1999
DOI: 10.1002/(sici)1097-0282(199906)49:7<591::aid-bip5>3.0.co;2-q
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Low frequency vibrations of amino acid homopolymers observed by synchrotron far-ir absorption spectroscopy: Excited state effects dominate the temperature dependence of the spectra

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Cited by 41 publications
(32 citation statements)
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“…If fact, experimental measurements for the helical structure of bacteriorhodopsin produced conformational transition times of ca. 65 and 400 ns, which give the oscillation frequencies of 15.4 and 2.5 MHz, respectively [39][40][41][42]. These secondary-structure conformational vibrations are already close to our frequency range, while those of the tertiary structure should have still lower frequencies, due to larger effective masses and lower effective force constants.…”
Section: Acoustic Wave Interaction With the Biopolymer Moleculesupporting
confidence: 52%
“…If fact, experimental measurements for the helical structure of bacteriorhodopsin produced conformational transition times of ca. 65 and 400 ns, which give the oscillation frequencies of 15.4 and 2.5 MHz, respectively [39][40][41][42]. These secondary-structure conformational vibrations are already close to our frequency range, while those of the tertiary structure should have still lower frequencies, due to larger effective masses and lower effective force constants.…”
Section: Acoustic Wave Interaction With the Biopolymer Moleculesupporting
confidence: 52%
“…The excitation and relaxation of these collective modes are generally achieved via anharmonic interactions with other normal modes for energy exchange. It is believed that low frequency collective modes are responsible for the directed flow of conformational energy for a variety of vital biological processes ranging from electron transfer [1][2][3] to enzyme action [4,5]. However, without the knowledge of the actual lifetimes of these states it is extremely difficult to connect theory and experiment.…”
Section: Introductionmentioning
confidence: 99%
“…Conventional IR spectromicroscopy examination of biological tissues has limitations (10)(11)(12) including an insufficient spatial resolution of only ~20-25 μm. These problems are overcome by synchrotron IR light by virtue of its brightness, which is 100-1000 times greater than that from a conventional source (13).…”
Section: Discussionmentioning
confidence: 99%