SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1984459503> ?p ?o ?g. }

Showing items 1 to 100 of ±437 with 100 items per page.

W1984459503 endingPage "49" @default.
W1984459503 startingPage "1" @default.
W1984459503 abstract "In this review on advanced EPR spectroscopy, which addresses both the EPR and NMR communities, considerable emphasis is put on delineating the complementarity of NMR and EPR concerning the measurement of molecular interactions in large biomolecules. From these interactions, detailed information can be revealed on structure and dynamics of macromolecules embedded in solution- or solid-state environments. New developments in pulsed microwave and sweepable cryomagnet technology as well as ultrafast electronics for signal data handling and processing have pushed to new horizons the limits of EPR spectroscopy and its multifrequency extensions concerning the sensitivity of detection, the selectivity with respect to interactions, and the resolution in frequency and time domains. One of the most important advances has been the extension of EPR to high magnetic fields and microwave frequencies, very much in analogy to what happens in NMR. This is exemplified by referring to ongoing efforts for signal enhancement in both NMR and EPR double-resonance techniques by exploiting dynamic nuclear or electron spin polarization via unpaired electron spins and their electron–nuclear or electron–electron interactions. Signal and resolution enhancements are particularly spectacular for double-resonance techniques such as ENDOR and PELDOR at high magnetic fields. They provide greatly improved orientational selection for disordered samples that approaches single-crystal resolution at canonical g-tensor orientations – even for molecules with small g-anisotropies. Exchange of experience between the EPR and NMR communities allows for handling polarization and resolution improvement strategies in an optimal manner. Consequently, a dramatic improvement of EPR detection sensitivity could be achieved, even for short-lived paramagnetic reaction intermediates. Unique structural and dynamic information is thus revealed that can hardly be obtained by any other analytical techniques. Micromolar quantities of sample molecules have become sufficient to characterize stable and transient reaction intermediates of complex molecular systems – offering highly interesting applications for chemists, biochemists and molecular biologists. In three case studies, representative examples of advanced EPR spectroscopy are reviewed: (I) High-field PELDOR and ENDOR structure determination of cation–anion radical pairs in reaction centers from photosynthetic purple bacteria and cyanobacteria (Photosystem I); (II) High-field ENDOR and ELDOR-detected NMR spectroscopy on the oxygen-evolving complex of Photosystem II; and (III) High-field electron dipolar spectroscopy on nitroxide spin-labelled bacteriorhodopsin for structure–function studies. An extended conclusion with an outlook to further developments and applications is also presented." @default.
W1984459503 created "2016-06-24" @default.
W1984459503 creator A5002012826 @default.
W1984459503 creator A5051098418 @default.
W1984459503 creator A5083711185 @default.
W1984459503 date "2013-11-01" @default.
W1984459503 modified "2023-10-17" @default.
W1984459503 title "High-field EPR on membrane proteins – Crossing the gap to NMR" @default.
W1984459503 cites W1087938070 @default.
W1984459503 cites W1533256820 @default.
W1984459503 cites W1539918506 @default.
W1984459503 cites W1548428068 @default.
W1984459503 cites W1555542099 @default.
W1984459503 cites W1588340795 @default.
W1984459503 cites W1785940294 @default.
W1984459503 cites W1858237937 @default.
W1984459503 cites W1868333707 @default.
W1984459503 cites W1919020330 @default.
W1984459503 cites W1963876814 @default.
W1984459503 cites W1964546211 @default.
W1984459503 cites W1965330913 @default.
W1984459503 cites W1967893263 @default.
W1984459503 cites W1967984179 @default.
W1984459503 cites W1968541476 @default.
W1984459503 cites W1968816829 @default.
W1984459503 cites W1969205934 @default.
W1984459503 cites W1969340160 @default.
W1984459503 cites W1969513333 @default.
W1984459503 cites W1969537387 @default.
W1984459503 cites W1970312228 @default.
W1984459503 cites W1970967939 @default.
W1984459503 cites W1971959496 @default.
W1984459503 cites W1972105426 @default.
W1984459503 cites W1972683567 @default.
W1984459503 cites W1972727762 @default.
W1984459503 cites W1973040844 @default.
W1984459503 cites W1973222737 @default.
W1984459503 cites W1973501622 @default.
W1984459503 cites W1973615972 @default.
W1984459503 cites W1973771294 @default.
W1984459503 cites W1973779723 @default.
W1984459503 cites W1974554498 @default.
W1984459503 cites W1974708750 @default.
W1984459503 cites W1975478494 @default.
W1984459503 cites W1975886700 @default.
W1984459503 cites W1976039826 @default.
W1984459503 cites W1976921017 @default.
W1984459503 cites W1977055255 @default.
W1984459503 cites W1977612780 @default.
W1984459503 cites W1977982642 @default.
W1984459503 cites W1978820102 @default.
W1984459503 cites W1979152146 @default.
W1984459503 cites W1979445249 @default.
W1984459503 cites W1979750870 @default.
W1984459503 cites W1980642390 @default.
W1984459503 cites W1981037520 @default.
W1984459503 cites W1981064893 @default.
W1984459503 cites W1981748587 @default.
W1984459503 cites W1983262116 @default.
W1984459503 cites W1983718136 @default.
W1984459503 cites W1983737291 @default.
W1984459503 cites W1983862582 @default.
W1984459503 cites W1984527732 @default.
W1984459503 cites W1984532939 @default.
W1984459503 cites W1984831754 @default.
W1984459503 cites W1984874697 @default.
W1984459503 cites W1985522113 @default.
W1984459503 cites W1985611905 @default.
W1984459503 cites W1986568955 @default.
W1984459503 cites W1986653310 @default.
W1984459503 cites W1986829915 @default.
W1984459503 cites W1989419416 @default.
W1984459503 cites W1991172809 @default.
W1984459503 cites W1991305756 @default.
W1984459503 cites W1991955360 @default.
W1984459503 cites W1992191953 @default.
W1984459503 cites W1992348281 @default.
W1984459503 cites W1992381070 @default.
W1984459503 cites W1992684558 @default.
W1984459503 cites W1993006747 @default.
W1984459503 cites W1993231363 @default.
W1984459503 cites W1995414833 @default.
W1984459503 cites W1997876440 @default.
W1984459503 cites W1997959318 @default.
W1984459503 cites W1998423394 @default.
W1984459503 cites W2000046331 @default.
W1984459503 cites W2001098577 @default.
W1984459503 cites W2002286198 @default.
W1984459503 cites W2002477643 @default.
W1984459503 cites W2002683005 @default.
W1984459503 cites W2003387542 @default.
W1984459503 cites W2003527958 @default.
W1984459503 cites W2003776423 @default.
W1984459503 cites W2003987263 @default.
W1984459503 cites W2004033471 @default.
W1984459503 cites W2004884338 @default.
W1984459503 cites W2005574154 @default.
W1984459503 cites W2006420842 @default.