Wolfgang Erker scite author profile

Summary The aerobic Escherichia coli C4‐dicarboxylate transporter DctA and the anaerobic fumarate/succinate antiporter DcuB function as obligate co‐sensors of the fumarate responsive sensor kinase DcuS under aerobic or anaerobic conditions respectively. Overproduction under anaerobic conditions allowed DctA to replace DcuB in co‐sensing, indicating their functional equivalence in this capacity. In vivo interaction studies between DctA and DcuS using FRET or a bacterial two‐hybrid system (BACTH) demonstrated their interaction. DctA–YFP bound to an affinity column and was able to retain DcuS. DctA shows substantial sequence and secondary structure conservation to GltPh, the Na+/glutamate symporter of Pyrococcus horikoshii with known 3D structure. Topology studies of DctA demonstrated the presence of eight transmembrane helices in an arrangement similar to that of GltPh. DctA contains an additional predicted amphipathic helix 8b on the cytoplasmic side of the membrane that is specific for DctA and not present in GltPh. Mutational analysis demonstrated the importance of helix 8b in co‐sensing and interaction with DcuS, and the isolated helix 8b showed strong interaction with DcuS. In DcuS, deletion and mutation of the cytoplasmic PASC domain affected the interaction between DctA and DcuS. It is concluded that DctA forms a functional unit or sensor complex with DcuS through specific interaction sites.

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A respiratory hemocyanin from an insect

Hagner-Holler

Schoen

Erker

et al. 2004

Proc. Natl. Acad. Sci. U.S.A.

110

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Insects possess an elaborate tracheal system that enables transport of gaseous oxygen from the atmosphere directly to the inner organs. Therefore, the presence of specialized oxygen-transport proteins in the circulatory system of insects has been considered generally unnecessary. Here, we show for the first time, to our knowledge, the presence of an ancestral and functional hemocyanin (Hc) in an insect. In the hemolymph of nymphs and adults of the stonefly Perla marginata, a hexameric Hc was identified, which consists of two distinct subunit types of 659 and 655 amino acids. P. marginata Hc displays cooperative oxygen binding with a moderately high oxygen affinity [(half-saturation pressure, P50 Ϸ8 torr (1 torr ‫؍‬ 133 Pa)]. No evidence was found for the presence of Hcs in the more evolutionarily advanced holometabolan insects, suggesting that this type of respiratory protein was lost later in insect evolution. However, our results demonstrate that, in contrast to the accepted paradigm, certain basal insects have retained an ancestral blood-based mechanism of gas exchange.

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A Simple and Versatile Route to Stable Quantum Dot−Dye Hybrids in Nonaqueous and Aqueous Solutions

Ren¹,

Mandal²,

Erker³

et al. 2008

J. Am. Chem. Soc.

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Hybrid systems consisting of core/shell semiconductor quantum dots (QDs) and organic rylene dyes have been prepared and characterized. Complex formation is mediated by bidentate carboxylate moieties covalently linked to the dye molecules. The complexes were very stable with respect to time (at least months), dilution (sub nM), and precipitation. After preparation in organic solvent, complexes could be easily transferred into water. The strong quenching of QD emission by the dye molecules (transfer efficiencies up to 95%) was satisfactorily modeled by an FRET process. Single complexes immobilized in thin polymer films were imaged by confocal fluorescence microscopy.

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Two-photon excitation microscopy of tryptophan-containing proteins

Lippitz

Erker²,

Decker³

et al. 2002

Proc. Natl. Acad. Sci. U.S.A.

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We have examined the feasibility of observing single protein molecules by means of their intrinsic tryptophan emission after two-photon excitation. A respiratory protein from spiders, the 24-meric hemocyanin, containing 148 tryptophans, was studied in its native state under almost in vivo conditions. In this specific case, the intensity of the tryptophan emission signals the oxygen load, allowing one to investigate molecular cooperativity. As a system with even higher tryptophan content, we also investigated latex spheres covered with the protein avidin, resulting in 340 tryptophans per sphere. The ratio of the fluorescence quantum efficiency to the bleaching efficiency was found to vary between 2 and 180 after two-photon excitation for tryptophan free in buffer solution, in hemocyanin, and in avidin-coated spheres. In the case of hemocyanin, this ratio leads to about four photons detected before photobleaching. Although this number is quite small, the diffusion of individual protein molecules could be detected by fluorescence correlation spectroscopy. In avidin-coated spheres, the tryptophans exhibit a higher photostability, so that even imaging of single spheres becomes possible. As an unexpected result of the measurements, it was discovered that the population of the oxygenated state of hemocyanin can be changed by means of a one-photon process with the same laser source that monitors this population in a two-photon process.

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Wolfgang Erker

Interaction of the Escherichia coli transporter DctA with the sensor kinase DcuS: presence of functional DctA/DcuS sensor units

A respiratory hemocyanin from an insect

A Simple and Versatile Route to Stable Quantum Dot−Dye Hybrids in Nonaqueous and Aqueous Solutions

Two-photon excitation microscopy of tryptophan-containing proteins

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