Orientation factor in steady-state and time-resolved resonance energy transfer measurements.
about
Opening and closing of the bacterial RNA polymerase clampChanges in DNA bending and flexing due to tethered cations detected by fluorescence resonance energy transfer.Supertertiary structure of the synaptic MAGuK scaffold proteins is conservedHomologous versus heterologous interactions in the bicomponent staphylococcal gamma-haemolysin pore.Direct observation of abortive initiation and promoter escape within single immobilized transcription complexes.Accurate FRET measurements within single diffusing biomolecules using alternating-laser excitation.The domains of a cholesterol-dependent cytolysin undergo a major FRET-detected rearrangement during pore formationFluorescence resonance energy transfer analysis of lipopolysaccharide in detergent micellesFluorescence characteristics of 5-carboxytetramethylrhodamine linked covalently to the 5' end of oligonucleotides: multiple conformers of single-stranded and double-stranded dye-DNA complexesThe calcium-saturated cTnI/cTnC complex: structure of the inhibitory region of cTnI.Simulation vs. reality: a comparison of in silico distance predictions with DEER and FRET measurementsTime-resolved fluorescence resonance energy transfer studies of DNA bending in double-stranded oligonucleotides and in DNA-protein complexes.Polytopic membrane protein folding at L17 in the ribosome tunnel initiates cyclical changes at the transloconFretting about FRET: correlation between kappa and R.The co-translational folding and interactions of nascent protein chains: a new approach using fluorescence resonance energy transfer.Orientation dependence in fluorescent energy transfer between Cy3 and Cy5 terminally attached to double-stranded nucleic acids.Fretting about FRET: failure of the ideal dipole approximation.Phospholamban modulates the functional coupling between nucleotide domains in Ca-ATPase oligomeric complexes in cardiac sarcoplasmic reticulum.Orientation of cyanine fluorophores terminally attached to DNA via long, flexible tethers.Comparison of TATA-binding protein recognition of a variant and consensus DNA promoters.The structure of sulfoindocarbocyanine 3 terminally attached to dsDNA via a long, flexible tetherCholesterol modulates the interaction of beta-amyloid peptide with lipid bilayersUsing molecular dynamics and quantum mechanics calculations to model fluorescence observablesPrecise measurement of protein interacting fractions with fluorescence lifetime imaging microscopy.Crystal Structures of Cyanine Fluorophores Stacked onto the End of Double-Stranded RNA.Theory of FRET "Spectroscopic Ruler" for Short Distances: Application to Polyproline.Extended Förster theory for determining intraprotein distances: 2. an accurate analysis of fluorescence depolarisation experiments.On the quantitative molecular analysis of electronic energy transfer within donor-acceptor pairs.Solution conformations of a biantennary glycopeptide and a series of its exoglycosidase products from sequential trimming of sugar residues.Conformation of the regulatory domain of cardiac muscle troponin C in its complex with cardiac troponin I.Excitation Energy TransferSOLVING SINGLE BIOMOLECULES BY ADVANCED FRET-BASED SINGLE-MOLECULE FLUORESCENCE TECHNIQUES
P2860
Q24633938-67E0B1C0-9DCB-4148-B3CF-8D3A9AD142A6Q25255716-0F70A5F6-257C-47CD-88DC-B8B6F52666F5Q30010001-F153CDD3-7906-43AB-8B4E-B5BC369AFB1CQ30160102-544CB6BB-5E24-4193-8563-2D8C09C89170Q30802546-51C3E931-4486-49E1-9652-9C0226F1E879Q31141763-E6B94C16-534E-4EC0-87B6-6ECFD9DA989AQ33821560-AFBED969-46C9-4C1B-959D-323F3D4E936DQ34017243-CBB5FA22-8E32-4DA0-BB6A-8C20968DE0BCQ34040387-2F9C7AB9-C09D-4000-A981-AECC828EAAEAQ34180422-6E26778E-9FA5-4B8A-B0C6-F8CC8F59A922Q34326170-AB602847-D007-48E0-BE1A-91F708157286Q34622498-BD9EA822-19FF-45E9-89B0-967F6096763EQ35276847-A19C9806-E975-42D2-8A57-A96AD6B186D6Q35812319-912635E0-9A9C-47D7-95C9-CED270098B54Q36024278-9BE6ACA5-9B7E-46E2-8B2C-0A5C905D3772Q36837357-0EB8ADF4-AA26-406E-BE51-7E1A7B201FD1Q37265289-7B3D0DEB-85F0-46C0-8427-405E925C6598Q37395873-289FD593-B5F8-4C15-A89A-823717DE2A15Q38272963-996B4B2A-3510-4A34-BB89-A98D167BCAEFQ38294351-5EDDE5F0-0EE2-499C-BEA2-AF9C78E2F719Q40929526-85DA25CA-4901-4510-A369-923268361B78Q41865462-3469BCC3-BB50-42C6-9943-E62B95D20F93Q42726873-01CA02D2-D166-4AEA-B6B9-1EEE90EE4C6FQ45360459-C4D3E783-E7F6-4938-A4FF-5768212D4C73Q47323588-DA7B0255-0BDE-478B-AB84-EE1B4D8CB24FQ47348403-1338E0BD-EE4C-4F5E-85CB-609C9FC285A2Q51910183-03DCFE1B-5A1F-4EBB-BA5C-5BA987FE11BDQ51917388-955B6C94-598F-47CB-8F8D-61B3B45B94BDQ52312631-BE558EBA-D30A-4038-95D2-4E212534387CQ53923220-89AD1510-7805-40A9-81B5-884A326255FBQ56427290-58C60A83-D532-44B6-96ED-79B6DAA3C586Q58011296-9BC0B37D-1872-453E-8F41-A9A62044F7E3
P2860
Orientation factor in steady-state and time-resolved resonance energy transfer measurements.
description
1992 nî lūn-bûn
@nan
1992年の論文
@ja
1992年学术文章
@wuu
1992年学术文章
@zh
1992年学术文章
@zh-cn
1992年学术文章
@zh-hans
1992年学术文章
@zh-my
1992年学术文章
@zh-sg
1992年學術文章
@yue
1992年學術文章
@zh-hant
name
Orientation factor in steady-s ...... energy transfer measurements.
@en
Orientation factor in steady-s ...... energy transfer measurements.
@nl
type
label
Orientation factor in steady-s ...... energy transfer measurements.
@en
Orientation factor in steady-s ...... energy transfer measurements.
@nl
prefLabel
Orientation factor in steady-s ...... energy transfer measurements.
@en
Orientation factor in steady-s ...... energy transfer measurements.
@nl
P356
P1433
P1476
Orientation factor in steady-s ...... energy transfer measurements.
@en
P304
P356
10.1021/BI00149A027
P407
P577
1992-09-01T00:00:00Z