Pressure activated valve seat

That which is claimed is: 1. A valve comprising: an annular body defining a body bore having a bore axis; an annular valve seat positioned in the body bore and sealed to the annular body, wherein the annular valve seat comprises an annular sealing surface that defines a seat bore, wherein an annular groove is defined in the annular sealing surface by a groove wall, the annular groove circumferentially extending around the bore axis, and wherein the annular sealing surface is formed from a deformable material; a valve element positioned in the seat bore and coupled to the annular body, the valve element comprising a rotatable disc configured to rotate about and between a closed position, in which the rotatable disc is configured to prevent fluid from flowing through the seat bore, and an open position, in which the rotatable disc is configured to allow maximum fluid flow through the seat bore, wherein the rotatable disc has a first disc face, and an opposed second disc face, wherein in the open position, the annular groove is in a first, relaxed position, wherein in the closed position and an unpressurized condition, in which fluid pressure exerted on the first face of the rotatable disc is substantially the same as fluid pressure exerted on the second face of the rotatable disc, the annular groove is in a second, deformed position that is different than the first, relaxed position, wherein a first groove gap is defined in the annular groove adjacent to the first disc face and wherein a second groove gap is defined in the annular groove adjacent to the second disc face, wherein in the closed position and a pressurized condition, in which fluid pressure exerted on the first face of the rotatable disc is different than fluid pressure exerted on the second face of the rotatable disc, the annular groove is in a third, deformed position that is different than the second, deformed position and a third groove gap is defined in the annular groove adjacent to the first disc face, wherein a volume of the third groove gap is greater than a volume of the first groove gap of the second, deformed position and wherein the volume of the third groove gap is greater than a volume of the second groove gap of the second, deformed position. 2. The valve of claim 1 , wherein in the third, deformed position, no groove gap is defined in the annular groove adjacent to the second disc face. 3. The valve of claim 1 , wherein in the third, deformed position, the volume of the second groove gap is zero. 4. The valve of claim 1 , wherein, in the first, relaxed position, the annular groove is defined by a first groove wall segment at an acute angle relative to the annular sealing surface, a third groove wall segment at an acute angle relative to the annular sealing surface, and a second groove wall segment positioned between the first groove wall segment and the third groove wall segment, the second groove wall segment being substantially parallel to the annular sealing surface. 5. The valve of claim 4 , wherein, in the second, deformed position the annular groove is defined partially by the first groove wall segment at an acute angle relative to the annular sealing surface, the third groove wall segment at a third acute angle relative to the annular sealing surface, and the second groove wall segment positioned between the first groove wall segment and the third groove wall segment, the second groove wall segment being substantially parallel to the annular sealing surface, and wherein the length of the second groove wall segment in the first, relaxed position is greater than the length of the second groove wall segment in the second, deformed position. 6. The valve of claim 1 , wherein the rotatable disc has an endwall extending therebetween the first disc face and the second disc face and wherein the endwall comprises a second endwall segment that is substantially parallel to the bore axis. 7. The valve of claim 6 , wherein in the third, deformed position, the annular groove is partially defined by a second groove wall segment that is substantially parallel to the annular sealing surface, and wherein frictional engagement between the second groove wall segment and the second endwall segment of the rotatable disc forms a primary seal that restricts fluid from flowing through the seat bore of the valve. 8. The valve of claim 7 , wherein in the third, deformed position, the annular groove is partially defined by a third groove wall segment that is adjacent to the second groove wall segment and at a third acute angle relative to the annular sealing surface, and wherein frictional engagement between the third groove wall segment and the second face of the rotatable disc forms a secondary seal that restricts fluid from flowing through the seat bore of the valve. 9. The valve of claim 1 , wherein, in the second, deformed position, the annular groove is defined by a first gap wall of the first gap, a first groove wall segment adjacent to the first gap wall and at an acute angle relative to the annular sealing surface, a second groove wall segment adjacent to the first groove wall segment and substantially parallel to the annular sealing surface, a third groove wall segment adjacent to the second groove wall segment and at an acute angle relative to the annular sealing surface and a second gap wall of the second gap. 10. The valve of claim 9 , wherein, in the third, deformed position, the annular groove is defined by a third gap wall of the third gap, the first groove wall segment adjacent to the third gap wall and at an acute angle relative to the annular sealing surface, the second groove wall segment adjacent to the first groove wall segment and substantially parallel to the annular sealing surface, and the third groove wall segment adjacent to the second groove wall segment and at an acute angle relative to the annular sealing surface. 11. A butterfly valve comprising: an annular body defining a body bore having a bore axis; an annular valve seat positioned in the body bore and sealed to the annular body, wherein the annular valve seat comprises an annular sealing surface that defines a seat bore, wherein an annular groove is defined in the annular sealing surface by a groove wall, the annular groove circumferentially extending around the bore axis; a disc positioned in the seat bore and coupled to the annular body, the disc configured to rotate about and between a closed position, in which the disc is configured to prevent fluid from flowing through the seat bore, and an open position, in which the disc is configured to allow maximum fluid flow through the seat bore, wherein the disc has a first disc face, an opposed second disc face, and an endwall extending therebetween the first disc face and the second disc face, wherein in the closed position and a pressurized condition, in which fluid pressure exerted on the first face of the disc is different than fluid pressure exerted on the second face of the disc, a primary seal is formed between a first portion of the endwall of the disc and the groove wall and a secondary seal is formed between a second portion of the endwall of the disc and the groove wall, and wherein first portion of the endwall is at an acute angle relative to the second portion of the endwall. 12. The valve of claim 11 , wherein the first portion of the endwall is substantially parallel to the bore axis. 13. The valve of claim 11 , wherein the annular valve seat is formed from a deformable material and wherein in the open position, the annular groove is in a first, relaxed position. 14. The valve of claim 13 , wherein in the closed position and an unpressurized