Sealable microfluidic chip for thermocycling

The invention claimed is: 1. A microfluidic chip for thermally incubating an aqueous sample comprising target nucleic acid, the microfluidic chip comprising, from a proximate to a distal end: an inlet port for receiving the aqueous sample, the inlet port comprising an inner wall including a sealing agent attached to the inner wall of the inlet port in a pre-loaded solid state so as to not obstruct the passage of the aqueous sample through the inlet port while the sealing agent is in the pre-loaded solid state, said sealing agent having a melting point above room temperature and being immiscible with and having a lower density than the aqueous sample, wherein the sealing agent is a wax; and a flow channel positioned between an upper plate and a lower plate of the microfluidic chip, the flow channel being in fluid communication with the inlet port and a plurality of fixed reaction compartments positioned on one or more surfaces of an inside wall of the upper plate and the lower plate, the reaction compartments comprising a plurality of fixed wells, wherein each of the fixed wells comprises a sidewall, an upper end, and a closed lower end; wherein the sealing agent is configured to displace from the pre-loaded solid state and solidify so as to seal the inner wall of the inlet port once the aqueous sample has been displaced from the inlet port through the flow channel and separated into one or more of the plurality of fixed wells. 2. The microfluidic chip of claim 1 , wherein the inlet port further comprises an injection channel positioned in the inner wall of the inlet port, the injection channel including at least one or more elements selected from a groove and protrusion, and the sealing agent is positioned in the injection channel in the pre-loaded solid state, wherein the injection channel and the inlet port are fluidically connected. 3. The microfluidic chip of claim 1 , wherein the inlet port comprises an opening and the sealing agent spans an inner circumference of the inlet port in the pre-loaded solid state, thereby surrounding the opening within the inlet port. 4. The microfluidic chip of claim 1 , further comprising an outlet port distal from the inlet port and in fluid communication with the flow channel, wherein the sealing agent is further attached to an inner wall of the outlet port in an additional pre-loaded solid state. 5. A kit for thermally incubating an aqueous sample suspected to contain a target nucleic acid, the kit comprising the microfluidic chip of claim 1 ; and a displacement fluid immiscible with both the aqueous sample and the sealing agent. 6. An analytical system for thermally incubating an aqueous sample comprising a target nucleic acid, the analytical system comprising: the kit of claim 5 ; a filling station configured to fill the aqueous sample, the displacement fluid and the sealing agent in a liquid state into the flow channel of the microfluidic chip; a thermal incubation station configured to subject the microfluidic chip to a series of heating steps, wherein in one or more of the heating steps the melting temperature of the sealing agent is exceeded such that it is molten, thereby allowing for the exchange of gas and pressure equilibration through the inlet port. 7. The microfluidic chip of claim 1 , wherein the sealing agent is configured to allow for exchange of gas and pressure equilibration through the inlet port when the melting temperature of the sealing agent is exceeded such that it is molten.