004) PMID 14747353
↑ Biomolecular interactions measured by atomic force microscopy. Biophys J 79(6):3267-81 (2000) PMID 11106630
↑ Atomic force microscopy of three-dimensional membrane protein crystals. Ca-ATPase of sarcoplasmic reticulum. Biophys J 63(2):303-8 (1992) PMID 1420878
↑ Multispectral imaging fluorescence microscopy for living cells. Cell Struct Funct 27(5):367-74 (2002) PMID 12502891
↑ Total internal reflection fluorescence microscopy for single-molecule imaging in living cells. Cell Struct Funct 27(5):357-65 (2002) PMID 12502890
↑ Spinning-disk confocal microscopy -- a cutting-edge tool for imaging of membrane traffic. Cell Struct Funct 27(5):349-55 (2002) PMID 12502889
↑ Live cell imaging using wide-field microscopy and deconvolution. Cell Struct Funct 27(5):335-41 (2002) PMID 12502887
↑ Live cell imaging: approaches for studying protein dynamics in living cells. Cell Struct Funct 27(5):333-4 (2002) PMID 12502886
↑ Two-photon microscopy of cells and tissue. Circ Res 95(12):1154-66 (2004) PMID 15591237
↑ Use of chimeric fluorescent proteins and fluorescence resonance energy transfer to monitor cellular responses. Circ Res 94(7):866-73 (2004) PMID 15087426
↑ Seeing within: molecular imaging of the cardiovascular system. Circ Res 94(4):433-45 (2004) PMID 15001542
↑ Illuminating sarcoplasmic reticulum calcium. Circ Res 93(1):4-5 (2003) PMID 12855669
↑ Exocytic process analyzed with two-photon excitation imaging in endocrine pancreas. Endocr J 54(3):337-46 (2007) PMID 17409577
↑ TIRF microscopy analysis of the mechanism of insulin exocytosis. Endocr J 53(4):433-40 (2006) PMID 16807501
↑ A new dimension for the development of fluorescence-based assays in solution: from physical principles of FCS detection to biological applications. Exp Biol Med (Maywood) 227(5):291-300 (2002) PMID 11976399
↑ The art of counting. J Am Soc Nephrol 10(5):1124-5 (1999) PMID 10232699
↑ Stereologic methods and their application in kidney research. J Am Soc Nephrol 10(5):1100-23 (1999) PMID 10232698
↑ In vivo imaging of molecular targets and their function in endocrinology. J Mol Endocrinol 40(6):253-61 (2008) PMID 18502818
↑ Next-generation optical technologies for illuminating genetically targeted brain circuits. J Neurosci 26(41):10380-6 (2006) PMID 17035522
↑ Advances in renal (patho)physiology using multiphoton microscopy. Kidney Int 72(10):1188-91 (2007) PMID 17667980
↑ Imaging molecular interactions in living cells. Mol Endocrinol 19(7):1675-86 (2005) PMID 15761028
↑ Visualizing protein-protein interactions in the nucleus of the living cell. Mol Endocrinol 13(4):517-26 (1999) PMID 10194758
↑ Laser capture microscopy. Mol Pathol 53(2):64-8 (2000) PMID 10889904
↑ Molecular optical imaging: applications leading to the development of present day therapeutics. NeuroRx 2(2):215-25 (2005) PMID 15897946
↑ Single-shot detection of bacterial endospores via coherent Raman spectroscopy. Proc Natl Acad Sci U S A 105(2):422-7 (2008) PMID 18184801
↑ Scanning tunneling microscopy experiments on single molecular landers. Proc Natl Acad Sci U S A 102(25):8809-14 (2005) PMID 15956190
↑ Fluorescence correlation spectroscopy: diagnostics for sparse molecules. Proc Natl Acad Sci U S A 94(22):11753-7 (1997) PMID 9342306
↑ A few selected applications of surface nonlinear optical spectroscopy. Proc Natl Acad Sci U S A 93(22):12104-11 (1996) PMID 8901540
↑ Far-field optical nanoscopy. Science 316(5828):1153-8 (2007) PMID 17525330
↑ The problem with determining atomic structure at the nanoscale. Science 316(5824):561-5 (2007) PMID 17463280
↑ New directions for fluorescent speckle microscopy. Curr Biol 12(18):R633-40 (2002) PMID 12372272
↑ Atomic force microscopy: a forceful way with single molecules. Curr Biol 9(4):R133-6 (1999) PMID 10074420
↑ Automated subcellular location determination and high-throughput microscopy. Dev Cell 12(1):7-16 (2007) PMID 17199037
↑ Recent developments in the analysis of protein complexes. FEBS Lett 556(1-3):1-6 (2004) PMID 14706816
↑ Structure and action of the nicotinic acetylcholine receptor explored by electron microscopy. FEBS Lett 555(1):91-5 (2003) PMID 14630325
↑ Spectral imaging and its applications in live cell microscopy. FEBS Lett 546(1):87-92 (2003) PMID 12829241
↑ Single particle macromolecular structure determination via electron microscopy. FEBS Lett 505(2):199-205 (2001) PMID 11566176
↑ Imaging domains in model membranes with atomic force microscopy. FEBS Lett 504(3):194-9 (2001) PMID 11532453
↑ Topogenesis of membrane proteins: determinants and dynamics. FEBS Lett 504(3):87-93 (2001) PMID 11532438
↑ Immobilization strategies for biological scanning probe microscopy. FEBS Lett 430(1-2):112-5 (1998) PMID 9678605
↑ Submolecular resolution of single macromolecules with atomic force microscopy. FEBS Lett 430(1-2):51-4 (1998) PMID 9678593
↑ Single molecule biochemistry using optical tweezers. FEBS Lett 430(1-2):23-7 (1998) PMID 9678588
↑ Measuring elasticity of biological materials by atomic force microscopy. FEBS Lett 430(1-2):12-6 (1998) PMID 9678586
↑ Protein dynamics. An overview on flash-photolysis over broad temperature ranges. FEBS Lett 307(1):14-9 (1992) PMID 1639188
↑ Visualizing life on biomembranes by atomic force microscopy. Kidney Int 48(4):923-9 (1995) PMID 8569101
↑ Summary: symposium on optical methods applicable to renal research. Kidney Int 39(1):1-8 (1991) PMID 2002623
↑ Bridging conformational dynamics and function using single-molecule spectroscopy. Structure 14(4):633-43 (2006) PMID 16615904
↑ Building the atomic model for the bacterial flagellar filament by electron cryomicroscopy and image analysis. Structure 13(3):407-12 (2005) PMID 15766542
↑ Molding atomic structures into intermediate-resolution cryo-EM density maps of ribosomal complexes using real-space refinement. Structure 13(3):401-6 (2005) PMID 15766541
↑ Fitting of high-resolution structures into electron microscopy reconstruction images. Structure 13(3):389-400 (2005) PMID 15766540
↑ Electron cryomicroscopy of biological machines at subnanometer resolution. Structure 13(3):363-72 (2005) PMID 15766537
↑ Multiphoton imaging of renal tissues in vitro. Am J Physiol Renal Physiol 288(6):F1079-83 (2005) PMID 15883166
↑ Structural biology with carbon nanotube AFM probes. Chem Biol 7(11):R193-204 (2000) PMID 11094343
↑ A FLASH of insight into cellular chemistry: genetically encoded labels for protein visualization in vivo. Chem Biol 5(12):R317-22 (1998) PMID 9862798
↑ Real-time imaging of gene expression in single living cells. Chem Biol 5(11):R285-90 (1998) PMID 9831531
↑ Combining X-ray crystallography and electron microscopy. Structure 13(3):355-62 (2005) PMID 15766536
↑ Visual methods from atoms to cells. Structure 13(3):347-54 (2005) PMID 15766535
↑ The bacterial ribosome at atomic resolution. Structure 8(10):R195-200 (2000) PMID 11080632

Andere Lexika

Aktuelle Methoden der submikroskopischen Abbildung bei Wikipedia

[PMID16900100-1] Imaging of cell migration. EMBO J 25(15):3480-93 (2006) PMID 16900100

[PMID15238357-2] Fluorescence imaging in living animals. Focus on "Uptake and trafficking of fluorescent conjugates of folic acid in intact kidney determined using intravital two-photon microscopy". Am J Physiol Cell Physiol 287(2):C257-9 (2004) PMID 15238357

[PMID16428346-3] Defining lipid raft structure and function with proximity imaging. Am J Physiol Heart Circ Physiol 290(6):H2165-6 (2006) PMID 16428346

[PMID12851207-4] Multimodal optical imaging. Am J Physiol Lung Cell Mol Physiol 285(2):L269-80 (2003) PMID 12851207

[PMID11943659-5] The time has finally arrived: use of intravital microscopy in the airway circulation. Am J Physiol Lung Cell Mol Physiol 282(5):L957-8 (2002) PMID 11943659

[PMID15883167-6] Intravital multiphoton microscopy of dynamic renal processes. Am J Physiol Renal Physiol 288(6):F1084-9 (2005) PMID 15883167

[PMID10807580-7] Pushing, pulling, dragging, and vibrating renal epithelia by using atomic force microscopy. Am J Physiol Renal Physiol 278(5):F689-701 (2000) PMID 10807580

[PMID16277700-8] Application of in vivo microscopy: evaluating the immune response in living animals. Arthritis Res Ther 7(6):246-52 (2005) PMID 16277700

[PMID3893419-9] New biophysical techniques and their application to the study of membranes. Biochem J 228(2):281-95 (1985) PMID 3893419

[PMID14747353-10] Localization accuracy in single-molecule microscopy. Biophys J 86(2):1185-200 (2004) PMID 14747353

[PMID11106630-11] Biomolecular interactions measured by atomic force microscopy. Biophys J 79(6):3267-81 (2000) PMID 11106630

[PMID1420878-12] Atomic force microscopy of three-dimensional membrane protein crystals. Ca-ATPase of sarcoplasmic reticulum. Biophys J 63(2):303-8 (1992) PMID 1420878

[PMID12502891-13] Multispectral imaging fluorescence microscopy for living cells. Cell Struct Funct 27(5):367-74 (2002) PMID 12502891

[PMID12502890-14] Total internal reflection fluorescence microscopy for single-molecule imaging in living cells. Cell Struct Funct 27(5):357-65 (2002) PMID 12502890

[PMID12502889-15] Spinning-disk confocal microscopy -- a cutting-edge tool for imaging of membrane traffic. Cell Struct Funct 27(5):349-55 (2002) PMID 12502889

[PMID12502887-16] Live cell imaging using wide-field microscopy and deconvolution. Cell Struct Funct 27(5):335-41 (2002) PMID 12502887

[PMID12502886-17] Live cell imaging: approaches for studying protein dynamics in living cells. Cell Struct Funct 27(5):333-4 (2002) PMID 12502886

[PMID15591237-18] Two-photon microscopy of cells and tissue. Circ Res 95(12):1154-66 (2004) PMID 15591237

[PMID15087426-19] Use of chimeric fluorescent proteins and fluorescence resonance energy transfer to monitor cellular responses. Circ Res 94(7):866-73 (2004) PMID 15087426

[PMID15001542-20] Seeing within: molecular imaging of the cardiovascular system. Circ Res 94(4):433-45 (2004) PMID 15001542

[PMID12855669-21] Illuminating sarcoplasmic reticulum calcium. Circ Res 93(1):4-5 (2003) PMID 12855669

[PMID17409577-22] Exocytic process analyzed with two-photon excitation imaging in endocrine pancreas. Endocr J 54(3):337-46 (2007) PMID 17409577

[PMID16807501-23] TIRF microscopy analysis of the mechanism of insulin exocytosis. Endocr J 53(4):433-40 (2006) PMID 16807501

[PMID11976399-24] A new dimension for the development of fluorescence-based assays in solution: from physical principles of FCS detection to biological applications. Exp Biol Med (Maywood) 227(5):291-300 (2002) PMID 11976399

[PMID10232699-25] The art of counting. J Am Soc Nephrol 10(5):1124-5 (1999) PMID 10232699

[PMID10232698-26] Stereologic methods and their application in kidney research. J Am Soc Nephrol 10(5):1100-23 (1999) PMID 10232698

[PMID18502818-27] In vivo imaging of molecular targets and their function in endocrinology. J Mol Endocrinol 40(6):253-61 (2008) PMID 18502818

[PMID17035522-28] Next-generation optical technologies for illuminating genetically targeted brain circuits. J Neurosci 26(41):10380-6 (2006) PMID 17035522

[PMID17667980-29] Advances in renal (patho)physiology using multiphoton microscopy. Kidney Int 72(10):1188-91 (2007) PMID 17667980

[PMID15761028-30] Imaging molecular interactions in living cells. Mol Endocrinol 19(7):1675-86 (2005) PMID 15761028

[PMID10194758-31] Visualizing protein-protein interactions in the nucleus of the living cell. Mol Endocrinol 13(4):517-26 (1999) PMID 10194758

[PMID10889904-32] Laser capture microscopy. Mol Pathol 53(2):64-8 (2000) PMID 10889904

[PMID15897946-33] Molecular optical imaging: applications leading to the development of present day therapeutics. NeuroRx 2(2):215-25 (2005) PMID 15897946

[PMID18184801-34] Single-shot detection of bacterial endospores via coherent Raman spectroscopy. Proc Natl Acad Sci U S A 105(2):422-7 (2008) PMID 18184801

[PMID15956190-35] Scanning tunneling microscopy experiments on single molecular landers. Proc Natl Acad Sci U S A 102(25):8809-14 (2005) PMID 15956190

[PMID9342306-36] Fluorescence correlation spectroscopy: diagnostics for sparse molecules. Proc Natl Acad Sci U S A 94(22):11753-7 (1997) PMID 9342306

[PMID8901540-37] A few selected applications of surface nonlinear optical spectroscopy. Proc Natl Acad Sci U S A 93(22):12104-11 (1996) PMID 8901540

[PMID17525330-38] Far-field optical nanoscopy. Science 316(5828):1153-8 (2007) PMID 17525330

[PMID17463280-39] The problem with determining atomic structure at the nanoscale. Science 316(5824):561-5 (2007) PMID 17463280

[PMID12372272-40] New directions for fluorescent speckle microscopy. Curr Biol 12(18):R633-40 (2002) PMID 12372272

[PMID10074420-41] Atomic force microscopy: a forceful way with single molecules. Curr Biol 9(4):R133-6 (1999) PMID 10074420

[PMID17199037-42] Automated subcellular location determination and high-throughput microscopy. Dev Cell 12(1):7-16 (2007) PMID 17199037

[PMID14706816-43] Recent developments in the analysis of protein complexes. FEBS Lett 556(1-3):1-6 (2004) PMID 14706816

[PMID14630325-44] Structure and action of the nicotinic acetylcholine receptor explored by electron microscopy. FEBS Lett 555(1):91-5 (2003) PMID 14630325

[PMID12829241-45] Spectral imaging and its applications in live cell microscopy. FEBS Lett 546(1):87-92 (2003) PMID 12829241

[PMID11566176-46] Single particle macromolecular structure determination via electron microscopy. FEBS Lett 505(2):199-205 (2001) PMID 11566176

[PMID11532453-47] Imaging domains in model membranes with atomic force microscopy. FEBS Lett 504(3):194-9 (2001) PMID 11532453

[PMID11532438-48] Topogenesis of membrane proteins: determinants and dynamics. FEBS Lett 504(3):87-93 (2001) PMID 11532438

[PMID9678605-49] Immobilization strategies for biological scanning probe microscopy. FEBS Lett 430(1-2):112-5 (1998) PMID 9678605

[PMID9678593-50] Submolecular resolution of single macromolecules with atomic force microscopy. FEBS Lett 430(1-2):51-4 (1998) PMID 9678593

[PMID9678588-51] Single molecule biochemistry using optical tweezers. FEBS Lett 430(1-2):23-7 (1998) PMID 9678588

[PMID9678586-52] Measuring elasticity of biological materials by atomic force microscopy. FEBS Lett 430(1-2):12-6 (1998) PMID 9678586

[PMID1639188-53] Protein dynamics. An overview on flash-photolysis over broad temperature ranges. FEBS Lett 307(1):14-9 (1992) PMID 1639188

[PMID8569101-54] Visualizing life on biomembranes by atomic force microscopy. Kidney Int 48(4):923-9 (1995) PMID 8569101

[PMID2002623-55] Summary: symposium on optical methods applicable to renal research. Kidney Int 39(1):1-8 (1991) PMID 2002623

[PMID16615904-56] Bridging conformational dynamics and function using single-molecule spectroscopy. Structure 14(4):633-43 (2006) PMID 16615904

[PMID15766542-57] Building the atomic model for the bacterial flagellar filament by electron cryomicroscopy and image analysis. Structure 13(3):407-12 (2005) PMID 15766542

[PMID15766541-58] Molding atomic structures into intermediate-resolution cryo-EM density maps of ribosomal complexes using real-space refinement. Structure 13(3):401-6 (2005) PMID 15766541

[PMID15766540-59] Fitting of high-resolution structures into electron microscopy reconstruction images. Structure 13(3):389-400 (2005) PMID 15766540

[PMID15766537-60] Electron cryomicroscopy of biological machines at subnanometer resolution. Structure 13(3):363-72 (2005) PMID 15766537

[PMID15883166-61] Multiphoton imaging of renal tissues in vitro. Am J Physiol Renal Physiol 288(6):F1079-83 (2005) PMID 15883166

[PMID11094343-62] Structural biology with carbon nanotube AFM probes. Chem Biol 7(11):R193-204 (2000) PMID 11094343

[PMID9862798-63] A FLASH of insight into cellular chemistry: genetically encoded labels for protein visualization in vivo. Chem Biol 5(12):R317-22 (1998) PMID 9862798

[PMID9831531-64] Real-time imaging of gene expression in single living cells. Chem Biol 5(11):R285-90 (1998) PMID 9831531

[PMID15766536-65] Combining X-ray crystallography and electron microscopy. Structure 13(3):355-62 (2005) PMID 15766536

[PMID15766535-66] Visual methods from atoms to cells. Structure 13(3):347-54 (2005) PMID 15766535

[PMID11080632-67] The bacterial ribosome at atomic resolution. Structure 8(10):R195-200 (2000) PMID 11080632

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@@ Zeile 2: / Zeile 2: @@
 {| class="wikitable" |
 | bgcolor="#dfdfdf" | '''Freie Übersichtsartikel'''
-| align="left" width="800" |<ref name="PMID16900100">Imaging of cell migration. EMBO J 25(15):3480-93 (2006) PMID 16900100 </ref>
+| align="left" width="800" |<ref name="PMID16900100">Imaging of cell migration. EMBO J 25(15):3480-93 (2006) PMID 16900100 </ref><ref name="PMID15238357">Fluorescence imaging in living animals. Focus on &quot;Uptake and trafficking of fluorescent conjugates of folic acid in intact kidney determined using intravital two-photon microscopy&quot;. Am J Physiol Cell Physiol 287(2):C257-9 (2004) PMID 15238357 </ref><ref name="PMID16428346">Defining lipid raft structure and function with proximity imaging. Am J Physiol Heart Circ Physiol 290(6):H2165-6 (2006) PMID 16428346 </ref><ref name="PMID12851207">Multimodal optical imaging. Am J Physiol Lung Cell Mol Physiol 285(2):L269-80 (2003) PMID 12851207 </ref><ref name="PMID11943659">The time has finally arrived: use of intravital microscopy in the airway circulation. Am J Physiol Lung Cell Mol Physiol 282(5):L957-8 (2002) PMID 11943659 </ref><ref name="PMID15883167">Intravital multiphoton microscopy of dynamic renal processes. Am J Physiol Renal Physiol 288(6):F1084-9 (2005) PMID 15883167 </ref><ref name="PMID10807580">Pushing, pulling, dragging, and vibrating renal epithelia by using atomic force microscopy. Am J Physiol Renal Physiol 278(5):F689-701 (2000) PMID 10807580 </ref><ref name="PMID16277700">Application of in vivo microscopy: evaluating the immune response in living animals. Arthritis Res Ther 7(6):246-52 (2005) PMID 16277700 </ref><ref name="PMID3893419">New biophysical techniques and their application to the study of membranes. Biochem J 228(2):281-95 (1985) PMID 3893419 </ref><ref name="PMID14747353">Localization accuracy in single-molecule microscopy. Biophys J 86(2):1185-200 (2004) PMID 14747353 </ref><ref name="PMID11106630">Biomolecular interactions measured by atomic force microscopy. Biophys J 79(6):3267-81 (2000) PMID 11106630 </ref><ref name="PMID1420878">Atomic force microscopy of three-dimensional membrane protein crystals. Ca-ATPase of sarcoplasmic reticulum. Biophys J 63(2):303-8 (1992) PMID 1420878 </ref><ref name="PMID12502891">Multispectral imaging fluorescence microscopy for living cells. Cell Struct Funct 27(5):367-74 (2002) PMID 12502891 </ref><ref name="PMID12502890">Total internal reflection fluorescence microscopy for single-molecule imaging in living cells. Cell Struct Funct 27(5):357-65 (2002) PMID 12502890 </ref><ref name="PMID12502889">Spinning-disk confocal microscopy -- a cutting-edge tool for imaging of membrane traffic. Cell Struct Funct 27(5):349-55 (2002) PMID 12502889 </ref><ref name="PMID12502887">Live cell imaging using wide-field microscopy and deconvolution. Cell Struct Funct 27(5):335-41 (2002) PMID 12502887 </ref><ref name="PMID12502886">Live cell imaging: approaches for studying protein dynamics in living cells. Cell Struct Funct 27(5):333-4 (2002) PMID 12502886 </ref><ref name="PMID15591237">Two-photon microscopy of cells and tissue. Circ Res 95(12):1154-66 (2004) PMID 15591237 </ref><ref name="PMID15087426">Use of chimeric fluorescent proteins and fluorescence resonance energy transfer to monitor cellular responses. Circ Res 94(7):866-73 (2004) PMID 15087426 </ref><ref name="PMID15001542">Seeing within: molecular imaging of the cardiovascular system. Circ Res 94(4):433-45 (2004) PMID 15001542 </ref><ref name="PMID12855669">Illuminating sarcoplasmic reticulum calcium. Circ Res 93(1):4-5 (2003) PMID 12855669 </ref><ref name="PMID17409577">Exocytic process analyzed with two-photon excitation imaging in endocrine pancreas. Endocr J 54(3):337-46 (2007) PMID 17409577 </ref><ref name="PMID16807501">TIRF microscopy analysis of the mechanism of insulin exocytosis. Endocr J 53(4):433-40 (2006) PMID 16807501 </ref><ref name="PMID11976399">A new dimension for the development of fluorescence-based assays in solution: from physical principles of FCS detection to biological applications. Exp Biol Med (Maywood) 227(5):291-300 (2002) PMID 11976399 </ref><ref name="PMID10232699">The art of counting. J Am Soc Nephrol 10(5):1124-5 (1999) PMID 10232699 </ref><ref name="PMID10232698">Stereologic methods and their application in kidney research. J Am Soc Nephrol 10(5):1100-23 (1999) PMID 10232698 </ref><ref name="PMID18502818">In vivo imaging of molecular targets and their function in endocrinology. J Mol Endocrinol 40(6):253-61 (2008) PMID 18502818 </ref><ref name="PMID17035522">Next-generation optical technologies for illuminating genetically targeted brain circuits. J Neurosci 26(41):10380-6 (2006) PMID 17035522 </ref><ref name="PMID17667980">Advances in renal (patho)physiology using multiphoton microscopy. Kidney Int 72(10):1188-91 (2007) PMID 17667980 </ref><ref name="PMID15761028">Imaging molecular interactions in living cells. Mol Endocrinol 19(7):1675-86 (2005) PMID 15761028 </ref><ref name="PMID10194758">Visualizing protein-protein interactions in the nucleus of the living cell. Mol Endocrinol 13(4):517-26 (1999) PMID 10194758 </ref><ref name="PMID10889904">Laser capture microscopy. Mol Pathol 53(2):64-8 (2000) PMID 10889904 </ref><ref name="PMID15897946">Molecular optical imaging: applications leading to the development of present day therapeutics. NeuroRx 2(2):215-25 (2005) PMID 15897946 </ref><ref name="PMID18184801">Single-shot detection of bacterial endospores via coherent Raman spectroscopy. Proc Natl Acad Sci U S A 105(2):422-7 (2008) PMID 18184801 </ref><ref name="PMID15956190">Scanning tunneling microscopy experiments on single molecular landers. Proc Natl Acad Sci U S A 102(25):8809-14 (2005) PMID 15956190 </ref><ref name="PMID9342306">Fluorescence correlation spectroscopy: diagnostics for sparse molecules. Proc Natl Acad Sci U S A 94(22):11753-7 (1997) PMID 9342306 </ref><ref name="PMID8901540">A few selected applications of surface nonlinear optical spectroscopy. Proc Natl Acad Sci U S A 93(22):12104-11 (1996) PMID 8901540 </ref><ref name="PMID17525330">Far-field optical nanoscopy. Science 316(5828):1153-8 (2007) PMID 17525330 </ref><ref name="PMID17463280">The problem with determining atomic structure at the nanoscale. Science 316(5824):561-5 (2007) PMID 17463280 </ref><ref name="PMID12372272">New directions for fluorescent speckle microscopy. Curr Biol 12(18):R633-40 (2002) PMID 12372272 </ref><ref name="PMID10074420">Atomic force microscopy: a forceful way with single molecules. Curr Biol 9(4):R133-6 (1999) PMID 10074420 </ref><ref name="PMID17199037">Automated subcellular location determination and high-throughput microscopy. Dev Cell 12(1):7-16 (2007) PMID 17199037 </ref><ref name="PMID14706816">Recent developments in the analysis of protein complexes. 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Aktuelle Methoden der submikroskopischen Abbildung: Unterschied zwischen den Versionen

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