Hauke Studier scite author profile

In vivo multiphoton tomography with a wavelength-tunable femtosecond laser has been performed to investigate the autofluorescence intensity of major endogenous fluorophores of human skin in dependence on the excitation wavelength. In high-resolution multiphoton images of different skin layers, clear trends were found for fluorophores like keratin, NAD(P)H, melanin as well as for the elastin and collagen networks. The analysis of the measurements is supplemented by additional measurements of fluorescence lifetime imaging and signal-decay curves by time-correlated single-photon counting.

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Assignment of Red Antenna States in Photosystem I from Thermosynechoccocus elongatus by Single-Molecule Spectroscopy

Brecht

Studier

Elli

et al. 2006

Biochemistry

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Single-molecule spectroscopy at cryogenic temperatures was used to elucidate spectral properties, heterogeneities, and dynamics of the chlorophyll a (Chla) molecules responsible for the fluorescence in photosystem I (PSI) from the cyanobacteria Thermosynechococcus elongatus. Absorption and hole burning data suggest the presence of three pools absorbing at wavelengths greater than 700 nm with their absorption maxima at 708, 715, and 719 nm. The responsible Chla molecules are termed C708, C715, and C719. In the emission spectra of single PSI complexes, zero-phonon lines (ZPLs) were observed over the whole red emission range of PSI. The spectral region of the C708 pool is dominated by intense ZPLs; on the other hand, the broad emission of C715/C719 is unstructured and ZPLs are seen in this region much less frequently. Spectral jumps of ZPLs were observed. The dynamics as well as the spectral range covered by such jumps differ for C708 and C715/C719. This heterogeneity is likely caused by differences in the close environment of the chromophores. A tentative assignment of C708 and C715/C719 to Chla dimers and a Chla trimer is discussed, which is based on the remarkable structural differences in the environment of the most probable candidates for the red-most fluorescence.

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Support for the Safe Use of Zinc Oxide Nanoparticle Sunscreens: Lack of Skin Penetration or Cellular Toxicity after Repeated Application in Volunteers

Mohammed

Holmes

Haridass

et al. 2019

Journal of Investigative Dermatology

129

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Zinc oxide is a widely used broad-spectrum sunscreen, but concerns have been raised about the safety of its nanoparticle (NP) form. We studied the safety of repeated application of agglomerated zinc oxide (ZnO) NPs applied to human volunteers over 5 days by assessing the skin penetration of intact ZnO-NPs and zinc ions and measuring local skin toxicity. Multiphoton tomography with fluorescence lifetime imaging microscopy was used to directly visualize ZnO-NP skin penetration and viable epidermal metabolic changes in human volunteers. The fate of ZnO-NPs was also characterized in excised human skin in vitro. ZnO-NPs accumulated on the skin surface and within the skin furrows but did not enter or cause cellular toxicity in the viable epidermis. Zinc ion concentrations in the viable epidermis of excised human skin were slightly elevated. In conclusion, repeated application of ZnO-NPs to the skin, as used in global sunscreen products, appears to be safe, with no evidence of ZnO-NP penetration into the viable epidermis nor toxicity in the underlying viable epidermis. It was associated with the release and penetration of zinc ions into the skin, but this did not appear to cause local toxicity.

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Spectral Diffusion Induced by Proton Dynamics in Pigment−Protein Complexes

Brecht¹,

Studier²,

Radics³

et al. 2008

J. Am. Chem. Soc.

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The fluorescence emission of individual photosystem I complexes from Synechocystis PCC 6803 in protonated and deuterated buffer shows zero-phonon lines as well as broad intensity distributions. The number and the line width of the zero phonon lines depend strongly on the solvent (H(2)O/D(2)O). The spectral diffusion rate of the whole fluorescence emission from photosystem I is significantly reduced upon deuteration of the solvent. This leads to a substantial increase of well-resolved zero-phonon lines. Since the chlorophyll a chromophores lack exchangeable protons, these observed changes in the spectral diffusion have to be assigned to exchangeable protons at the amino acids and structural water molecules in the chromophore binding pocket.

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Effect of Flexing and Massage on in Vivo Human Skin Penetration and Toxicity of Zinc Oxide Nanoparticles

Leite-Silva

Liu

Sanchez

et al. 2016

Nanomedicine (Lond.)

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Trafficking of Mature miRNA-122 into the Nucleus of Live Liver Cells

Földes-Papp¹,

König²,

Studier³

et al. 2009

CPB

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The binding of superquencher molecular beacon (SQMB) probes to human single-stranded cellular miRNA-122 targets was detected in various single live cells with femtosecond laser microscopy. For delivery of the SQMB-probes, 3D-nanoprocessing of single cells with sub-15 femtosecond 85 MHz near-infrared laser pulses was applied. Transient nanopores were formed by focusing the laser beam for some milliseconds on the membrane of a single cell in order to import of SQMB-probes into the cells. In single cells of the human liver cell lines Huh-7D12 and IHH that expressed miRNA-122, we measured target binding in the cytoplasm by two-photon fluorescence imaging. We found increased fluorescence with time in a nonlinear manner up to the point where steady state saturation was reached. We also studied the intracellular distribution of target SQMB and provide for the first time strong experimental evidence that cytoplasmic miRNA travels into the cell nucleus. To interpret nonlinear binding, a number of individual miRNA-122 positive cells (Huh-7D12 and IHH) and negative control cells, human VA13 fibroblasts and Caco-2 cells were analyzed. Our experimental data are consistent with the cytoplasmic assembly of nuclear miRNA and provide further mechanistic insight in the regulatory function of miRNAs in cellular physiology. An open issue in the regulation of gene expression by miRNA is whether miRNA can activate gene expression in addition to the well-known inhibitory effect. A first step for such a regulatory role could be the travelling of miRNA-RISC into the nucleus.

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Red Antenna States of Photosystem I from Synechocystis PCC 6803

et al. 2008

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Single-molecule spectroscopy at low temperatures was used to elucidate spectral properties, heterogeneities, and dynamics of the red-shifted chlorophyll a (Chl a) molecules responsible for the fluorescence from photosystem I (PSI). Emission spectra of single PSI complexes from the cyanobacterium Synechocystis PCC 6803 show zero-phonon lines (ZPLs) as well as broad intensity distributions without ZPLs. ZPLs are found most frequently on the blue side of the broad intensity distributions. The abundance of ZPLs decreases almost linearly at longer wavelengths. The distribution of ZPLs indicates the existence of at least two pools with maxima at 699 and 710 nm. The pool with the maximum at 710 nm is assigned to chlorophylls absorbing around 706 nm (C706), whereas the pool with the maximum at 699 nm (F699) can be assigned to chlorophylls absorbing at 692, 695, or 699 nm. The broad distributions dominating the red side of the spectra are made up of a low number of emitters assigned to the red-most pool C714. The properties of F699 show close relation to those of F698 in Synechococcus PCC 7002 and C708 in Thermosynechococcus elongatus. Furthermore, a high similarity is found between the C714 pool in Synechocystis PCC 6803 and C708 in Synechococcus PCC 7002 as well as C719 in T. elongatus.

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Red Pool Chlorophylls of Photosystem I of the CyanobacteriumThermosynechococcus elongatus: A Single-Molecule Study

et al. 2006

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Photosystem I reaction centers of the cyanobacterium Thermosynechococcus elongatus have been investigated using single-molecule spectroscopy. Single-molecule fluorescence emission spectra reveal a new fluorescence band located at 745 nm. Fluorescence polarization spectroscopy and fluorescence autocorrelation analysis show that only a few chlorophylls are responsible for the photoemission from the Photosystem I trimer at low temperature. Intersystem crossing parameters of the red pool chlorophylls have been determined via fluorescence autocorrelation measurements. The triplet yield of the red chlorophylls is strongly reduced in comparison to chlorophyll a in solution. Strong quenching of the triplet state indicates that the red chlorophylls are located in close contact to carotenoids.

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Hauke Studier

Multiphoton excitation characteristics of cellular fluorophores of human skin in vivo

Assignment of Red Antenna States in Photosystem I from Thermosynechoccocus elongatus by Single-Molecule Spectroscopy

Support for the Safe Use of Zinc Oxide Nanoparticle Sunscreens: Lack of Skin Penetration or Cellular Toxicity after Repeated Application in Volunteers

Spectral Diffusion Induced by Proton Dynamics in Pigment−Protein Complexes

Effect of Flexing and Massage on in Vivo Human Skin Penetration and Toxicity of Zinc Oxide Nanoparticles

Trafficking of Mature miRNA-122 into the Nucleus of Live Liver Cells

Red Antenna States of Photosystem I from Synechocystis PCC 6803

Red Pool Chlorophylls of Photosystem I of the CyanobacteriumThermosynechococcus elongatus: A Single-Molecule Study

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