Abstract: The invention relates to a method, to a surface, to a particle, and to a kit for the detection of low molecular weight analytes such as crop protection agents in samples. In particular, the invention relates to a method for the detection of glyphosate through protein-functionalised surfaces and functionalised particles by means of reflection interference contrast microscopy (RICM).

Abstract: The invention relates to methods for coating a substrate with at least one monolayer of self-assembling proteins, using stabilized aqueous solutions with self-assembling proteins, and also to substrates obtainable as a result. Methods for stabilizing solutions with self-assembling proteins, and the stabilized solutions obtainable therefrom, are likewise provided by the invention. According to the coating method, at least one monolayer of a self-assembling protein is produced on a substrate by first providing a stabilized aqueous solution which comprises at least one self-assembling protein.

Abstract: The invention relates to methods for coating a substrate with at least one monolayer of self-assembling proteins, using stabilized aqueous solutions with self-assembling proteins, and also to substrates obtainable as a result. Methods for stabilizing solutions with self-assembling proteins, and the stabilized solutions obtainable therefrom, are likewise provided by the invention. According to the coating method, at least one monolayer of a self-assembling protein is produced on a substrate by first providing a stabilized aqueous solution which comprises at least one self-assembling protein.

Abstract: The invention relates to devices and methods for detecting a substance by cell surface polarizations and the detection thereof by means of PPR or particle-mediated fluorescence. The device for detecting a substance by cell surface polarization according to the invention has cells, wherein a gene the expression of which leads to the polarized presentation of a protein on the surface of the cell is placed under the control of a promotor which can be regulated by the substance to be detected, nanoparticles which are functionalized with a molecule which can bind specifically to the surface-exposed protein, and at least one optical measurement device, such that an accumulation of the nanoparticles on the surface of the cells can be detected by particle plasmon resonance or particle-mediated fluorescence.

Abstract: The invention relates to whole-cell sensors for monitoring bioavailable nitrogen, phosphorus and sulphur, individually or in at least one combination in a medium, and to the use thereof. The whole-cell sensors consist of genetically modified yeast cells which are immobilised in a xerogel matrix and contain at least one marker gene controlled by a promoter of a gene, the transcription of said gene being significantly increased or reduced in the absence of nitrogen, phosphorus or sulphur, and the yeast cells are at least coupled to a signal detector.

Abstract: In a method for detection of microorganisms and/or their activity with biosensors, on a surface of a substrate over portions thereof at least one ligand for binding a receptor or at least one receptor for a ligand or at least one ligand for binding a receptor and at least one receptor for either the one or a further ligand are immobilized chemically, physically, or biologically, wherein physical or physicochemical changes, caused at receptors by binding of ligands that are emitted by microorganisms in the process of quorum sensing are measured.

Abstract: The invention relates to a method for the biotechnological production of xylitol, in which micro-organisms capable of metabolizing xylose to xylitol are used by modifying micro-organisms such that oxidation of NADH by enzymes other than the xylose reductase is reduced or excluded, cultivating the micro-organisms in a substrate containing xylose and 10-40 grams per liter of sulfite salt, and enriching the xylitol and recovering it from the substrate.