Spatial control of polynucleotide synthesis by strand capping

The invention claimed is: 1. A method for enzymatic synthesis of polynucleotides, the method comprising: on a microelectrode array having a plurality of initiators attached thereto, a) designing a sequence of nucleotide bases that encodes digital information; b) selectively removing 3′ blocking groups from the initiators at a selected location on the microelectrode array by activating a subset of individually addressable electrodes in the microelectrode array, wherein selectively removing the 3′ blocking groups comprises creating a localized basic environment at the selected location and wherein the localized basic environment is created by a voltage generated at an electrode; c) incubating the microelectrode array with a single species of nucleotide and template-independent polymerase; d) contacting the microelectrode array with a wash solution; and e) repeating steps b)-d) until the sequence of nucleotide bases is synthesized at the selected location. 2. The method of claim 1 , further comprising, prior to step a), attaching the 3′ blocking groups to the plurality of initiators on the array. 3. The method of claim 2 , further comprising, after attaching the 3′ blocking groups to the plurality of initiators and prior to step a), washing the array with a second wash solution. 4. The method of claim 2 , wherein attaching the 3′ blocking groups to the plurality of initiators on the array comprises acylating 3′—OH groups on the plurality of initiators. 5. The method of claim 4 , wherein acylating the 3′—OH groups on the plurality of initiators comprises incubating the array with a solution comprising acyl imidazole and a buffer. 6. The method of claim 1 , further comprising repeating steps (b-d) while changing both the selected location and the species of nucleotide each at least once. 7. The method of claim 1 , wherein the single species of nucleotide comprises unmodified nucleotides and incubating the array with the single species of nucleotide and the template-independent polymerase is performed for a reaction time. 8. The method of claim 1 , wherein the 3′ blocking groups comprise acyl groups and selectively removing the 3′ blocking groups comprises deacylating the initiators. 9. The method of claim 1 , wherein the localized basic environment is created by a voltage generated at an electrode and the voltage is about −1.4 to −2.0 V. 10. The method of claim 1 , wherein the template-independent polymerase is a modified template independent polymerase capable of incorporating 3′-OH modified nucleotides and the single species of nucleotide comprises 3′-OH modified nucleotides. 11. The method of claim 10 , wherein the 3′-OH modified nucleotides comprise 3′-O-acetyl modified nucleotides. 12. The method of claim 1 , wherein the single species of nucleotide comprises nucleotides tethered to the template-independent polymerase. 13. The method of claim 1 , prior to step b), contacting the array with a deacylation solution. 14. The method of claim 13 , wherein the deacylation solution comprises a buffer at a pH between about 4-10. 15. A method for enzymatic synthesis of polynucleotides, the method comprising: on a microelectrode array having a plurality of initiators attached thereto, a) selectively removing 3′ blocking groups from the initiators at the selected location on the microelectrode array by activating a subset of individually addressable electrodes in the microelectrode array, wherein selectively removing the 3′ blocking groups comprises creating a localized basic environment at the selected location and wherein the localized basic environment is created by a voltage generated at an electrode; b) incubating the microelectrode array with a single species of nucleotide and template-independent polymerase; and c) contacting the microelectrode array with a wash solution,  further comprising repeating steps a)-c) while changing both the selected location and the species of nucleotide each at least once, wherein the repeating steps a)-c) synthesizes a first polynucleotide at a first location on the array and a second polynucleotide at a second location on the array each with different sequences encoding different digital information.