Cartridge, kit and method for manipulating liquids having biological samples

What is claimed is: 1. A cartridge ( 40 ) for enabling droplet manipulation by electrowetting and processing of biological samples with a liquid droplet manipulation instrument ( 20 ) that comprises a control unit ( 23 ), an electrode selector ( 34 ), and a voltage control ( 29 ); said electrode selector ( 34 ) being configured to individually select electrodes ( 35 ) of at least one electrode array ( 21 ) and provide selected electrodes ( 35 ) with a voltage controlled by said voltage control ( 29 ); the liquid droplet manipulation instrument ( 20 ) thus being configured to control a guided movement of a liquid droplet ( 19 ) on a hydrophobic upper surface ( 16 ) of a flat polymer film ( 14 ) by electrowetting, wherein the cartridge ( 40 ) comprises: a container ( 2 ) having a top side ( 3 ) and a base side ( 4 ) and comprising at least one well ( 6 , 6 ′) open at the top side ( 3 ), wherein the base side ( 4 ) of the container ( 2 ) comprises protrusions ( 5 ) distributed thereon; and a flat polymer film ( 14 ) having a lower surface ( 15 ) and a hydrophobic upper surface ( 16 ), which is kept at a distance (d) to the base side ( 4 ) of the container ( 2 ) by the protrusions ( 5 ), the distance (d) defining at least one gap ( 17 ) when the container ( 2 ) is positioned on the flat polymer film ( 14 ), abutting the latter with its protrusions ( 5 ); wherein the container ( 2 ) and the flat polymer film ( 14 ) are configured to be reversibly attachable to the liquid droplet manipulation instrument ( 20 ) in a way that the lower surface ( 15 ) of the flat polymer film ( 14 ) abuts said at least one electrode array ( 21 ) of the liquid droplet manipulation instrument ( 20 ), and wherein the container ( 2 ) has an analyzing area ( 33 ) accessible by optical means ( 38 ) and positioned above a region of the hydrophobic upper surface ( 16 ) of the flat polymer film ( 14 ), which is configured for processing a biological sample ( 9 ). 2. The cartridge ( 40 ) of claim 1 , wherein at least one well ( 6 ′) is configured as storage for a reaction reagent ( 10 ), the stored reaction reagent ( 10 ) comprising reagents selected from a group comprising reagents for performing cell lysis, reagents for performing nucleic acid purification, reagents for performing nucleic acid amplification and reagents for performing sequencing of nucleic acids. 3. The cartridge ( 40 ) of claim 1 , wherein the container ( 2 ) further comprises at least one well ( 6 ) for positioning a biological sample ( 9 ) and further wells ( 6 ′) for storing required reaction reagents ( 10 ), with one dedicated well ( 6 ′) for each reaction reagent ( 10 ). 4. The cartridge ( 40 ) of claim 1 , wherein the protrusions ( 5 ) of the container ( 2 ) have a height that defines a gap ( 17 ) between the hydrophobic upper surface ( 16 ) of the flat polymer film ( 14 ) and the base side ( 4 ) of the container ( 2 ) of less than 2 mm or less than 1 mm when the container ( 2 ) is positioned on the flat polymer film ( 14 ). 5. The cartridge ( 40 ) of claim 1 , wherein the protrusions ( 5 ) are parts of the container ( 2 ) or are stably attached to the base side ( 4 ) of the container ( 2 ). 6. The cartridge ( 40 ) of claim 1 , wherein the container ( 2 ) is made by injection molding and comprises means for identification ( 30 ). 7. The cartridge ( 40 ) according to claim 1 , wherein the flat polymer film ( 14 ) is made as an electrically insulating flat polymer film. 8. The cartridge ( 40 ) according to claim 1 , wherein the container ( 2 ) and the flat polymer film ( 14 ) are made as separate components that remain to be assembled in a first step or are stably attached to one another. 9. A kit for enabling droplet manipulation by electrowetting and processing of biological samples with a liquid droplet manipulation instrument ( 20 ), the kit including a cartridge ( 40 ) according to claim 1 and comprising a container ( 2 ) and a flat polymer film ( 14 ). 10. The kit of claim 9 , wherein the container ( 2 ) and the flat polymer film ( 14 ) are made as separate components that remain to be assembled in a first step. 11. The kit of claim 9 , wherein the container ( 2 ) and the flat polymer film ( 14 ) are stably attached to one another. 12. The kit of claim 9 , wherein the flat polymer film ( 14 ) is made as an electrically insulating flat polymer film. 13. The kit of claim 9 , wherein the cartridge ( 40 ) comprises a at least one well ( 6 ′) preloaded with a stored reaction reagent ( 10 ) selected from a group comprising reagents for performing cell lysis, reagents for performing nucleic acid purification, reagents for performing nucleic acid amplification and reagents for performing sequencing of nucleic acids. 14. The kit of claim 9 , wherein at least one well ( 6 ′) is preloaded with a stored reaction reagent ( 10 ) in a lyophilized form. 15. A method for processing a biological sample ( 9 ) with a liquid droplet manipulation instrument ( 20 ), wherein the method comprises the steps of: a) providing a liquid droplet manipulation instrument ( 20 ) comprising: at least one electrode array ( 21 ) for inducing liquid droplet movements; and a control unit ( 23 ) comprising at least one electrode selector ( 34 ) connected with at least one voltage control ( 29 ), the at least one electrode selector ( 34 ) being configured to individually select each electrode ( 35 ) of the at least one electrode array ( 21 ) and provide the selected electrode ( 35 ) with a voltage controlled by a voltage control ( 29 ); b) providing a container ( 2 ) having a top side ( 3 ) and a base side ( 4 ) and comprising at least one well ( 6 ) open at the top side ( 3 ) for positioning a biological sample ( 9 ) and/or a reaction reagent ( 10 ) therein, wherein the base side ( 4 ) of the container ( 2 ) comprises protrusions ( 5 ) distributed thereon; and c) providing a flat polymer film ( 14 ) having a lower surface ( 15 ) and a hydro-phobic upper surface ( 16 ), which is kept at a distance (d) to the base side ( 4 ) of the container ( 2 ) by the protrusions ( 5 ), the distance (d) defining at least one gap ( 17 ) when the container ( 2 ) is positioned on the film ( 14 ), abutting the latter with its protrusions ( 5 ); d) reversibly attaching the container ( 2 ) and the film ( 4 ) to the liquid droplet manipulation instrument ( 20 ), so that the lower surface ( 15 ) of the flat polymer film ( 14 ) is abutting the at least one electrode array ( 21 ); e) displacing at least one liquid droplet ( 19 ) from the at least one well ( 6 ) by a liquid handling system onto the hydrophobic upper surface ( 16 ) of the flat polymer film ( 14 ) and above the at least one electrode array ( 21 ); and f) processing the liquid droplet ( 19 ) by a guided movement on the hydrophobic upper surface ( 16 ) of the flat polymer film ( 14 ) by electrowetting controlled by the liquid droplet manipulation instrument ( 20 ); wherein after carrying out step f), an analysis is carried out in an analyzing area ( 33 ) on the hydrophobic upper surface ( 16 ) of the flat polymer film ( 14 ) and on the electrode array ( 21 ) of the liquid droplet manipulation instrument ( 20 ). 16. The method of claim 15 , wherein the flat polymer film ( 14 ) and the container ( 2 ) are provided as separate components that remain to be assembled in a first step. 17. The method of claim 15 , wherein the flat polymer film ( 14 ) and the container ( 2 ) are provided as a cartridge ( 40 ) of which the flat polymer film ( 14 ) and the container ( 2 ) are stably attached