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Solid-state NMR applied to photosynthetic light-harvesting complexesA comparison between plant photosystem I and photosystem II architecture and functioningConformational switching explains the intrinsic multifunctionality of plant light-harvesting complexes.Reversible switching between nonquenched and quenched states in nanoscale linear arrays of plant light-harvesting antenna complexes.The role of exciton delocalization in the major photosynthetic light-harvesting antenna of plants.A Hidden State in Light-Harvesting Complex II Revealed By Multipulse Spectroscopy.Conformational switching in a light-harvesting protein as followed by single-molecule spectroscopy.Interference lithographic nanopatterning of plant and bacterial light-harvesting complexes on gold substrates.Ultrafast energy relaxation in single light-harvesting complexesDissecting pigment architecture of individual photosynthetic antenna complexes in solution.Single Molecule Spectroscopy of Monomeric LHCII: Experiment and Theory.Quantum chemical description of absorption properties and excited-state processes in photosynthetic systems.Mobility of photosynthetic proteins.Light-harvesting regulation from leaf to molecule with the emphasis on rapid changes in antenna size.Can red-emitting state be responsible for fluorescence quenching in LHCII aggregates?Assembly of the major light-harvesting complex II in lipid nanodiscsDynamic quenching in single photosystem II supercomplexes.Functional rearrangement of the light-harvesting antenna upon state transitions in a green algaPhotoprotection in plants involves a change in lutein 1 binding domain in the major light-harvesting complex of photosystem II.Controlled disorder in plant light-harvesting complex II explains its photoprotective roleExcitation-energy transfer dynamics of higher plant photosystem I light-harvesting complexes.Insights into the photoprotective switch of the major light-harvesting complex II (LHCII): a preserved core of arginine-glutamate interlocked helices complemented by adjustable loops.On the origin of a slowly reversible fluorescence decay component in the Arabidopsis npq4 mutant.The specificity of controlled protein disorder in the photoprotection of plants.The role of charge-transfer states in energy transfer and dissipation within natural and artificial bacteriochlorophyll proteins.Long-range energy transport in photosystem II.How reduced excitonic coupling enhances light harvesting in the main photosynthetic antennae of diatoms.Singlet-triplet annihilation in single LHCII complexes.Evidence for coherent mixing of excited and charge-transfer states in the major plant light-harvesting antenna, LHCII.The nature of self-regulation in photosynthetic light-harvesting antenna.Contribution of low-temperature single-molecule techniques to structural issues of pigment-protein complexes from photosynthetic purple bacteria.Different crystal morphologies lead to slightly different conformations of light-harvesting complex II as monitored by variations of the intrinsic fluorescence lifetime.Intra- and inter-monomeric transfers in the light harvesting LHCII complex: the Redfield-Förster picture.Revealing the radiative and non-radiative relaxation rates of the fluorescent dye Atto488 in a λ/2 Fabry-Pérot-resonator by spectral and time resolved measurements.
P2860
Q26996529-2032C195-0140-4A36-B658-BA7CF5BBEF06Q28659460-1DE9E197-B2FA-4067-93E5-2BEDEF052394Q30405526-12351F90-62CA-4DA7-A47C-979C2A481C62Q33940466-55197CDB-BC35-480C-A1E0-2558FD736984Q35575443-6D23FA77-ECDF-452A-890C-C09C9C707989Q35588423-50781BCF-FE30-4A66-96FD-F890D0076953Q35688352-A61CC8D0-64BA-473F-82E8-1BC83AFCACF6Q35805822-0284E09F-3DF0-417E-9D4A-E250E308A512Q35931852-4D41BF0E-E981-4259-8742-B5EB519E3AD6Q36300190-FC5C38AB-C911-4FA8-96AF-DE5D5A4E356EQ36910600-0D0167EF-E513-458C-92EF-58FADC2AC688Q37979727-E20A6A64-E61E-4C2D-B756-D2FA49527C44Q38129800-B6524677-DB03-42F3-B966-7C7992B40A9BQ38379317-2F407567-FBAF-4F66-B922-C36DDD5B594DQ38616462-EF3FBB3E-4241-4569-B0AA-BAD829EC25EFQ39169934-F0900304-F4C6-41EE-8FB1-0A06BA0FF4EEQ39413231-3B2B284D-CD98-4EAF-8FF8-A9AC1A7A8D17Q41809308-09CB6FEC-EE28-42E1-99B1-930FB56D6F8BQ41993626-D5DD4A96-0B64-46DE-B7E7-6C7455C27E6EQ42121912-847D188D-0C0E-4D5A-840A-A3BC6D269A46Q42135465-B5591605-7421-4C94-B941-2D196F1B9E16Q42209278-5484817F-E619-4E77-9EE9-C4F7E2418C94Q42414542-6EAFBAC5-6089-4E57-9816-9EA81499247AQ42566401-251D68F7-13A7-48C9-93A9-B1E3945269F6Q43054693-073328E0-880A-4F9A-83E2-C619D6482C84Q45942967-3CABB889-C4BC-44A4-90C5-F5968B0E747AQ46673872-B2119916-EAEE-4CE4-9A27-2393E52D4CA1Q46703311-EF7174E5-0D72-4078-B96E-9BE4C81E7A3EQ47947377-D3D8C693-8B8E-4536-9CA7-90D9F5E210D9Q48042462-24809CA9-D2AD-40B8-8F54-73D8531AC1AFQ48268118-5C641185-9DB4-4BA9-913A-694975C33DE2Q50518694-51943809-EE3E-46E6-869A-53EA524365C9Q50527454-83390791-BA76-4A0B-9B1C-9E963FAEB85BQ53061726-33B7DEE8-BBE8-4498-9D4B-3478F5D92BB4
P2860
description
2010 nî lūn-bûn
@nan
2010年の論文
@ja
2010年論文
@yue
2010年論文
@zh-hant
2010年論文
@zh-hk
2010年論文
@zh-mo
2010年論文
@zh-tw
2010年论文
@wuu
2010年论文
@zh
2010年论文
@zh-cn
name
Fluorescence spectral dynamics of single LHCII trimers.
@en
type
label
Fluorescence spectral dynamics of single LHCII trimers.
@en
prefLabel
Fluorescence spectral dynamics of single LHCII trimers.
@en
P2860
P1433
P1476
Fluorescence spectral dynamics of single LHCII trimers
@en
P2093
Cristian Ilioaia
Rienk van Grondelle
P2860
P304
P356
10.1016/J.BPJ.2010.03.028
P407
P577
2010-06-01T00:00:00Z