Lars Haag scite author profile

Control of two basic ionization processes in dielectrics i.e. photo ionization and electron-electron impact ionization on intrinsic time and intensity scales is investigated experimentally and theoretically. Temporally asymmetric femtosecond pulses of identical fluence, spectrum and pulse duration result in different final free electron densities. We found that an asymmetric pulse and its time reversed counterpart address two ionization processes in a different fashion. This results in the observation of different thresholds for surface material modification in sapphire and fused silica. We conclude that control of ionization processes with tailored femtosecond pulses is suitable for robust manipulation of breakdown and thus control of the initial steps of laser processing of high band gap materials.

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Femtosecond laser-induced-breakdown spectrometry for Ca2+ analysis of biological samples with high spatial resolution

Assion

et al. 2003

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Characterization of self-assembled virus-like particles of human polyomavirus BK generated by recombinant baculoviruses

Takeda

Kato

et al. 2003

Virology

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The major structural protein of the human polyomavirus BK (BKV), VP1, was expressed by using recombinant baculoviruses. A large amount of protein with a molecular mass of about 42 kDa was synthesized and identified by Western blotting. The protein was detected exclusively in the nuclei by immunofluorescent analysis and it was released into culture medium. The expressed BKV VP1 protein was self-assembled into virus-like particles (BK-VLPs) with two different sizes (50 and 26 nm in diameter), which migrated into four different bands in CsCl gradient with buoyant densities of 1.29, 1.30, 1.33, and 1.35 g/cm(3). The immunological studies on the BK-VLPs suggested that they have similar antigenicity with those of authentic BKV particles. Cryoelectron microscopy and 3D image analysis further revealed that the larger BK-VLPs were composed of 72 capsomers which all were pentamers arranged in a T = 7 surface lattice. This system provides useful information for detailed studies of viral morphogenesis and the structural basis for the antigenicity of BKV.

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Material processing of dielectrics with temporally asymmetric shaped femtosecond laser pulses on the nanometer scale

et al. 2008

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Acid-induced movements in the glycoprotein shell of an alphavirus turn the spikes into membrane fusion mode

Haag

Garoff

et al. 2002

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In the icosahedral (T = 4) Semliki Forest virus, the envelope protomers, i.e. E1±E2 heterodimers, make one-to-one interactions with capsid proteins below the viral lipid bilayer, transverse the membrane and form an external glycoprotein shell with projections. The shell is organized by protomer domains interacting as hexamers and pentamers around shell openings at icosahedral 2-and 5-fold axes, respectively, and the projections by other domains associating as trimers at 3-and quasi 3-fold axes. We show here, using cryoelectron microscopy, that low pH, as occurs in the endosomes during virus uptake, results in the relaxation of protomer interactions around the 2-and the 5-fold axes in the shell, and movement of protomers towards 3-and quasi 3-fold axes in a way that reciprocally relocates their putative E1 and E2 domains. This seemed to be facilitated by a trimerization of transmembrane segments at the same axes. The alterations observed help to explain several key features of the spike-mediated membrane fusion reaction, including shell dissolution, heterodimer dissociation, fusion peptide exposure and E1 homotrimerization.

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Lars Haag

Control of ionization processes in high band gap materials via tailored femtosecond pulses

Femtosecond laser-induced-breakdown spectrometry for Ca2+ analysis of biological samples with high spatial resolution

Characterization of self-assembled virus-like particles of human polyomavirus BK generated by recombinant baculoviruses

Material processing of dielectrics with temporally asymmetric shaped femtosecond laser pulses on the nanometer scale

Acid-induced movements in the glycoprotein shell of an alphavirus turn the spikes into membrane fusion mode

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