The present invention relates to a complexed RNA, comprising at least one RNA complexed with one or more oligopeptides, wherein the oligopeptide, which has the function of cell-penetrating peptide (CPP), has a length of 8 to 15 amino acids and has the empirical formula (Arg).sub.i;(Lys).sub.m;(His).sub.n;(Om).sub.o;(Xaa).sub.x with the majority of residues being selected from Arg, Lys, His, Om. The invention further relates to a method for transfecting a cell or an organism, thereby applying the inventive complexed RNA. Additionally, pharmaceutical compositions and kits comprising the inventive complexed RNA, as well as the use of the inventive complexed RNA for transfecting a cell, tissue or an organism and/or for modulating, preferably inducing or enhancing, an immune response are disclosed herein.

The present invention relates to a complexed RNA, comprising at least one RNA complexed with one or more oligopeptides, wherein the oligopeptide, which has the function of cell-penetrating peptide (CPP), has a length of 8 to 15 amino acids and has the empirical formula (Arg).sub.l;(Lys).sub.m;(His).sub.n;(Om).sub.o;(Xaa).sub.x with the majority of residues being selected from Arg, Lys, His, Om. The invention further relates to a method for transfecting a cell or an organism, thereby applying the inventive complexed RNA. Additionally, pharmaceutical compositions and kits comprising the inventive complexed RNA, as well as the use of the inventive complexed RNA for transfecting a cell, tissue or an organism and/or for modulating, preferably inducing or enhancing, an immune response are disclosed herein.

The present invention relates to a complexed RNA, comprising at least one RNA complexed with one or more oligopeptides, wherein the oligopeptide, which has the function of cell-penetrating peptide (CPP), has a length of 8 to 15 amino acids and has the empirical formula (Arg).sub.l;(Lys).sub.m;(His).sub.n;(Om).sub.o;(Xaa).sub.x with the majority of residues being selected from Arg, Lys, His, Om. The invention further relates to a method for transfecting a cell or an organism, thereby applying the inventive complexed RNA. Additionally, pharmaceutical compositions and kits comprising the inventive complexed RNA, as well as the use of the inventive complexed RNA for transfecting a cell, tissue or an organism and/or for modulating, preferably inducing or enhancing, an immune response are disclosed herein.

The present invention relates to a complexed RNA, comprising at least one RNA complexed with one or more oligopeptides, wherein the oligopeptide, which has the function of cell-penetrating peptide (CPP), has a length of 8 to 15 amino acids and has the empirical formula (Arg).sub.l;(Lys).sub.m;(His).sub.n;(Om).sub.o;(Xaa).sub.x with the majority of residues being selected from Arg, Lys, His, Orn. The invention further relates to a method for transfecting a cell or an organism, thereby applying the inventive complexed RNA. Additionally, pharmaceutical compositions and kits comprising the inventive complexed RNA, as well as the use of the inventive complexed RNA for transfecting a cell, tissue or an organism and/or for modulating, preferably inducing or enhancing, an immune response are disclosed herein.

The present invention relates to a complexed RNA, comprising at least one RNA complexed with one or more oligopeptides, wherein the oligopeptide, which has the function of cell-penetrating peptide (CPP), has a length of 8 to 15 amino acids and has the empirical formula (Arg).sub.l;(Lys).sub.m;(His).sub.n;(Om).sub.o;(Xaa).sub.x with the majority of residues being selected from Arg, Lys, His, Om. The invention further relates to a method for transfecting a cell or an organism, thereby applying the inventive complexed RNA. Additionally, pharmaceutical compositions and kits comprising the inventive complexed RNA, as well as the use of the inventive complexed RNA for transfecting a cell, tissue or an organism and/or for modulating, preferably inducing or enhancing, an immune response are disclosed herein.

The present invention relates to a complexed RNA, comprising at least one RNA complexed with one or more oligopeptides, wherein the oligopeptide, which has the function of cell-penetrating peptide (CPP), has a length of 8 to 15 amino acids and has the empirical formula (Arg).sub.l;(Lys).sub.m;(His).sub.n;(Om).sub.o;(Xaa).sub.x with the majority of residues being selected from Arg, Lys, His, Om. The invention further relates to a method for transfecting a cell or an organism, thereby applying the inventive complexed RNA. Additionally, pharmaceutical compositions and kits comprising the inventive complexed RNA, as well as the use of the inventive complexed RNA for transfecting a cell, tissue or an organism and/or for modulating, preferably inducing or enhancing, an immune response are disclosed herein.

The present invention relates to a complexed RNA, comprising at least one RNA complexed with one or more oligopeptides, wherein the oligopeptide, which has the function of cell-penetrating peptide (CPP), has a length of 8 to 15 amino acids and has the empirical formula (Arg).sub.l;(Lys).sub.m;(His).sub.n;(Orn).sub.o;(Xaa).sub.x with the majority of residues being selected from Arg, Lys, His, Orn. The invention further relates to a method for transfecting a cell or an organism, thereby applying the inventive complexed RNA. Additionally, pharmaceutical compositions and kits comprising the inventive complexed RNA, as well as the use of the inventive complexed RNA for transfecting a cell, tissue or an organism and/or for modulating, preferably inducing or enhancing, an immune response are disclosed herein.

The present invention relates to methods of producing sugar phosphates by enzymatic transphosphorylation, wherein the phosphoryl transfer from phosphate donor substrates to sugar substrates is catalyzed by an enzyme having alpha-glucose-1-phosphatase activity. Furthermore, the present invention relates to a biocatalyst having sucrose phosphorylase as well as alpha-glucose-1-phosphatase activity and its use. The production of an enzyme having alpha-glucose-1-phosphatase activity and its use in the transphosphorylation of sugar substrates is also presented herein.

The present invention relates to glycosylating polyphenols via biocatalysis. More specifically the present invention discloses particular mutants of the thermostable sucrose phosphorylase derived from the microorganism Thermoanaerobacterium thermosaccharolyticum which efficiently glycosylate polyphenols such as resveratrol.

The present invention relates to a complexed RNA, comprising at least one RNA complexed with one or more oligopeptides, wherein the oligopeptide, which has the function of cell-penetrating peptide (CPP), has a length of 8 to 15 amino acids and has the empirical formula (Arg).sub.l; (Lys).sub.m; (His).sub.n; (Orn).sub.o; (Xaa).sub.x with the majority of residues being selected from Arg, Lys, His, Orn. The invention further relates to a method for transfecting a cell or an organism, thereby applying the inventive complexed RNA. Additionally, pharmaceutical compositions and kits comprising the inventive complexed RNA, as well as the use of the inventive complexed RNA for transfecting a cell, tissue or an organism and/or for modulating, preferably inducing or enhancing, an immune response are disclosed herein.