The present application provides a process for sequestering carbon dioxide to produce a biomass containing reaction product, the process comprising the steps of: I. contacting a raw carbon dioxide-containing feedstock with an absorption or dissolution medium to form a reagent stream comprising dissolved or absorbed inorganic carbon at least in the form of HCO.sub.3.sup.- and CO.sub.3.sup.2- wherein the HCO.sub.3.sup.- :CO.sub.3.sup.2- molar ratio in the reagent stream is at least about 0.8; II. contacting at least a portion of the reagent stream with a microbial broth in a bioreactor to produce a biomass-containing reaction product; III. separating the biomass-containing reaction product into a biomass product and a liquid stream; and IV. recycling at least a portion of the liquid stream to step i. of the process for use as, or as part of, the absorption or dissolution medium,wherein the pH of the absorption or dissolution medium is controlled to maintain the HCO.sub.3.sup.- :CO.sub.3.sup.2- molar ratio in the reagent stream at least about 0.8.

Provided are various genetically engineered strains of TEKK microorganisms, e.g., yeast in a container of industrial-scale volume containing biomass, wherein the microorganisms are capable of fermenting C5 material to produce desirable organic compounds. Also provided are methods for efficiently producing industrial-scale volumes of the desirable organic compounds, e.g., lactic acid, by TEKK strains of microorganisms such as TEKK-LAC and variants thereof.

Provided are various genetically engineered strains of TEKK microorganisms, e.g., yeast in a container of industrial-scale volume containing biomass, wherein the microorganisms are capable of fermenting C5 material to produce desirable organic compounds. Also provided are methods for efficiently producing industrial-scale volumes of the desirable organic compounds, e.g., lactic acid, by TEKK strains of microorganisms such as TEKK-LAC and variants thereof.

A Methylobacterium sp. nov. strain, deposited under accession number CECT 9580, to compositions comprising it, and its use as bio-stimulant and endophyte nitrogen-fixing bacterium in plants.

A Methylobacterium sp. nov. strain, deposited under accession number CECT 9580, to compositions comprising it, and its use as bio-stimulant and endophyte nitrogen-fixing bacterium in plants.

The present application relates to systems and methods for transporting biological samples, including a transport medium configured to protect bacterial viability and optimize sample quality, for enhanced diagnostic accuracy. The disclosed systems and methods can include a transport media, a collection tube including a screen and sampling brush, and a transport case. The disclosed systems and methods allow samples to be frozen and thawed while preserving cellular wall integrity during transport or storage, and furthermore can preserve the survival of the bacterial sample, enabling more accurate detection of an infectious agent.

The present application relates to systems and methods for transporting biological samples, including a transport medium configured to protect bacterial viability and optimize sample quality, for enhanced diagnostic accuracy. The disclosed systems and methods can include a transport media, a collection tube including a screen and sampling brush, and a transport case. The disclosed systems and methods allow samples to be frozen and thawed while preserving cellular wall integrity during transport or storage, and furthermore can preserve the survival of the bacterial sample, enabling more accurate detection of an infectious agent.

The invention relates to the cultivation of URA for producing biomass for the production of products of interest, such as dry biomass or compounds or mixtures of compounds of interest extracted from the biomass produced, particularly food pigments or colouring agents. The invention more particularly relates to the industrial production of said biomass, which must satisfy an economic equilibrium of profitability, with both an increase in productivity (quantity of biomass and of compounds of interest in the biomass) and an economically acceptable production cost.

The present application relates to systems and methods for transporting biological samples, including a transport medium configured to protect bacterial viability and optimize sample quality, for enhanced diagnostic accuracy. The disclosed systems and methods can include a transport media, a collection tube including a screen and sampling brush, and a transport case. The disclosed systems and methods allow samples to be frozen and thawed while preserving cellular wall integrity during transport or storage, and furthermore can preserve the survival of the bacterial sample, enabling more accurate detection of an infectious agent.

The present application relates to systems and methods for transporting biological samples, including a transport medium configured to protect bacterial viability and optimize sample quality, for enhanced diagnostic accuracy. The disclosed systems and methods can include a transport media, a collection tube including a screen and sampling brush, and a transport case. The disclosed systems and methods allow samples to be frozen and thawed while preserving cellular wall integrity during transport or storage, and furthermore can preserve the survival of the bacterial sample, enabling more accurate detection of an infectious agent.