Abstract: The present invention relates to a method of selectively amplifying at least one nucleic acid sequence of at least one microorganism and/or virus in a sample of a subject, wherein k-mers 3 are applied that show a difference in frequency and/or context in the genome 2 of the at least one microorganism and/or virus compared to the genome of the subject 1.

Abstract: Disclosed are methods of predicting a radiotherapy success in a method of treating a lung cancer of a patient, the use of specific markers for predicting a radiotherapy success in a method of treating a lung cancer of a patient, a database comprising the markers, and a computer program product for use in such a method.

Abstract: The invention relates to methods and devices for preparing synthetic nucleic acids.

Abstract: The invention relates to a method for converting carbon dioxide and water, wherein the electrolyte comprises a proton sponge which serves to accumulate CO2 in the electrolyte. The invention further relates to a corresponding use of a proton sponge and to an electrolyte comprising at least one proton sponge.

Abstract: The present invention relates to a method of selectively amplifying at least one nucleic acid sequence of at least one microorganism and/or virus in a sample of a subject, wherein k-mers 3 are applied that show a difference in frequency and/or context in the genome 2 of the at least one microorganism and/or virus compared to the genome of the subject 1.

Abstract: A biochemical analytical device and a biochemical analytical method for determining an analyte in a test sample are provided. In the technique, the biochemical analytical device includes a sample port to receive the test sample, a sensor to probe the test sample and to generate sensor data, and a processor. The sensor data corresponds to the analyte in the test sample. The processor receives the sensor data from the sensor and selects a non-linear function for the received sensor data. The processor fits the selected non-linear function to the sensor data. Additionally, the processor compares the fitted non-linear function to a reference data to determine the analyte in the test sample.

Abstract: The invention relates to methods and devices for preparing synthetic nucleic acids.

Abstract: The invention relates to a method for converting carbon dioxide and water, wherein the electrolyte comprises a proton sponge which serves to accumulate CO2 in the electrolyte. The invention further relates to a corresponding use of a proton sponge and to an electrolyte comprising at least one proton sponge.

Abstract: The invention relates to a method for the sequence information of PNA molecules of a specific PNA molecule species, wherein, the PNA molecules are contacted with different nucleic acid molecule species comprising nucleic acid molecules with nucleotides, wherein the nucleic acid molecules partially comprise a nucleic acid sequence that is complementary to a partial sequence of the PNA molecule, wherein nucleic acid molecules having complementary sequences bind to the PNA molecules forming nucleic acid/PNA hybrids, wherein nucleic acid molecules with non-complementary sequences are separated from the hybrids, wherein thereafter the hybrids are dissociated into single stranded hybrid nucleic acid molecules and PNA molecules, wherein the single stranded hybrid nucleic acid molecules are subjected to a sequencing process providing hybrid sequence information about the single stranded hybrid nucleic acid sequence, and wherein the hybrid sequence information is optionally translated into the complementary PNA sequen

Abstract: The invention relates to improved molecular-biological processing equipment and an improved method of processing biological samples. The invention combines the provision of biologically functional molecules such as nucleic acids and peptides and of derivatives or analogs of these two classes of molecules in miniaturized flow cells with the sequential addition of reagents or fluids and serves for the processing of biological samples, such as proteins, nucleic acids, biogenic small molecules such as e.g. metabolites, viruses or cells, which for this purpose are introduced into the miniaturized flow cells.

Abstract: The invention relates to an extraction method for isolating target molecules from a sample with the help of a molecule library.

Abstract: The invention relates to methods and devices for preparing synthetic nucleic acids.

Abstract: The invention relates to a method for determining an unknown PNA sequence information of PNA molecules of a specific PNA molecule species, wherein, the PNA molecules are contacted with one or several different nucleic acid molecule species comprising nucleic acid molecules with at least one nucleotide, wherein the nucleic acid molecules at least partially comprise a nucleic acid sequence that is complementary to at least a partial sequence of the PNA molecule, wherein nucleic acid molecules having complementary sequences bind to the PNA molecules forming nucleic acid/PNA hybrids, wherein nucleic acid molecules with non-complementary sequences are separated from the nucleic acid/PNA hybrids, wherein thereafter the nucleic acid/PNA hybrids are dissociated into single stranded hybrid nucleic acid molecules and PNA molecules, wherein the single stranded hybrid nucleic acid molecules are subjected to a sequencing process providing hybrid sequence information about the single stranded hybrid nucleic acid sequence,