Surfactants based on a newly discovered class of compounds include a hydrophobic lipid oligomer covalently linked to a peptide or peptide-like chain and a carbohydrate moiety, and a serine-leucinol dipeptide linked to the lipid oligomer. Such surfactants can be used to create an oil-in-water or water-in-oil emulsion by mixing together a polar component; a non-polar component; and the surfactant. Biosurfactants of the newly discovered class can be made by isolating and culturing a microorganism which produces the biosurfactant, and then isolating the biosurfactant from the culture. A microorganism can be engineered to produce biosurfactant of this newly discovered class by expressing a set of heterologous genes involved in the biosynthesis of the biosurfactant in the microorganism.

Surfactants based on a newly discovered class of compounds include a hydrophobic lipid oligomer covalently linked to a peptide or peptide-like chain and a carbohydrate moiety, and a serine-leucinol dipeptide linked to the lipid oligomer. Such surfactants can be used to create an oil-in-water or water-in-oil emulsion by mixing together a polar component; a non-polar component; and the surfactant. Biosurfactants of the newly discovered class can be made by isolating and culturing a microorganism which produces the biosurfactant, and then isolating the biosurfactant from the culture. A microorganism can be engineered to produce biosurfactant of this newly discovered class by expressing a set of heterologous genes involved in the biosynthesis of the biosurfactant in the microorganism.

The present invention relates to a synthetic saccharide of general formula (I) that is related to Klebsiella pneumoniae serotype O1, O2, O2ac, and O8 O-polysaccharide and carbapenem-resistant Klebsiella pneumoniae ST258 O-polysaccharide and conjugate thereof. Said synthetic saccharide, said conjugate and pharmaceutical composition containing said synthetic saccharide or said conjugate are useful for prevention and/or treatment of diseases associated with Klebsiella pneumoniae. Furthermore, the synthetic saccharide of general formula (I) is useful as marker in immunological assays for detection of antibodies against Klebsiella pneumoniae bacteria.

Phytosphingosine derivatives suitable as adjuvants in immune stimulation, pharmaceutical compositions comprising such compounds and the medical use of the compounds and/or compositions in therapeutic or prophylactic methods of immune stimulation in a subject, and for use in the treatment of a disease, for which stimulation of an immune response in a subject produces a therapeutic benefit. The phytosphingosine derivative may also be used as adjuvants in vaccinating a subject. The phytosphingosine derivative may also be used in stimulating antibody production, stimulating an immune response against infection, stimulating an immune response against a cancer, or preventing and/or treating septic shock. Methods for the manufacture of the derivatives comprising an Ugi-4-component reaction (Ugi-4CR) is also disclosed.

Phytosphingosine derivatives suitable as adjuvants in immune stimulation, pharmaceutical compositions comprising such compounds and the medical use of the compounds and/or compositions in therapeutic or prophylactic methods of immune stimulation in a subject, and for use in the treatment of a disease, for which stimulation of an immune response in a subject produces a therapeutic benefit. The phytosphingosine derivative may also be used as adjuvants in vaccinating a subject. The phytosphingosine derivative may also be used in stimulating antibody production, stimulating an immune response against infection, stimulating an immune response against a cancer, or preventing and/or treating septic shock. Methods for the manufacture of the derivatives comprising an Ugi-4-component reaction (Ugi-4CR) is also disclosed.

The invention relates to the use of, and methods of use employing, certain glycolipid compounds as defined in detail below and having preservative or antimicrobial properties, novel compounds of the glycolipid class, and related invention embodiments. The compounds have the formula I ##STR00001##
wherein m is 3 to 5, n is 2 to 5, o is 0 or 1 and p is 3 to 17, with the proviso that the sum m+n+o+p is not less than 14; and
R is a carbohydrate moiety bound via one of its carbon atoms to the binding oxygen,
and/or a physiologically, especially pharmaceutically or nutraceutically or cosmetically, acceptable salt thereof, or an ester thereof,
as such or in the form of a composition,
where the compound may be present in open chain form and/or in the form of a lactone (FIG. 1).

The invention relates to the use of, and methods of use employing, certain glycolipid compounds as defined in detail below and having preservative or antimicrobial properties, novel compounds of the glycolipid class, and related invention embodiments. The compounds have the formula I ##STR00001##
wherein m is 3 to 5, n is 2 to 5, o is 0 or 1 and p is 3 to 17, with the proviso that the sum m+n+o+p is not less than 14; and
R is a carbohydrate moiety bound via one of its carbon atoms to the binding oxygen,
and/or a physiologically, especially pharmaceutically or nutraceutically or cosmetically, acceptable salt thereof, or an ester thereof,
as such or in the form of a composition,
where the compound may be present in open chain form and/or in the form of a lactone (FIG. 1).

Methods and computer systems are described herein for identifying small molecules that bind to selected RNA structural features (e.g., to RNA secondary structures). Also described are compounds and compositions that modulate RNA function and/or activity.

Methods and computer systems are described herein for identifying small molecules that bind to selected RNA structural features (e.g., to RNA secondary structures). Also described are compounds and compositions that modulate RNA function and/or activity.

A compound for forming a conjugate with an active agent such as an oligonucleotide having a structure represented by Formula (321). The present disclosure also provides a corresponding conjugate. The conjugate of the present disclosure can specifically target hepatocytes, thereby effectively solve the problems associated with delivery of oligonucleotide drugs in vivo, and have low toxicity and excellent delivery efficiency while maintaining high stability for the delivered oligonucleotide. ##STR00001##