Instruments, modules, and methods for improved detection of edited sequences in live cells

We claim: 1. An automated multi-module cell editing instrument for creating edited cell libraries comprising: a growth module; a transformation module; and a singulation or substantial singulation, growth, induction of editing, and normalization or cherry-picking (SWIIN) module, wherein the SWIIN module comprises a singulation assembly, wherein the singulation assembly comprises: a retentate member comprising an upper surface and a lower surface, wherein the retentate member comprises at least one retentate distribution channel which traverses the retentate member from its upper surface to its lower surface; wherein the lower surface of the retentate member comprises a first portion of a serpentine channel; wherein the retentate member further comprises one or more retentate member ports configured to supply cells and fluid to and remove cells and fluid from the retentate member; and wherein the retentate member ports are fluidically-connected to the at least one retentate distribution channel and the first portion of the serpentine channel; the permeate member comprising the upper surface and a lower surface, wherein the permeate member comprises at least one permeate distribution channel which traverses the permeate member from its lower surface to its upper surface; wherein the upper surface of the permeate member comprises a second portion of the serpentine channel; wherein the permeate member further comprises one or more permeate member ports configured to supply fluid to and remove fluid from the permeate member; wherein the permeate member ports are fluidically-connected to the second portion of the serpentine channel and permeate flow directors; and wherein the first and second portions of the serpentine channel mate to create the serpentine channel; a gasket disposed between the retentate member and the permeate member; means to couple the retentate member and permeate member; a reservoir assembly comprising at least two reservoirs wherein a first reservoir is 1) fluidically-coupled to at least a first reservoir access aperture into which fluids and/or cells flow from outside the SWIIN module into the first reservoir, 2) fluidically-coupled to a reservoir/channel port from which fluids and/or cells flow from the first reservoir into the one or more retentate member ports; and 3) pneumatically-coupled via a first pneumatic access aperture to a pressure source; a second reservoir is 1) fluidically-coupled to at least a second reservoir access aperture into which fluids flow from outside the SWIIN module into the second reservoir, 2) fluidically-coupled to a reservoir/channel port from which fluids and/or cells flow from the second reservoir into the one or more permeate member ports; and 3) pneumatically-coupled via a second pneumatic access aperture to a pressure source; and a SWIIN cover. 2. The automated multi-module cell editing instrument for creating edited cell libraries of claim 1 , wherein the SWIIN module further comprises: two additional reservoirs wherein a third reservoir is 1) fluidically-coupled to a third reservoir access aperture into which fluids and/or cells flow from outside the SWIIN module into the third reservoir, 2) fluidically-coupled to a reservoir/channel port from which fluids and/or cells flow from the third reservoir into the one or more retentate member ports; and 3) pneumatically-coupled via a third pneumatic access aperture to a pressure source; and a fourth reservoir is 1) fluidically-coupled to a fourth reservoir access aperture into which fluids and/or cells flow from outside the SWIIN module into the fourth reservoir, 2) fluidically-coupled to a reservoir/channel port from which fluids and/or cells flow from the reservoir into the one or more permeate member ports; and 3) pneumatically-coupled via a fourth pneumatic access aperture to a pressure source. 3. The automated multi-module cell editing instrument for creating edited cell libraries of claim 1 , wherein the means to couple the retentate member and perforated member is a pressure sensitive adhesive. 4. The automated multi-module cell editing instrument for creating edited cell libraries of claim 1 , wherein the retentate and permeate members of the singulation assembly are from 75 mm to 350 mm in length, from 50 mm to 250 mm in width, and from 2 mm to 15 mm in thickness. 5. The automated multi-module cell editing instrument for creating edited cell libraries of claim 1 , wherein a volume of the singulation assembly is from 5 mL to 100 mL. 6. The automated multi-module cell editing instrument for creating edited cell libraries of claim 5 , wherein the volume of the singulation assembly is from 10 mL to 40 mL. 7. The automated multi-module cell editing instrument for creating edited cell libraries of claim 1 , further comprising a cell concentration module. 8. The automated multi-module cell editing instrument for creating edited cell libraries of claim 1 , wherein the transformation module comprises a flow-through electroporation device. 9. The automated multi-module cell editing instrument for creating edited cell libraries of claim 1 , wherein the edited cell library is a promoter or terminator swap library. 10. The automated multi-module cell editing instrument for creating edited cell libraries of claim 1 , wherein the edited cell library created is a saturation mutagenesis library. 11. An automated multi-module cell editing instrument for creating edited cell libraries comprising: a growth module; a transformation module comprising a flow-through electroporation device; and a singulation or substantial singulation, growth, induction of editing, and normalization or cherry-picking (SWIIN) module, wherein the SWIIN module comprises a singulation assembly, wherein the singulation assembly comprises: a retentate member comprising an upper surface and a lower surface, wherein the retentate member comprises at least one retentate distribution channel which traverses the retentate member from its upper surface to its lower surface; wherein the lower surface of the retentate member comprises a first portion of a serpentine channel; wherein the retentate member further comprises one or more retentate member ports configured to supply cells and fluid to and remove cells and fluid from the retentate member; and wherein the retentate member ports are fluidically-connected to the at least one retentate distribution channel and the first portion of the serpentine channel; the permeate member comprising the upper surface and a lower surface, wherein the permeate member comprises at least one permeate distribution channel which traverses the permeate member from its lower surface to its upper surface; wherein the upper surface of the permeate member comprises a second portion of the serpentine channel; wherein the permeate member further comprises one or more permeate member ports configured to supply fluid to and remove fluid from the permeate member; wherein the permeate member ports are fluidically-connected to the at least one permeate distribution channel and the second portion of the serpentine channel; and wherein the first and second portions of the serpentine channel mate to create the serpentine channel; a gasket disposed between the retentate member and the permeate member; means to couple the retentate member and permeate member; a reservoir assembly comprising at least two reservoirs wherein a first reservoir is 1) fluidically-coupled to at least a first reservoir access aperture into which fluids and/or cells flow from outside the SWIIN module into the first reservoir, 2) fluidically-coupled to a reservoir/channel port from which fluids and/or cells flow from the first reservoir