Abstract: The invention is directed to a conjugate complex for detecting a target moiety in a sample of biological specimens having the general formula (I) An - Bm...Cq-Xo (I) with A: antigen recognizing moiety; B: first binding moiety C second binding moiety X: detection moiety; n, m, q, o integers between 1 and 100, wherein B and C are non-covalently bound to each other characterised in that B comprises a thiamine unit and C is a moiety recognizing thiamine. Futher, the invention is directed to a method detecting a target moiety in a sample of biological specimens with a conjugate complex having the general formula (I).

Abstract: The invention is directed to a conjugate having the general formula (I) With AR, MU and L1 as repeating units of a polymer MU is a polymer modifying unit or band gap modifying unit that is evenly or randomly distributed along the polymer main chain, L1 is an aryl or a heteroaryl group evenly or randomly distributed along the polymer, L2 is an aryl or a heteroaryl group located on the ends of the polymer, FL is a fluorescent moiety, G1 and G2 stand for hydrogen, halogen or an antigen recognizing moiety, with the provision than at least one of G1 or G2 is an antigen recognizing moiety, characterized in that AR is connected in the polymer chain via the 2,2? or 3,3? or 5,5? or 6,6? or 7,7? or 8,8? position according to general formula (II)

Abstract: The invention is directed to a conjugate having the general formula (I) Wherein AR, MU and MU* are repeating units of a polymer and MU and MU* are polymer modifying units or band gap modifying units which are evenly or randomly distributed along the polymer main chain, G1 and G2 stand for hydrogen, halogen or an antigen recognizing moiety, with the provision that at least one of G1 or G2 is an antigen recognizing moiety, a is 10 to 100 mol %, b is 0 to 90 mol % c is 0.

Abstract: The invention is directed to a conjugate having the general formula (I) Wherein AR and MU are repeating units of a polymer MU is a polymer modifying unit or band gap modifying unit that is evenly or randomly distributed along the polymer main chain, G1 and G2 stand for hydrogen, halogen or an antigen recognizing moiety, with the provision that at least one of G1 or G2 is an antigen recognizing moiety, a is 10 to 100 mol %, b is 0 to 90 mol % c is 1 to 10 000; with the provisio that a+b=100 mol % characterized in that AR is connected in the polymer chain via the 2,2? or 3,3? or 5,5? or 6,6? or 7,7? or 8,8? positions according to general formula (II) Wherein the remaining positions 2,2?; 3,3?; 4,4?; 5,5?; 6,6?; 7,7? and 8,8? are substituted with same or different residues selected from the group consisting of H, SO2CF3, SO2Ra, CF3, CCl3, CN, SO3H, NO2, NRaRbRc+, CHO, CORa, CO2Ra, COCl, CONRaRb, F, Cl, Br, I, Ra, ORa, SRa, OCORa, NRaRb, NHCORa, CCRa, aryl-, heteroaryl-, C6H4ORa or C6H4NRaRb, with

Abstract: The invention is directed to a conjugate for labelling a target moiety on a cell, characterized with the general formula (I) (Xo-L)n-P-Ym, with Y: antigen recognizing moiety recognizing the target moiety, P: enzymatically degradable spacer, X: fluorescent moiety, L: linker unit comprising one or more polyethyleneglycol residues n, m: integer between 1 and 100, o integer between 1 and 100 wherein L covalent bounds the fluorescent moiety X and the enzymatically degradable spacer P and Y is covalently bound to the enzymatically degradable spacer P and wherein the enzymatically degradable spacer P is selected from the group consisting of polysaccharides, polyesters, nucleic acids, and derivatives thereof. Method of detecting a target moiety in a sample of biological specimen with the conjugate.

Abstract: The invention is directed to a method for detecting a target moiety in a sample of biological specimens by providing a conjugate with the general formula (I) characterized in contacting the sample of biological specimens with at least one conjugate (I), thereby labeling the target moiety recognized by an antigen recognizing moiety with the conjugate (I); exciting the labelled target moieties with light having a wavelength within the absorbance spectrum of the fluorescent moiety FL; detecting the labelled target moieties by detecting the fluorescence radiation emitted by the fluorescent moiety FL and degrading the fluorescent moiety FL of the labelled target moieties by irradiating the conjugate with light having a wavelength within the absorbance spectrum of fluorescent moiety FL for a time sufficient to deliver enough energy to reduce the fluorescence radiation emitted by the fluorescent moiety FL at least by 75% of the initial fluorescence radiation.

Abstract: The invention is directed to a method for preparing a detection reagent for CAR expressing cells according to general formula (I) (X-S)m-D ??(I) wherein D is a detection moiety, S a spacer unit and X a polypeptide comprising 10 to 80 amino acids and a N3 group, which binds to the antigen binding domain of a chimeric antigen receptor of a cell and m=4-200, characterized in reacting p detection moieties D with a spacer S according to general formula (II) wherein R is a leaving group, q=1 to 5, and n=4 to 200 and p is 4-250 thereby forming modified detection moiety Sp-D and reacting the modified detection moiety Sp-D with a plurality of polypeptides X to yield (X-S)m-D.

Abstract: The invention is directed to the use or a method of using of a cell expressing a chimeric antigen recognition structure (CAR) bound to an adapter molecule, wherein: i) the CAR structure comprises a) an antigen binding domain specific for the tag of the adapter molecule, b) a transmembrane domain c) an intracellular domain wherein the ii) the adapter molecule comprises a) a tag which is specific for the antigen binding domain of the CAR structure b) a polypeptide comprising an antigen recognizing domain specific for an antigen expressed on the target cell, wherein the polypeptide comprises a heavy chain and a light chain connected by a sulphur atom-linker-sulphur atom bridge and wherein the linker is covalently bound to a single tag for targeting target cells, especially human tumor cells.

Abstract: The invention is directed to a method for detecting a target moiety in a sample of biological specimens by: a) providing at least one conjugate with the general formula (I) Xn—P—Ym, b) contacting the sample of biological specimens with at least one conjugate, thereby labeling the target moiety recognized by the antigen recognizing moiety Y with the conjugate c) exciting the labelled target moieties with light having a wavelength within the absorbance spectrum of fluorescent moiety X d) detecting the labelled target moieties by detecting the fluorescence radiation and e) degrading the fluorescent moiety X of the labelled target moieties by irradiating the conjugate with light having a wavelength within the absorbance spectrum of fluorescent moiety X Use of the method in fluorescence microscopy, flow cytometer, spectrofluorometry, cell separation, pathology or histology.

Abstract: The invention is directed to a Method for detecting a target moiety in a sample of biological specimens by: a) providing at least one conjugate with the general formula (I) An-P-Bm-Cq-Xo??(I) with A: antigen recognizing moiety; P: enzymatically degradable spacer; B: first binding moiety C second binding moiety X: detection moiety; n, m, q, o integers between 1 and 100, wherein B and C are non-covalently bound to each other and A and B are covalently bound to P b) labelling the target moiety recognized by the antigen recognizing moiety A with at least one conjugate c) detecting the labelled target moiety via detecting moiety X d) cleaving Cq-Xo by disrupting the non-covalent bond between Bm and Cq from the labelled target moiety e) cleaving the binding moiety Bm from the labelled target moiety by enzymatically degrading spacer P. The method is useful to identify target moieties on the biological specimens.

Abstract: The invention is directed to a Method for detecting a target moiety in a sample of biological specimens by: a) providing at least one conjugate with the general formula (I) An-P-Bm-Cq-Xo??(I) ?with A: antigen recognizing moiety; P: enzymatically degradable spacer; B: first binding moiety C second binding moiety X: detection moiety; n, m, q, o integers between 1 and 100, wherein B and C are non-covalently bound to each other and A and B are covalently bound to P b) labelling the target moiety recognized by the antigen recognizing moiety A with at least one conjugate c) detecting the labelled target moiety via detecting moiety X d) cleaving Cq-Xo by disrupting the non-covalent bond between Bm and Cq from the labelled target moiety e) cleaving the binding moiety Bm from the labelled target moiety by enzymatically degrading spacer P. The method is useful to identify target moieties on the biological specimens.

Abstract: The invention is directed to a method for detecting a target moiety in a sample of biological specimens by: a) providing at least one conjugate with the general formula (I) Xn—P—Ym, b) contacting the sample of biological specimens with at least one conjugate, thereby labeling the target moiety recognized by the antigen recognizing moiety Y with the conjugate c) exciting the labelled target moieties with light having a wavelength within the absorbance spectrum of fluorescent moiety X d) detecting the labelled target moieties by detecting the fluorescence radiation and e) degrading the fluorescent moiety X of the labelled target moieties by irradiating the conjugate with light having a wavelength within the absorbance spectrum of fluorescent moiety X Use of the method in fluorescence microscopy, flow cytometer, spectrofluorometry, cell separation, pathology or histology

Abstract: The invention is directed to a method for detecting a target moiety in a sample of biological specimens by: a) providing at least one conjugate with the general formula (I) Xn—P—Ym, with X is an detection moiety, P an enzymatically degradable spacer and Y an antigen recognizing moiety and n, m are integers between 1 and 100 and wherein X and Y are covalently bound to P; b) contacting the sample of biological specimens with at least one conjugate, thereby labeling the target moiety recognized by the antigen recognizing moiety Y; c) detecting the target moiety labeled with the conjugate with the detecting moiety X; and d) enzymatically degrading spacer P, thereby cleaving the detection moiety X from the conjugate. The method is useful to identify target moieties on the biological specimens. The biological specimens detected by the conjugate can be subsequently removed from the sample.

Abstract: The invention is directed to a releasable conjugate comprising a biotinylated ligand having a biotin moiety, a ligand moiety (Ligand1) and a biotin-binding molecule (bbm) bound to the biotin moiety of the biotinylated ligand. The ligand moiety of the biotinylated ligand may be separated by a spacer group consisting of polyethylene glycol. Furthermore, the invention relates to a method for cleaving the releasable conjugate by providing biotin or streptavidin and an auxiliary release agent in a sufficient concentration to displace the biotin-binding molecule (bbm) from the biotin moiety of the biotinylated ligand and a method for separation of target cells from a cell sample utilizing the conjugate.

Abstract: The invention is directed to a Method for detecting a target moiety in a sample of biological specimens by: a) providing at least one conjugate with the general formula (I) An-P-Bm-Cq-Xo??(I) ?with A: antigen recognizing moiety; P: enzymatically degradable spacer; B: first binding moiety C second binding moiety X: detection moiety; n, m, q, o integers between 1 and 100, wherein B and C are non-covalently bound to each other and A and B are covalently bound to P b) labelling the target moiety recognized by the antigen recognizing moiety A with at least one conjugate c) detecting the labelled target moiety via detecting moiety X d) cleaving Cq-Xo by disrupting the non-covalent bond between Bm and Cq from the labelled target moiety e) cleaving the binding moiety Bm from the labelled target moiety by enzymatically degrading spacer P. The method is useful to identify target moieties on the biological specimens.

Abstract: The invention is directed to a method for enriching target cells from a sample of cells characterized by: a) contacting the sample with a cell aggregation agent and first magnetic particles having an iron content of 0.1 pg to 5000 pg, coupled to a first antigen recognizing moiety; and second magnetic particles having an iron content of 0.05 fg to 100 fg and coupled to a second antigen recognizing moiety to obtain mixture a) b) applying a first magnetic field gradient to the mixture a) thereby removing the cells bound to the first antigen recognizing moiety coupled to the first magnetic particles, to obtain a mixture b) and obtaining an agglomerate comprising the cells of mixture a) bound to the cell aggregation agent c) applying a second magnetic field gradient to the mixture b) thereby immobilizing the cells bound to the second antigen recognizing moiety d) recovering the immobilized cells from the second magnetic field gradient as target cells.

Abstract: The invention is directed to a fluorescent dye according to the general formula I: with C is a core moiety comprising 20 to 200 atoms; S same or different ether residues comprising 1 to 10 carbon atoms; n is an integer ranging from 2 to 500; m is an integer ranging from 0 to 500; x is an integer ranging from 2 to 50; y is an integer ranging from 1 to 50; R same or different residue comprising a reactive group capable of forming a covalent bond with a biomolecule; F same or different fluorophores covalently bound to (S)n. The fluorescent dyes can be conjugated to a biomolecule and used for flow cytometry and/or by fluorescence microscopy.

Abstract: The invention is directed to a fluorescent dye according to the general formula I: with C is a core moiety comprising 20 to 200 atoms; S same or different ether residues comprising 1 to 10 carbon atoms; n is an integer ranging from 2 to 500; m is an integer ranging from 0 to 500; x is an integer ranging from 2 to 50; y is an integer ranging from 1 to 50; R same or different residue comprising a reactive group capable of forming a covalent bond with a biomolecule; F same or different fluorophores covalently bound to (S)n. The fluorescent dyes can be conjugated to a biomolecule and used for flow cytometry and/or by fluorescence microscopy.

Abstract: The invention is directed to a releasable conjugate comprising a biotinylated ligand having a biotin moiety, a ligand moiety (Ligand1) and a biotin-binding molecule (bbm) bound to the biotin moiety of the biotinylated ligand. The ligand moiety of the biotinylated ligand may be separated by a spacer group consisting of polyethylene glycol. Furthermore, the invention relates to a method for cleaving the releasable conjugate by providing biotin or streptavidin and an auxiliary release agent in a sufficient concentration to displace the biotin-binding molecule (bbm) from the biotin moiety of the biotinylated ligand and a method for separation of target cells from a cell sample utilizing the conjugate.

Abstract: The invention is directed to a method for detecting a target moiety in a sample of biological specimens by: a) providing at least one conjugate with the general formula (I) Xn-P-Ym, with X is an detection moiety, P an enzymatically degradable spacer and Y an antigen recognizing moiety and n, m are integers between 1 and 100 and wherein X and Y are covalently bound to P; b) contacting the sample of biological specimens with at least one conjugate, thereby labeling the target moiety recognized by the antigen recognizing moiety Y; c) detecting the target moiety labeled with the conjugate with the detecting moiety X; and d) enzymatically degrading spacer P, thereby cleaving the detection moiety X from the conjugate. The method is useful to identify target moieties on the biological specimens. The biological specimens detected by the conjugate can be subsequently removed from the sample.