The invention provides systems and methods for rapid automated identification of microbes and antimicrobial susceptibility testing (AST) directly from a patient specimen, without specimen preparation. Specimens are loaded into an analytical cartridge for processing. Analytical cartridges are preloaded with species-specific labels that are used to identify and enumerate microbes in the specimen. Instruments, such as analyzers can be used to interact with analytical cartridges to carry out methods of the invention all within the cartridge.

The present invention relates to a method for diagnosing esthetic degradations of skin, in particular linked to pollution, in a subject, comprising a step (a) of determining, in a skin sample of the subject, the level of at least one marker chosen from the group constituted of (i) bacteria of the species Propionibacterim acnes, bacteria of the family Micrococcaceae, bacteria of the genus Brachybacterium, bacteria of the genus Brevibacterium, bacteria of the order Burkholderiales, bacteria of the genus Parococcus, bacteria of the family Rhodobacteraceae and bacteria of the genus Fusobacterium, and (ii) metabolites of these bacteria chosen from 3-hydroxy-3-methylglutarate, 3-methylglutarate/2-methylglutarate, 4-guanidinobutanoate, 4-imidazoleacetate, 5-oxoproline, aconitrate, adipate, alanine, alpha-cetoglutarate, arabonate/xylonate, azelate, beta-citrylglutamate, choline, cis-urocanate, citraconate/glutaconate, fructose, fumarate, gamma-glutamylalanine, gamma-glutamylglutamine, gamma-glutamylglycine, gamma-glutamylisoleucine, gamma-glutamylleucine, gamma-glutamylsérine, gamma-glutamylthréonine, gamma-glutamyltryptophane, gamma-glutamylvaline, glutarate, glycerate, glycerol-3-phosphate, glycine, isovalerylglycine, kynurenate, lactate, linoleoyl ethanolamide, malate, maleate, malonate, maltose, methionine sulfoxide, methylsuccinate, N-acetylalanine, N-acetylarginine, N-acetylaspartate, N-acetylglycine, N-acetylhistidine, N-acetylphenylalanine, N-acetylthréonine, N-acetylvaline, oleamide, ornithine, palmitamide, pimelate, proline, salicylate, sebacate, serine, suberate, succinate, undecanedioate and S-amino-omega caprolactam.

The present invention relates to a method for diagnosing esthetic degradations of skin, in particular linked to pollution, in a subject, comprising a step (a) of determining, in a skin sample of the subject, the level of at least one marker chosen from the group constituted of (i) bacteria of the species Propionibacterim acnes, bacteria of the family Micrococcaceae, bacteria of the genus Brachybacterium, bacteria of the genus Brevibacterium, bacteria of the order Burkholderiales, bacteria of the genus Parococcus, bacteria of the family Rhodobacteraceae and bacteria of the genus Fusobacterium, and (ii) metabolites of these bacteria chosen from 3-hydroxy-3-methylglutarate, 3-methylglutarate/2-methylglutarate, 4-guanidinobutanoate, 4-imidazoleacetate, 5-oxoproline, aconitrate, adipate, alanine, alpha-cetoglutarate, arabonate/xylonate, azelate, beta-citrylglutamate, choline, cis-urocanate, citraconate/glutaconate, fructose, fumarate, gamma-glutamylalanine, gamma-glutamylglutamine, gamma-glutamylglycine, gamma-glutamylisoleucine, gamma-glutamylleucine, gamma-glutamylsérine, gamma-glutamylthréonine, gamma-glutamyltryptophane, gamma-glutamylvaline, glutarate, glycerate, glycerol-3-phosphate, glycine, isovalerylglycine, kynurenate, lactate, linoleoyl ethanolamide, malate, maleate, malonate, maltose, methionine sulfoxide, methylsuccinate, N-acetylalanine, N-acetylarginine, N-acetylaspartate, N-acetylglycine, N-acetylhistidine, N-acetylphenylalanine, N-acetylthréonine, N-acetylvaline, oleamide, ornithine, palmitamide, pimelate, proline, salicylate, sebacate, serine, suberate, succinate, undecanedioate and S-amino-omega caprolactam.

Provided are a method for predicting a treatment response to cancer immunotherapy, the method comprising a step of evaluating, from feces isolated from a patient, the enrichment of a strain of the order TANB77 according to GTDB phylogenetic classification or taxa belonging to the order TANB77, and a step of predicting a treatment response of the patient to cancer immunotherapy on the basis of the enrichment of the order TANB77 or the taxa; a probiotics composition for improving a treatment response; a fecal microbiota transplantation composition; and a method for screening for candidate prebiotics by using same.

Provided herein are methods and compositions for providing identification and/or traceability of biological materials. In certain embodiments, methods are provided including steps of: determining a sequence of at least one unique identifier sequence in the genomic DNA of a biological entity; validating identification of the biological entity by verifying presence of the unique identifier sequence in the genomic DNA and comparing the sequence of the unique identifier sequence with a database to confirm uniqueness; providing an indication of acceptability to produce a biological material from the biological entity; and inputting the unique identifier sequence into a database entry of the database and associating the unique identifier sequence with identification and/or tracking information; thereby providing traceability by reading the unique identifier sequence and retrieving the corresponding database entry to obtain the identification and/or tracking information. Oligonucleotides, cassettes, and compositions for providing identification and/or traceability of biological materials are also provided.

A method for visualizing microbiome data is described. Respective microbes and/or genes in microbiome data stored In in a database are identified. A network comprising nodes interconnected by edges is generated in a memory of a computer, each node representing one or more identified microbes or one or more microbial metabolites, and each edge of the network representing an association between a respective pair of the one or more identified microbes or a reaction mediated between two metabolites by an enzyme encoded in the one or more identified genes, with at least some nodes and edges of the network being each associated with a condition attribute identifying a groups and/or a timestamp associated with a sample in the database. The displayed network is dynamically updated in accordance with a filtering of the microbiome data based on the condition attributed and/or the timestamp attributed. Corresponding systems and computer-readable storages are also described.

Techniques are provided for generating an array-specific range of Tm values to be used for calling a sample in a given array positive or negative for a target nucleic acid sequence. A sample well in an array is provided with a control sample containing a control nucleic acid sequence. The control sample is amplified by thermal cycling the sample well. A Tm value for the control sample is identified and compared to an expected Tm value for the control nucleic acid sequence to calculate a relationship between the identified control Tm value and the expected control Tm value. By applying this relationship to an expected Tm value for a target nucleic acid sequence, an array-specific range of Tm values for the target nucleic acid sequence is generated and can be used for calling an experimental sample in the same array positive or negative for the target nucleic acid sequence.

The present disclosure belongs to the technical field of genetic modification of an enzyme preparation and particularly relates to a preparation method of a high-stability superoxide dismutase with a transmembrane capability. The method includes the following steps: extracting mRNA from Geobacillus stearothermophilus, synthesizing cDNA by a reverse transcription method, amplifying a large number of coding regions of the cDNA by designing a specific primer, ligating the coding regions to an E. coli expression vector, and transforming the coding regions into engineering bacteria BL21 (DE3). A point mutation technology is used to enhance stability of the superoxide dismutase and a flexible polypeptide linker GGGSGGGS (SEQ ID NO: 11) is designed, such that a soluble fusion expression of a transmembrane peptide YGRKKRRQRRR (SEQ ID NO: 10) and the superoxide dismutase is successfully realized.

The invention relates to the production of one or more terpenoids through microbial engineering, and relates to the manufacture of products comprising terpenoids.

The invention relates to the production of one or more terpenoids through microbial engineering, and relates to the manufacture of products comprising terpenoids.