Publications by authors named "Wolfgang Kress"

Dry eye disease (DED) has high personal and societal costs, but its pathology remains elusive due to intertwined biophysical and biochemical processes at the ocular surface. Specifically, mucin deficiency is reported in a subset of DED patients, but its effects on ocular interfacial properties remain unclear. Herein a novel in vitro mucin-deficient mimetic ocular surface (Mu-DeMOS) with a controllable amount of membrane-tethered mucin molecules is developed to represent the diseased ocular surfaces.

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The wetting and adsorption properties for two glycoproteins, recombinant human lubricin and bovine submaxillary mucins (BSM) were evaluated on hydrophilic and hydrophobic glass dome surfaces in a simplified in vitro tear film model. We show that both recombinant human lubricin (rh-lubricin) and BSM solutions render surfaces hydrophilic and when the fluid films reach 500 nm or less, the fluids resist evaporation-driven breakup through a volumetric flux across the surface, which we believe is due to evaporation-driven solutocapillary flows. rh-Lubricin was able to maintain a wet film without spontaneous breakup for longer periods of time than BSM at lower concentrations, which we attribute to differences in adsorption properties, measured by QCM-D, that result from surface charge and structural differences (confirmed by zeta potential, DLS, and SAXS measurements).

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In this issue of Molecular Cell, Augustin et al. (2009) describe the regulatory coupling of adjacent ATP subunits in the mitochondrial AAA protease ring along with the responsible molecular determinants and uncover its importance for membrane dislocation of substrates.

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Clp proteases are the most widespread energy-dependent proteases in bacteria. Their two-component architecture of protease core and ATPase rings results in an inventory of several Clp protease complexes that often coexist. Here, we present insights into Clp protease function, from their assembly to substrate recruitment and processing, and how this is coupled to the expense of energy.

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ClpA is a ring-shaped hexameric chaperone that binds to both ends of the protease ClpP and catalyzes the ATP-dependent unfolding and translocation of substrate proteins through its central pore into the ClpP cylinder. Here we study the relevance of ATP hydrolysis in the two ATPase domains of ClpA. We designed ClpA Walker B variants lacking ATPase activity in the first (D1) or the second ATPase domain (D2) without impairing ATP binding.

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Chaperone-proteases are responsible for the processive breakdown of proteins in eukaryotic, archaeal and bacterial cells. They are composed of a cylinder-shaped protease lined on the interior with proteolytic sites and of ATPase rings that bind to the apical sides of the protease to control substrate entry. We present a real-time FRET-based method for probing the reaction cycle of chaperone-proteases, which consists of substrate unfolding, translocation into the protease and degradation.

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Energy-dependent protein degradation is carried out by bipartite assemblies of conserved architecture. A chaperone ring comprising ATPase domains of the AAA+ -type caps both ends of a hollow protease cylinder, thereby controlling access to the active sites. Hydrolysis of ATP is translated into a force that unfolds substrates and translocates them into the protease.

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Vitamin B(6) is essential in all organisms, due to its requirement as a cofactor in the form of pyridoxal 5'-phosphate (PLP) for key metabolic enzymes. It can be synthesized de novo by either of two pathways known as deoxyxylulose 5-phosphate (DXP)-dependent and DXP-independent. The DXP-independent pathway is the predominant pathway and is found in most microorganisms and plants.

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ClpA is an Hsp100 chaperone that uses the chemical energy of ATP to remodel various protein substrates to prepare them for degradation. It comprises two AAA+ modules and the N-domain, which is attached N-terminally to the first AAA+ module through a linker. On the basis of cryo-electron microscopic and X-ray crystallographic data it has been suggested that the linker confers mobility to the N-domain.

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The ClpAP chaperone-protease complex is active as a cylindrically shaped oligomeric complex built of the proteolytic ClpP double ring as the core of the complex and two ClpA hexamers associating with the ends of the core cylinder. The ClpA chaperone belongs to the larger family of AAA+ ATPases and is responsible for preparing protein substrates for degradation by ClpP. Here, we study in real time using fluorescence and light scattering stopped-flow methods the complete assembly pathway of this bacterial chaperone-protease complex consisting of ATP-induced ClpA hexamer formation and the subsequent association of ClpA hexamers with the ClpP core cylinder.

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The phenotypic spectrum of PINK1-associated Parkinsonism was studied in a family with homozygous (n = 4) or heterozygous (n = 3) PINK1 mutations. All homozygous mutation carriers were definitely affected; the heterozygous carriers were asymptomatic but displayed unequivocal signs of probable or possible Parkinsonism. This finding suggests a role not only of homozygous but also of heterozygous PINK1 mutations in the development of parkinsonian signs and underlines the necessity to carefully investigate family members of affected mutation carriers.

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We have followed up a patient with 8q24.2 --> qter and 15q14 --> pter duplication due to a maternal reciprocal translocation, a condition related to Prader-Willi Syndrome. Apart from dysmorphic features, the patient suffered from recurring episodes of bipolar psychosis.

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