The present disclosure relates to glycolipid compositions, methods for making glycolipid compositions, and their uses thereof. Glycolipid compositions can be prepared via yeast-mediated catalyzed reaction, and exhibit excellent surfactant properties having high corrosion inhibition performance, good reducing surface tension efficiency. Processes of the present disclosure can provide glycolipid compositions having one or more of: a ratio of lactonic glycolipids to glycolipid acylic esters is from about 1:10 to about 10:1, a molecular weight of from about 400 g/mol to about 10,000 g/mol, a corrosion rate of carbon steel from about 0.5 MPY to about 100 MPY at room temperature and at pH 4-6. Furthermore, aqueous solutions of the glycolipid compositions of the present disclosure can have a surface tension of from about 20 mN/m to about 80 mN/m.

The invention relates to treatment of waste with one or more microorganisms for the purposes of, including but not limited to, degrading waste, bioremediation of waste, enhancing waste stabilization, reducing contaminants in waste, reducing odor in waste, reducing organics in waste, and combinations thereof. More particularly, the invention relates to isolated Bacillus strains, and strains having all of the identifying characteristics of these strains, and combinations thereof, for uses comprising the above-mentioned uses.

The present disclosure provides recombinant microorganisms capable of sugar co-utilization, the recombinant microorganism comprising a genetically altered microorganism (e.g. S. cerevisiae) having a lack of, or reduced expression of, or expression of truncated or mutated forms of at least one polypeptide selected from Hxk1, Hxk2, and Glk1. Reduction of the expression or biological activity of Hxk1, Hxk2 and Glk1 leads to reduction in the glucose consumption pathway, allowing the microorganism to co-utilize multiple sugars (e.g. glucose, xylose, galactose) at an improved rate.

The present disclosure provides recombinant microorganisms capable of sugar co-utilization, the recombinant microorganism comprising a genetically altered microorganism (e.g. S. cerevisiae) having a lack of, or reduced expression of, or expression of truncated or mutated forms of at least one polypeptide selected from Hxk1, Hxk2, and Glk1. Reduction of the expression or biological activity of Hxk1, Hxk2 and Glk1 leads to reduction in the glucose consumption pathway, allowing the microorganism to co-utilize multiple sugars (e.g. glucose, xylose, galactose) at an improved rate.

The invention provides an automated method for selecting a microbial strain from within a microbial strain library which can degrade or emulsify a target oil substrate. An apparatus, device or system adapted to perform the method of the invention is further provided. The use of the method of the invention in a method for preparing a microbial inoculum suitable for use to degrade or emulsify a target oil substrate; in a method of treating an oil reservoir or environmental remediation; and in a method for producing a biosurfactant-like substance is also provided.

The invention provides an automated method for selecting a microbial strain from within a microbial strain library which can degrade or emulsify a target oil substrate. An apparatus, device or system adapted to perform the method of the invention is further provided. The use of the method of the invention in a method for preparing a microbial inoculum suitable for use to degrade or emulsify a target oil substrate; in a method of treating an oil reservoir or environmental remediation; and in a method for producing a biosurfactant-like substance is also provided.

Provided herein is a method for obtaining flowable oil comprising the steps of providing a population of oil-producing microorganisms; recovering oil from the microorganisms, wherein the oil is at a first temperature; reducing the first temperature over a first period of time to a second temperature; and applying mechanical energy to the oil during the first period of time thereby producing the flowable oil.

Provided herein is a method for obtaining flowable oil comprising the steps of providing a population of oil-producing microorganisms; recovering oil from the microorganisms, wherein the oil is at a first temperature; reducing the first temperature over a first period of time to a second temperature; and applying mechanical energy to the oil during the first period of time thereby producing the flowable oil.

A method of enhanced oil recovery that includes water-flooding an oil reservoir with an alkaline fluid or a fluid containing a compound toxic to indigenous microbes and inoculating the oil reservoir with a consortium comprising microbes that naturally are, or are engineered to be, obligatory alkaphilic, halo-alkaphilic or alkaline tolerant, and naturally are, or are engineered to be, deficient in their ability to utilize short chain hydrocarbons of 12 carbons or less but have the ability to convert hydrocarbons into fatty acids.

A method of enhanced oil recovery that includes water-flooding an oil reservoir with an alkaline fluid or a fluid containing a compound toxic to indigenous microbes and inoculating the oil reservoir with a consortium comprising microbes that naturally are, or are engineered to be, obligatory alkaphilic, halo-alkaphilic or alkaline tolerant, and naturally are, or are engineered to be, deficient in their ability to utilize short chain hydrocarbons of 12 carbons or less but have the ability to convert hydrocarbons into fatty acids.