Your search keyword '"Hammer CA"' showing total 5 results

1. Flavin Storage and Sequestration by Mycobacterium tuberculosis Dodecin.

Author

Bourdeaux F, Hammer CA, Vogt S, Schweighöfer F, Nöll G, Wachtveitl J, and Grininger M

Subjects

Bacterial Proteins chemistry, Biological Assay, Biosynthetic Pathways, Carrier Proteins chemistry, Flavins biosynthesis, Flavins chemistry, Kinetics, Models, Molecular, Molecular Conformation, Protein Binding, Spectrum Analysis, Structure-Activity Relationship, Bacterial Proteins metabolism, Carrier Proteins metabolism, Flavins metabolism, Mycobacterium tuberculosis metabolism

Abstract

Dodecins are small flavin binding proteins occurring in archaea and bacteria. They are remarkable for binding dimers of flavins with their functional relevant aromatic isoalloxazine rings deeply covered. Bacterial dodecins are widely spread and found in a large variety of pathogens, among them Pseudomonas aeruginosa, Streptococcus pneumonia, Ralstonia solanacearum, and Mycobacterium tuberculosis ( M. tuberculosis). In this work, we seek to understand the function of dodecins from M. tuberculosis dodecin. We describe flavin binding in thermodynamic and kinetic properties and achieve mechanistic insight in dodecin function by applying spectroscopic and electrochemical methods. Intriguingly, we reveal a significant pH dependence in the affinity and specificity of flavin binding. Our data give insight in M. tuberculosis dodecin function and advance the current understanding of dodecins as flavin storage and sequestering proteins. We suggest that the dodecin in M. tuberculosis may specifically be important for flavin homeostasis during the elaborate lifestyle of this organism, which calls for the evaluation of this protein as drug target.

Published

2018

2. Sensitized Two-Photon Activation of Coumarin Photocages.

Author

Hammer CA, Falahati K, Jakob A, Klimek R, Burghardt I, Heckel A, and Wachtveitl J

Abstract

Here we report the design of a new coumarin-based photolabile protecting group with enhanced two-photon absorption. Two-photon excited fluorescence (TPEF), color-tuned ultrafast transient absorption spectroscopy and infrared (IR) measurements are employed to photochemically characterize the newly designed ATTO 390-DEACM-cargo triad. Increased two-photon cross-section values of the novel cage in comparison to the widely used protecting group DEACM ([7-(diethylamino)coumarin-4-yl]methyl) are extracted from TPEF experiments. Femtosecond pump-probe experiments reveal a fast intramolecular charge transfer, a finding that is confirmed by quantum chemical calculations. Uncaging of glutamate is monitored in IR measurements by photodecarboxylation of the carbamate linker between the photolabile protecting group and the glutamate, showing the full functionality of the novel two-photon activatable photocage.

Published

2018

3. Highly efficient modulation of FRET in an orthogonally arranged BODIPY-DTE dyad.

Author

Schweighöfer F, Dworak L, Hammer CA, Gustmann H, Zastrow M, Rück-Braun K, and Wachtveitl J

Abstract

The photoswitchable boron-dipyrromethene-dithienylethene molecular dyad is introduced as a prototype for the efficient fluorescence intensity modulation on the molecular level. The functionality of the system is based on the photochromism of the dithienylethene, which facilitates an efficient on- and off-switching of a Förster-type intramolecular energy transfer between the photoexcited BODIPY donor and the dithienylethene acceptor moiety. The switching behavior and dynamics of the molecular dyad are monitored by steady state and time-resolved spectroscopic methods. A quenching efficiency of up to 96% in the off-state is observed and explained by a drastically accelerated decay of the boron-dipyrromethene excited state due to the efficient energy transfer despite the orthogonal arrangement of donor and acceptor. An energy transfer time orders of magnitude shorter than the lifetime of the boron-dipyrromethene in the open state is determined.

Published

2016

4. The ultrafast reactions in the photochromic cycle of water-soluble fulgimide photoswitches.

Author

Slavov C, Boumrifak C, Hammer CA, Trojanowski P, Chen X, Lees WJ, Wachtveitl J, and Braun M

Abstract

Photochromic switches are essential for the control and manipulation of nanoscale reactions and processes. The expansion of their application to aqueous environments depends strongly on the development of optimized water-soluble photoswitches. Here we present a femtosecond time-resolved investigation of the photochromic reactions (transition between the open and the closed form) of a water-soluble indolylfulgimide. We observe a pronounced effect of the protic nature of water as a solvent on the ultrafast ring-opening reaction. Typically, the excited state of the closed form has a larger dipole moment than the ground state, which leads to stabilization of the excited state in polar solvents and hence a lifetime (3 ps) longer than in non-polar solvents (2 ps). However, in water, despite the increased solvent polarity and the increased excited state dipole moment, the opposite trend for the excited state lifetime is observed (1.8 ps). This effect is caused by the opening of a new excited state deactivation pathway involving proton transfer reactions.

Published

2016

5. Quiz-o-matic: a free Web-based tool for construction of self-scoring on-line quizzes.

Author

White RJ and Hammer CA

Subjects

Chicago, Humans, Programming Languages, User-Computer Interface, Computer-Assisted Instruction methods, Educational Measurement methods, Internet, Software

Abstract

Increasingly, educators are using the World-Wide Web (the Web) and related technology to supplement their traditional teaching materials. In this paper, we present a free tool that has been placed on the Web to enable educators to create Web pages that present self-scoring quizzes. Such Web-based practice quizzes provide students with an opportunity for interactive assessment and review of course material. The tool, Quiz-o-Matic, uses active server pages to build the HTML and JavaScript code for each quiz, without requiring the user to edit any code. We present evidence that students judge the self-scoring quizzes to be useful and worthwhile additions to a course.

Published

2000