LE WE PMID CA
Structure determination at molecular level and finer85Methoden der molekularen und submolekularen Strukturanalyse

Actin

Amyloidosis

Angiogenesis

Aquaporin

Bacteriophage

Bicelles (Biomembran)

Bioinformatics

Biomembranes (BASKET)

Bose Einstein condensation

Catalysts

Cell (Biomechanics)

Chromatin

Chromosome (BASKET)

Data base (Medicine Biology Pharmacology)

DNA (binding proteins)

DNA (Structure)

Electron tomography

Enzyme structure and chemistry

Fluorophore

FRET microscopy

Glycome

Graphene

Immunfluorescence Fluorochrome

Interventional radiology

Laser (Physics)

Lysozyme

Magnetic circular dichroism

MALDI imaging mass spectrometry

Mass spectrometry

Mechanics of fluids

Microfluidics

Myosin

Nanomedicine

Natural products

Neutrons

Oligosaccharides

Optics and waves

Protein (folding)

Protein (Ontology and function prediction)

Protein (protein binding)

Protein (ptm lipidate)

Quantum dot

Raman spectroscopy

Restriction endonuclease

RNA (Polymerase)

RNA (Structure)

Selen

Semiconductor

Sequencing (Nucleic acids)

Spin label

Structure det. tissue level to single molecule localization

Structure determination at molecular level and finer

Surface plasmon resonance

Synchrotron radiation

THz imaging terahertz

TRPP2

TRPV4

Virus (BASKET)

X rays

2005  
1
Introduction to 3D reconstruction of macromolecules using single particle electron microscopy.
[16174429] Acta Pharmacol Sin 26(10): 1153-64 (2005)
2001  
2
Critically assessing the state-of-the-art in protein structure prediction.
[11911439] Pharmacogenomics J 1(2): 126-34 (2001)
2008  
3
A comparative study of the reported performance of ab initio protein structure prediction algorithms.
[18077243] J R Soc Interface 5(21): 387-96 (2008)
2008  
4
Problems in fitting high resolution structures into electron microscopic reconstructions.
[19436497] HFSP J 2(6): 324-31 (2008)
2008  
5
Studying the folding of multidomain proteins.
[19436439] HFSP J 2(6): 365-77 (2008)
2007  
6
Attaching a spin to a protein -- site-directed spin labeling in structural biology.
[17565387] Acta Biochim Pol 54(2): 235-44 (2007)
2005  
7
Protein modeling with reduced representation: statistical potentials and protein folding mechanism.
[15933762] Acta Biochim Pol 52(4): 741-8 (2005)
2004  
8
Protein modeling and structure prediction with a reduced representation.
[15218533] Acta Biochim Pol 51(2): 349-71 (2004)
2004  
9
Probing protein structure by limited proteolysis.
[15218531] Acta Biochim Pol 51(2): 299-321 (2004)
2001  
10
Methods of peptide conformation studies.
[11995971] Acta Biochim Pol 48(4): 1091-9 (2001)
1999  
11
Folding initiation sites and protein folding.
[10698262] Acta Biochim Pol 46(3): 487-508 (1999)
1996  
12
Applications of impedance spectroscopy in biochemistry and biophysics.
[8862179] Acta Biochim Pol 43(2): 339-48 (1996)
1995  
13
Rapid non-empirical approaches for estimating relative binding free energies.
[8852343] Acta Biochim Pol 42(4): 525-35 (1995)
1991  
14
Modelling of structure and function of proteins and nucleic acids.
[1799109] Acta Biochim Pol 38(3): 281-93 (1991)
2008  
15
Visualizing lowly-populated regions of the free energy landscape of macromolecular complexes by paramagnetic relaxation enhancement.
[18931781] Mol Biosyst 4(11): 1058-69 (2008)
2009  
16
Domain-elongation NMR spectroscopy yields new insights into RNA dynamics and adaptive recognition.
[19776156] RNA 15(11): 1941-8 (2009)
2006  
17
Statistical and Bayesian approaches to RNA secondary structure prediction.
[16495231] RNA 12(3): 323-31 (2006)
2003  
18
Ab initio protein structure prediction using pathway models.
[18629080] Comp Funct Genomics 4(4): 397-401 (2003)
2008  
19
Structure-based function prediction: approaches and applications.
[18599513] Brief Funct Genomic Proteomic 7(4): 291-302 (2008)
2006  
20
Towards genome-scale structure prediction for transmembrane proteins.
[16524835] Philos Trans R Soc Lond B Biol Sci 361(1467): 465-75 (2006)
2006  
21
Prediction and design of macromolecular structures and interactions.
[16524834] Philos Trans R Soc Lond B Biol Sci 361(1467): 459-63 (2006)
2006  
22
Rigorous performance evaluation in protein structure modelling and implications for computational biology.
[16524833] Philos Trans R Soc Lond B Biol Sci 361(1467): 453-8 (2006)
2006  
23
Exploiting protein structure data to explore the evolution of protein function and biological complexity.
[16524831] Philos Trans R Soc Lond B Biol Sci 361(1467): 425-40 (2006)
2006  
24
Structural biology and bioinformatics in drug design: opportunities and challenges for target identification and lead discovery.
[16524830] Philos Trans R Soc Lond B Biol Sci 361(1467): 413-23 (2006)
2005  
25
2009  
26
Bioinformatic approaches for the structure and function of membrane proteins.
[19944009] BMB Rep 42(11): 697-704 (2009)
2008  
27
Application of hybrid LRR technique to protein crystallization.
[18510864] BMB Rep 41(5): 353-7 (2008)
1986  
28
Infra-red and Raman spectroscopic studies of enzyme structure and function.
[3513759] Biochem J 233(1): 25-36 (1986)
1985  
29
The study of conformational states of proteins by nuclear magnetic resonance.
[2998335] Biochem J 231(1): 1-10 (1985)
1990  
30
Three-dimensional structures of proteins determined by two-dimensional NMR and distance geometry calculations.
[2085839] Cell Struct Funct 15(5): 237-43 (1990)
1999  
31
Raman spectroscopy, the sleeping giant in structural biology, awakes.
[10480862] J Biol Chem 274(38): 26625-8 (1999)
1990  
32
Protein structure determination in solution by NMR spectroscopy.
[2266107] J Biol Chem 265(36): 22059-62 (1990)
1992  
33
Computer programs to identify and classify amphipathic alpha helical domains.
[1569380] J Lipid Res 33(2): 287-96 (1992)
2000  
34
2005  
35
Practical lessons from protein structure prediction.
[15805122] Nucleic Acids Res 33(6): 1874-91 (2005)
2005  
36
Ab initio molecular dynamics: concepts, recent developments, and future trends.
[15870204] Proc Natl Acad Sci U S A 102(19): 6654-9 (2005)
1994  
37
The emergence of mass spectrometry in biochemical research.
[7972052] Proc Natl Acad Sci U S A 91(24): 11290-7 (1994)
2002  
38
Protein folding and unfolding at atomic resolution.
[11909527] Cell 108(4): 573-82 (2002)
2005  
39
Solution nuclear magnetic resonance spectroscopy techniques for probing intermolecular interactions.
[16183020] Chem Biol 12(9): 961-71 (2005)
1999  
40
Structure prediction: The state of the art.
[10209093] Curr Biol 9(6): R205-9 (1999)
1998  
41
1995  
42
Structure prediction. How good are we?
[7583096] Curr Biol 5(5): 488-90 (1995)
2003  
43
NMR solution structure determination of membrane proteins reconstituted in detergent micelles.
[14630335] FEBS Lett 555(1): 144-50 (2003)
2003  
44
Some recent contributions of FTIR difference spectroscopy to the study of cytochrome oxidase.
[14630310] FEBS Lett 555(1): 2-7 (2003)
2002  
45
The direct determination of protein structure by NMR without assignment.
[11755519] FEBS Lett 510(1-2): 1-4 (2002)
2001  
46
Two-dimensional crystallization of membrane proteins: the lipid layer strategy.
[11532452] FEBS Lett 504(3): 187-93 (2001)
2001  
47
Molecular mechanism for the crystallization of bacteriorhodopsin in lipidic cubic phases.
[11532451] FEBS Lett 504(3): 179-86 (2001)
2001  
48
Two-dimensional crystals: a powerful approach to assess structure, function and dynamics of membrane proteins.
[11532449] FEBS Lett 504(3): 166-72 (2001)
2001  
49
Solid-state NMR investigations of interaction contributions that determine the alignment of helical polypeptides in biological membranes.
[11532448] FEBS Lett 504(3): 161-5 (2001)
2000  
50
Substrate binding and enzyme function investigated by infrared spectroscopy.
[10908712] FEBS Lett 477(3): 151-6 (2000)
1998  
51
Mapping flexible protein domains at subnanometer resolution with the atomic force microscope.
[9678604] FEBS Lett 430(1-2): 105-11 (1998)
1994  
52
Rapid validation of molecular structures of biological samples by electrospray-mass spectrometry.
[8143839] FEBS Lett 342(1): 1-6 (1994)
1985  
53
Probing the three-dimensional structures of DNA and RNA oligonucleotides in solution by nuclear Overhauser enhancement measurements.
[2981703] FEBS Lett 179(2): 187-98 (1985)
2005  
54
Protein structure prediction: inroads to biology.
[16364908] Mol Cell 20(6): 811-9 (2005)
2006  
55
Oligomeric structure, dynamics, and orientation of membrane proteins from solid-state NMR.
[17161364] Structure 14(12): 1731-40 (2006)
2000  
56
Does NMR mean "not for molecular replacement"? Using NMR-based search models to solve protein crystal structures.
[11080645] Structure 8(11): R213-20 (2000)
2000  
57
Screening for phasing atoms in protein crystallography.
[10903954] Structure 8(7): R143-9 (2000)
2000  
58
Strategies for macromolecular synchrotron crystallography.
[10801499] Structure 8(5): R105-10 (2000)
1999  
59
Establishing a degree of order: obtaining high-resolution NMR structures from molecular alignment.
[10610262] Structure 7(9): R205-11 (1999)
1999  
60
New tricks for modelers from the crystallography toolkit: the particle mesh Ewald algorithm and its use in nucleic acid simulations.
[10368306] Structure 7(3): R55-60 (1999)
1998  
61
Crystallographic water sites from a theoretical perspective.
[9817850] Structure 6(11): 1351-4 (1998)
1997  
62
New applications of simulated annealing in X-ray crystallography and solution NMR.
[9083112] Structure 5(3): 325-36 (1997)
1996  
63
Diffraction data deposition.
[8805528] Structure 4(2): 217 (1996)
1996  
64
Third-generation synchrotron radiation X-ray optics.
[8805526] Structure 4(2): 121-5 (1996)
1995  
65
The use of antibody fragments for crystallization and structure determinations.
[8747455] Structure 3(12): 1291-3 (1995)
1995  
66
Weighing the evidence for structure: electrospray ionization mass spectrometry of proteins.
[8535780] Structure 3(9): 861-5 (1995)
1995  
67
The science of macromolecular crystallization.
[7582893] Structure 3(8): 759-68 (1995)
1998  
68
Recommendations for the presentation of NMR structures of proteins and nucleic acids--IUPAC-IUBMB-IUPAB Inter-Union Task Group on the standardization of data bases of protein and nucleic acid structures determined by NMR spectroscopy.
[9746340] Eur J Biochem 256(1): 1-15 (1998)
1990  
69
Current approaches to macromolecular crystallization.
[2185018] Eur J Biochem 189(1): 1-23 (1990)
1989  
70
NMR studies of mobility within protein structure.
[2673776] Eur J Biochem 183(3): 479-97 (1989)
1988  
71
Nucleic acids and nuclear magnetic resonance.
[3060357] Eur J Biochem 178(1): 1-38 (1988)
2008  
72
Mass spectrometry and the emerging field of glycomics.
[18804025] Chem Biol 15(9): 881-92 (2008)
2003  
73
Electrospray ionisation mass spectrometry: principles and clinical applications.
[18568044] Clin Biochem Rev 24(1): 3-12 (2003)
2008  
74
Molecular breast imaging: use of a dual-head dedicated gamma camera to detect small breast tumors.
[19020253] AJR Am J Roentgenol 191(6): 1805-15 (2008)
2007  
75
Imaging of angiogenesis: clinical techniques and novel imaging methods.
[17179341] AJR Am J Roentgenol 188(1): 11-23 (2007)
2000  
76
Quantitative characterization of reversible macromolecular associations via sedimentation equilibrium: an introduction.
[10762054] Exp Mol Med 32(1): 1-5 (2000)
2007  
77
Glutamate receptors as seen by light: spectroscopic studies of structure-function relationships.
[17934637] Braz J Med Biol Res 40(11): 1419-27 (2007)
2010  
78
Selenium incorporation using recombinant techniques.
[20382987] Acta Crystallogr D Biol Crystallogr 66(Pt 4): 352-7 (2010)
2007  
79
So how do you know you have a macromolecular complex?
[17164522] Acta Crystallogr D Biol Crystallogr 63(Pt 1): 17-25 (2007)
2007  
80
Computational analyses of the surface properties of protein-protein interfaces.
[17164526] Acta Crystallogr D Biol Crystallogr 63(Pt 1): 50-7 (2007)
2007  
81
2007  
82
The use of biophysical methods increases success in obtaining liganded crystal structures.
[17164528] Acta Crystallogr D Biol Crystallogr 63(Pt 1): 62-71 (2007)
2007  
83
2008  
84
2008  
85
The befores and afters of molecular replacement.
[18094463] Acta Crystallogr D Biol Crystallogr 64(Pt 1): 17-24 (2008)
2010  
86
X-ray structure of perdeuterated diisopropyl fluorophosphatase (DFPase): perdeuteration of proteins for neutron diffraction.
[20383004] Acta Crystallogr Sect F Struct Biol Cryst Commun 66(Pt 4): 379-85 (2010)
2008  
87
Validation of macromolecular structures: updating standards for publication of NMR structures in an IUCr journal.
[18259050] Acta Crystallogr Sect F Struct Biol Cryst Commun 64(Pt 2): 63 (2008)
2010  
88
Present and future of membrane protein structure determination by electron crystallography.
[21115172] Adv Protein Chem Struct Biol 81(-): 33-60 (2010)
2007  
89
Fourier transform infrared spectroscopic analysis of protein secondary structures.
[17687489] Acta Biochim Biophys Sin (Shanghai) 39(8): 549-59 (2007)
2010  
90
Personal remarks on the future of protein crystallography and structural biology.
[20725645] Acta Biochim Pol 57(3): 261-4 (2010)
2011  
91
Near-atomic resolution reconstructions of icosahedral viruses from electron cryo-microscopy.
[21333526] Curr Opin Struct Biol 21(2): 265-73 (2011)
2010  
92
Unmet challenges of structural genomics.
[20810277] Curr Opin Struct Biol 20(5): 587-97 (2010)
2010  
93
Higher throughput calorimetry: opportunities, approaches and challenges.
[20888754] Curr Opin Struct Biol 20(5): 598-605 (2010)
2008  
94
Protein dynamics from time resolved UV Raman spectroscopy.
[18606227] Curr Opin Struct Biol 18(5): 623-9 (2008)
2008  
95
Neutron crystallography: opportunities, challenges, and limitations.
[18656544] Curr Opin Struct Biol 18(5): 593-600 (2008)
2008  
96
Overcoming the challenges of membrane protein crystallography.
[18674618] Curr Opin Struct Biol 18(5): 581-6 (2008)
2010  
97
Bridging the solution divide: comprehensive structural analyses of dynamic RNA, DNA, and protein assemblies by small-angle X-ray scattering.
[20097063] Curr Opin Struct Biol 20(1): 128-37 (2010)
2010  
98
Understanding biology by stretching proteins: recent progress.
[20138503] Curr Opin Struct Biol 20(1): 63-9 (2010)
2007  
99
Revival of electron crystallography.
[17723294] Curr Opin Struct Biol 17(4): 389-95 (2007)
2007  
100
Synergy within structural biology of single crystal optical spectroscopy and X-ray crystallography.
[17959373] Curr Opin Struct Biol 17(5): 580-6 (2007)
2007  
101
2007  
102
Elucidating transient macromolecular interactions using paramagnetic relaxation enhancement.
[17913493] Curr Opin Struct Biol 17(5): 603-16 (2007)
2009  
103
Convergence and combination of methods in protein-protein docking.
[19327983] Curr Opin Struct Biol 19(2): 164-70 (2009)
2009  
104
Hybrid approaches: applying computational methods in cryo-electron microscopy.
[19339173] Curr Opin Struct Biol 19(2): 218-25 (2009)
2009  
105
Engineering of recombinant crystallization chaperones.
[19477632] Curr Opin Struct Biol 19(4): 449-57 (2009)
2009  
106
Lipid-protein interactions probed by electron crystallography.
[19679462] Curr Opin Struct Biol 19(5): 560-5 (2009)
2009  
107
Recent developments in phasing and structure refinement for macromolecular crystallography.
[19700309] Curr Opin Struct Biol 19(5): 566-72 (2009)
2008  
108
Towards atomic resolution structural determination by single-particle cryo-electron microscopy.
[18403197] Curr Opin Struct Biol 18(2): 218-28 (2008)
2008  
109
Experimental approaches for solution X-ray scattering and fiber diffraction.
[18801437] Curr Opin Struct Biol 18(5): 601-8 (2008)
2008  
110
Electron crystallography of proteins in membranes.
[18755273] Curr Opin Struct Biol 18(5): 587-92 (2008)
2009  
111
Exploring conformational modes of macromolecular assemblies by multiparticle cryo-EM.
[19767196] Curr Opin Struct Biol 19(5): 623-31 (2009)
2009  
112
High-throughput crystallography for structural genomics.
[19765976] Curr Opin Struct Biol 19(5): 573-84 (2009)
2009  
113
Membrane protein structure determination using cryo-electron tomography and 3D image averaging.
[19646859] Curr Opin Struct Biol 19(4): 402-7 (2009)
2008  
114
Protein folding studied by single-molecule FRET.
[18221865] Curr Opin Struct Biol 18(1): 16-26 (2008)
2010  
115
A method for solution NMR structural studies of large integral membrane proteins: reverse micelle encapsulation.
[19665988] Biochim Biophys Acta 1798(2): 150-60 (2010)
2010  
116
Infrared reflection-absorption spectroscopy: principles and applications to lipid-protein interaction in Langmuir films.
[20004639] Biochim Biophys Acta 1798(4): 788-800 (2010)
2007  
117
Solution NMR of membrane proteins in bilayer mimics: small is beautiful, but sometimes bigger is better.
[17961504] Biochim Biophys Acta 1768(12): 3098-106 (2007)
2005  
118
Fluorescence methods to detect phase boundaries in lipid bilayer mixtures.
[15992943] Biochim Biophys Acta 1746(3): 186-92 (2005)
2010  
119
Interventional molecular imaging.
[20177082] Radiology 254(3): 651-4 (2010)
2003  
120
2004  
121
The structure of the rigor complex and its implications for the power stroke.
[15647158] Philos Trans R Soc Lond B Biol Sci 359(1452): 1819-28 (2004)
2002  
122
From structure to mechanism: electron crystallographic studies of bacteriorhodopsin.
[12804283] Philos Transact A Math Phys Eng Sci 360(1794): 859-74 (2002)
2002  
123
Phase recovery and lensless imaging by iterative methods in optical, X-ray and electron diffraction.
[12804284] Philos Transact A Math Phys Eng Sci 360(1794): 875-95 (2002)
2002  
124
2002  
125
A review of recent work in sub-nanometre displacement measurement using optical and X-ray interferometry.
[12804288] Philos Transact A Math Phys Eng Sci 360(1794): 953-68 (2002)
2002  
126
Computational challenges in atomic, molecular and optical physics.
[12804270] Philos Transact A Math Phys Eng Sci 360(1795): 1135-47 (2002)
2010  
127
Micrographia of the twenty-first century: from camera obscura to 4D microscopy.
[20123754] Philos Transact A Math Phys Eng Sci 368(1914): 1191-204 (2010)
2005  
128
Bose-Einstein condensates and precision measurements.
[16147504] Philos Transact A Math Phys Eng Sci 363(1834): 2165-75 (2005)
2004  
129
2004  
130
Near-field optical patterning and structuring based on local-field enhancement at the extremity of a metal tip.
[15306496] Philos Transact A Math Phys Eng Sci 362(1817): 821-42 (2004)
2004  
131
Ultrafast near-field spectroscopy of single semiconductor quantum dots.
[15306498] Philos Transact A Math Phys Eng Sci 362(1817): 861-79 (2004)
2004  
132
2004  
133
The scanning tunnelling microscope as an operative tool: doing physics and chemistry with single atoms and molecules.
[15306472] Philos Transact A Math Phys Eng Sci 362(1819): 1207-16 (2004)
2004  
134
Atomic-scale STM experiments on semiconductor surfaces: towards molecular nanomachines.
[15306473] Philos Transact A Math Phys Eng Sci 362(1819): 1217-26 (2004)
2004  
135
2004  
136
2004  
137
2004  
138
2004  
139
Label-free THz sensing of genetic sequences: towards 'THz biochips'.
[15306523] Philos Transact A Math Phys Eng Sci 362(1815): 323-33; discussion 333-5 (2004)
2004  
140
2004  
141
Raman scattering of non-planar graphite: arched edges, polyhedral crystals, whiskers and cones.
[15482980] Philos Transact A Math Phys Eng Sci 362(1824): 2289-310 (2004)
2004  
142
Raman spectroscopy of fullerenes and fullerene-nanotube composites.
[15482984] Philos Transact A Math Phys Eng Sci 362(1824): 2375-406 (2004)
2004  
143
Raman spectroscopy of amorphous, nanostructured, diamond-like carbon, and nanodiamond.
[15482988] Philos Transact A Math Phys Eng Sci 362(1824): 2477-512 (2004)
2004  
144
Scanning tunnelling microscopy of carbon nanotubes.
[15370477] Philos Transact A Math Phys Eng Sci 362(1823): 2187-203 (2004)
2004  
145
'Molecular photography': velocity-map imaging of chemical events.
[15539360] Philos Transact A Math Phys Eng Sci 362(1825): 2591-609 (2004)
2005  
146
The energy landscape as a unifying theme in molecular science.
[15664888] Philos Transact A Math Phys Eng Sci 363(1827): 357-75; discussion 375-7 (2005)
2005  
147
Towards complete descriptions of the free-energy landscapes of proteins.
[15664892] Philos Transact A Math Phys Eng Sci 363(1827): 433-50; discussion 450-2 (2005)
2005  
148
2005  
149
Experimental configurational landscapes in aqueous solutions.
[15664894] Philos Transact A Math Phys Eng Sci 363(1827): 469-90; discussion 490-2 (2005)
2005  
150
2005  
151
Exploring the temperature-pressure configurational landscape of biomolecules: from lipid membranes to proteins.
[15664898] Philos Transact A Math Phys Eng Sci 363(1827): 537-62; discussion 562-3 (2005)
2005  
152
Physical landscapes in biological membranes: physico-chemical terrains for spatio-temporal control of biomolecular interactions and behaviour.
[15664900] Philos Transact A Math Phys Eng Sci 363(1827): 575-88 (2005)
2005  
153
Diffraction, crystallography and microscopy beyond three dimensions: structural dynamics in space and time.
[15664902] Philos Transact A Math Phys Eng Sci 363(1827): 315-29 (2005)
2003  
154
Recent advances in electron imaging, image interpretation and applications: environmental scanning electron microscopy.
[14667297] Philos Transact A Math Phys Eng Sci 361(1813): 2771-87 (2003)
2003  
155
Near-field microscopy: throwing light on the nanoworld.
[14667301] Philos Transact A Math Phys Eng Sci 361(1813): 2843-57 (2003)
2008  
156
Principles of atomic friction: from sticking atoms to superlubric sliding.
[18156127] Philos Transact A Math Phys Eng Sci 366(1869): 1383-404 (2008)
2005  
157
Advances in protein complex analysis using mass spectrometry.
[15611014] J Physiol 563(Pt 1): 11-21 (2005)
2005  
158
Quantitative functional analysis of protein complexes on surfaces.
[15613368] J Physiol 563(Pt 1): 61-71 (2005)
2006  
159
X-ray scattering of non-crystalline biological systems using synchrotron radiation.
[16444294] Chem Soc Rev 35(2): 123-33 (2006)
2006  
160
Addressing metal centres in supramolecular assemblies.
[17057835] Chem Soc Rev 35(11): 1056-67 (2006)
2004  
161
Research applications of the Cambridge Structural Database (CSD).
[15480471] Chem Soc Rev 33(8): 463-75 (2004)
2004  
162
Low temperature single crystal X-ray diffraction: advantages, instrumentation and applications.
[15480473] Chem Soc Rev 33(8): 490-500 (2004)
2004  
163
Single-crystal X-ray diffraction studies of photo-induced molecular species.
[15480474] Chem Soc Rev 33(8): 501-13 (2004)
2004  
164
Polarimetric imaging of crystals.
[15480475] Chem Soc Rev 33(8): 514-25 (2004)
2004  
165
Beyond classical applications of powder diffraction.
[15480477] Chem Soc Rev 33(8): 539-47 (2004)
2004  
166
Synchrotron and neutron techniques in biological crystallography.
[15480478] Chem Soc Rev 33(8): 548-57 (2004)
2004  
167
High-throughput protein crystallography and drug discovery.
[15480479] Chem Soc Rev 33(8): 558-65 (2004)
2007  
168
Deep non-invasive Raman spectroscopy of living tissue and powders.
[17619689] Chem Soc Rev 36(8): 1292-304 (2007)
2007  
169
Catalysis resolved using scanning tunnelling microscopy.
[17721588] Chem Soc Rev 36(10): 1656-73 (2007)
2007  
170
Nanotomography in the chemical, biological and materials sciences.
[17660880] Chem Soc Rev 36(9): 1477-94 (2007)
2005  
171
2005  
172
Photoelectron spectroscopy without photoelectrons: twenty years of ZEKE spectroscopy.
[16239995] Chem Soc Rev 34(11): 935-48 (2005)
2005  
173
Femtosecond lasers in gas phase chemistry.
[16239996] Chem Soc Rev 34(11): 949-69 (2005)
2008  
174
Femtosecond spectroscopy of cluster anions: insights into condensed-phase phenomena from the gas-phase.
[18224260] Chem Soc Rev 37(3): 505-17 (2008)
2008  
175
Determining accurate molecular sizes in solution through NMR diffusion spectroscopy.
[18224258] Chem Soc Rev 37(3): 479-89 (2008)
2005  
176
Exploring supramolecular interactions and architectures by scanning force microscopies.
[15965537] Chem Soc Rev 34(7): 551-61 (2005)
2009  
177
Visualization of molecular interactions using bimolecular fluorescence complementation analysis: characteristics of protein fragment complementation.
[19771334] Chem Soc Rev 38(10): 2876-86 (2009)
2006  
178
Solid state 17O NMR-an introduction to the background principles and applications to inorganic materials.
[16862272] Chem Soc Rev 35(8): 718-35 (2006)
2011  
179
Mining electron density for functionally relevant protein polysterism in crystal structures.
[21190057] Cell Mol Life Sci 68(11): 1829-41 (2011)
2010  
180
From protein sequences to 3D-structures and beyond: the example of the UniProt knowledgebase.
[20043185] Cell Mol Life Sci 67(7): 1049-64 (2010)
2009  
181
Probing the macromolecular organization of cells by electron tomography.
[19185480] Curr Opin Cell Biol 21(1): 89-96 (2009)
2010  
182
Visualizing protein-DNA interactions at the single-molecule level.
[19945909] Curr Opin Chem Biol 14(1): 15-22 (2010)
2010  
183
Structure elucidation of dimeric transmembrane domains of bitopic proteins.
[20421711] Cell Adh Migr 4(2): 284-98 (2010)
2007  
184
2005  
185
Prediction of protein function from structure: insights from methods for the detection of local structural similarities.
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Electron-nuclear double resonance spectroscopy (and electron spin-echo envelope modulation spectroscopy) in bioinorganic chemistry.
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Enhancing single molecule imaging in optofluidics and microfluidics.
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Matrix-assisted laser desorption/ionization imaging mass spectrometry.
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Selenium derivatization of nucleic acids for phase and structure determination in nucleic acid X-ray crystallography.
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Understanding and re-engineering nucleoprotein machines to cure human disease.
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From fluorescence nanoscopy to nanoscopic medicine.
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DNA translocation by type III restriction enzymes: a comparison of current models of their operation derived from ensemble and single-molecule measurements.
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See me, feel me: methods to concurrently visualize and manipulate single DNA molecules and associated proteins.
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Rastering strategy for screening and centring of microcrystal samples of human membrane proteins with a sub-10 microm size X-ray synchrotron beam.
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Atomic-scale dynamics inside living cells explored by neutron scattering.
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Dynamic fluorescence depolarization: a powerful tool to explore protein folding on the ribosome.
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Use of the spliceosomal protein U1A to facilitate crystallization and structure determination of complex RNAs.
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Raman crystallography of RNA.
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Exploring ribozyme conformational changes with X-ray crystallography.
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Harnessing attosecond science in the quest for coherent X-rays.
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Attosecond control and measurement: lightwave electronics.
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In vivo photoacoustic tomography of chemicals: high-resolution functional and molecular optical imaging at new depths.
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Coherent multidimensional optical spectroscopy of excitons in molecular aggregates; quasiparticle versus supermolecule perspectives.
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Ultrafast dynamics in complex fluids observed through the ultrafast optically-heterodyne-detected optical-Kerr-effect (OHD-OKE).
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Reaction products in mass spectrometry elucidated with infrared spectroscopy.
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Dynamic imaging of molecules using high order harmonic generation.
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Looking at long molecules in solution: what happens when they are subjected to Couette flow?
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Surface-enhanced Raman scattering: a powerful tool for chemical identification.
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Introductory photoemission theory.
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Electron enhanced Raman scattering and its applications in solution chemistry.
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Anisotropic nuclear spin interactions for the morphology analysis of proteins in solution by NMR spectroscopy.
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Lifetime-broadening-suppressed selective XAFS spectroscopy.
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A 3.5-nm structure of rat TRPV4 cation channel revealed by Zernike phase-contrast cryoelectron microscopy.
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Pharmacology under the microscope: the use of fluorescence correlation spectroscopy to determine the properties of ligand-receptor complexes.
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Protein structure prediction and model quality assessment.
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X-Ray microanalytical techniques based on synchrotron radiation.
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Structure-oriented methods for protein NMR data analysis.
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Milestones in electron crystallography.
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RNA and protein 3D structure modeling: similarities and differences.
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A general method for hyperquenching protein crystals.
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Correlated single-crystal electronic absorption spectroscopy and X-ray crystallography at NSLS beamline X26-C.
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Specimen preparation for electron diffraction of thin crystals.
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Beyond NMR spectra of antimicrobial peptides: dynamical images at atomic resolution and functional insights.
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Size and shape of protein molecules at the nanometer level determined by sedimentation, gel filtration, and electron microscopy.
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Site-directed spin labeling studies on nucleic acid structure and dynamics.
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Single-particle reconstruction of biological macromolecules in electron microscopy--30 years.
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Hydrogen exchange mass spectrometry: what is it and what can it tell us?
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Molecular sputter depth profiling using carbon cluster beams.
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Advanced NMR approaches for a detailed structure analysis of natural products.
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Visualizing water molecules in transmembrane proteins using radiolytic labeling methods.
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A competitive labeling method for the determination of the chemical properties of solitary functional groups in proteins.
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Applications of magnetic circular dichroism spectroscopy to porphyrins and phthalocyanines.
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Chemical modifications of AFM tips for the study of molecular recognition events.
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Single-molecule studies of RNA polymerase: motoring along.
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Bicelles: A natural 'molecular goniometer' for structural, dynamical and topological studies of molecules in membranes.
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X-ray crystallography of chemical compounds.
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Structural glycobiology: a game of snakes and ladders.
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Electron spin resonance in membrane research: protein-lipid interactions from challenging beginnings to state of the art.
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2009  
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Discovery through the computational microscope.
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Sampling protein form and function with the atomic force microscope.
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2010  
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Probing native protein structures by chemical cross-linking, mass spectrometry, and bioinformatics.
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2004  
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Mass spectrometric approaches using electrospray ionization charge states and hydrogen-deuterium exchange for determining protein structures and their conformational changes.
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Solution NMR structure determination of proteins revisited.
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Biophysical characterization of DNA binding from single molecule force measurements.
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Strategy for the use of affinity grids to prepare non-His-tagged macromolecular complexes for single-particle electron microscopy.
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2005  
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Atomic force microscopy: a powerful tool for high-resolution imaging of spermatozoa.
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High-resolution, single-molecule measurements of biomolecular motion.
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Global dynamics of proteins: bridging between structure and function.
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Bimolecular fluorescence complementation (BiFC) analysis as a probe of protein interactions in living cells.
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Solid-state NMR studies of amyloid fibril structure.
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What can solid state NMR contribute to our understanding of protein folding?
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Relaxation dispersion NMR spectroscopy as a tool for detailed studies of protein folding.
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Determination of protein structures--a series of fortunate events.
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Atomic force microscopy of biological membranes.
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Electron crystallography of aquaporins.
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Atomic force microscopy probing in the measurement of cell mechanics.
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Molecular imaging of membrane proteins and microfilaments using atomic force microscopy.
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Multicolor single-molecule FRET to explore protein folding and binding.
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Lessons from the lysozyme of phage T4.
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Probing early events in ferrous cytochrome c folding with time-resolved natural and magnetic circular dichroism spectroscopies.
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Three-dimensional molecular modeling with single molecule FRET.
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High-throughput production of human proteins for crystallization: the SGC experience.
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Electron crystallography of membrane proteins.
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2002  
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Scanning probe microscopy for chromosomal research.
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2002  
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Single-molecule studies of chromatin fibers: a personal report.
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Biophysical characterization of G-protein coupled receptor-peptide ligand binding.
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Expedient placement of two fluorescent dyes for investigating dynamic DNA protein interactions in real time.
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FRET in Membrane Biophysics: An Overview.
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Hydrogen exchange mass spectrometry for studying protein structure and dynamics.
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Probing the surfaces of heterogeneous catalysts by in situ IR spectroscopy.
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UV-VIS-NIR spectroscopy and microscopy of heterogeneous catalysts.
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Identifying reaction intermediates and catalytic active sites through in situ characterization techniques.
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UV Raman spectroscopic study on the synthesis mechanism and assembly of molecular sieves.
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Impact of in situ MAS NMR techniques to the understanding of the mechanisms of zeolite catalyzed reactions.
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Analysing and understanding the active site by IR spectroscopy.
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The applications of atomic force microscopy to vision science.
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X-ray absorption spectroscopies: useful tools to understand metallorganic frameworks structure and reactivity.
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Advanced X-ray absorption and emission spectroscopy: in situ catalytic studies.
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Chemical imaging of catalytic solids with synchrotron radiation.
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The role of synchrotron radiation in examining the self-assembly of crystalline nanoporous framework materials: from zeolites and aluminophosphates to metal organic hybrids.
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Hard and soft X-ray microscopy and tomography in catalysis: bridging the different time and length scales.
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Insights into reaction mechanisms in heterogeneous catalysis revealed by in situ NMR spectroscopy.
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Combining synchrotron-based X-ray techniques with vibrational spectroscopies for the in situ study of heterogeneous catalysts: a view from a bridge.
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Combining in situ characterization methods in one set-up: looking with more eyes into the intricate chemistry of the synthesis and working of heterogeneous catalysts.
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Resonance Raman and surface- and tip-enhanced Raman spectroscopy methods to study solid catalysts and heterogeneous catalytic reactions.
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Fluorescence micro(spectro)scopy as a tool to study catalytic materials in action.
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Light at the interface: the potential of attenuated total reflection infrared spectroscopy for understanding heterogeneous catalysis in water.
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Methods for in situ spectroscopic probing of the synthesis of a zeolite.
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Infrared and Raman imaging of heterogeneous catalysts.
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The design and testing of kinetically-appropriate operando spectroscopic cells for investigating heterogeneous catalytic reactions.
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Magnetic resonance imaging methods for in situ studies in heterogeneous catalysis.
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Exploring catalytic solid/liquid interfaces by in situ attenuated total reflection infrared spectroscopy.
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In situ electron paramagnetic resonance: a unique tool for analyzing structure-reactivity relationships in heterogeneous catalysis.
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Single-molecule fluorescence imaging of nanocatalytic processes.
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Single-molecule, single-particle fluorescence imaging of TiO2-based photocatalytic reactions.
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Defect characterization in graphene and carbon nanotubes using Raman spectroscopy.
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