Listing of Claims:
`
`CLAIMS
`
`1.
`
`A polynucleotide library, wherein the polynucleotide library comprisesat least
`
`20,000 polynucleotides, wherein the at least 20,000 polynucleotides are synthesized based on
`
`instructions provided in a computer readable non-transient medium, wherein the at least 20,000
`
`polynucleotides encode sequences with an aggregate error rate of less than 1 in 800 bases
`
`compared to the preselected sequences received in the instructions provided in the computer
`
`readable non-transient medium, wherein each ofthe at least 20,000 polynucleotides comprises a
`
`first overlap region which is complementary to a second overlap region of another polynucleotide
`
`of the at least 20,000 polynucleotides, such that a plurality of longer nucleic acids are formed
`
`when a subset of the at least 20,000 polynucleotides are assembled, and wherein the subset of the
`
`at least 20,000 polynucleotides comprises at least one barcode sequence.
`
`2.
`
`The polynucleotide library of claim 1, wherein the at least 20,000 polynucleotides
`
`encode sequences with an aggregate error rate of less than | in 1000 bases comparedto the
`
`preselected sequences received in the instructions provided in the computer readable non-
`
`transient medium.
`
`3.
`
`The polynucleotide library of claim 1, wherein the at least 20,000 polynucleotides
`
`encode sequences with the aggregate error rate of less than 1 in 800 bases compared to the
`
`preselected sequences received in the instructions provided in the computer readable non-
`
`transient medium withouterror correction.
`
`4.
`
`The polynucleotide library of claim 1, wherein each ofthe at least 20,000
`
`polynucleotides comprises at least one barcode sequence.
`
`5.
`
`The polynucleotide library of claim 1, wherein each ofthe plurality of longer
`
`nucleic acids comprises at least one barcode sequence.
`
`6.
`
`The polynucleotide library of claim 1, wherein the at least one barcode sequence
`
`comprises up to 50 bases in length.
`
`7.
`
`The polynucleotide library of claim 1, wherein the first overlap region comprises
`
`10 to 100 basesin length.
`
`8.
`
`The polynucleotide library of claim 1, wherein the first overlap region comprises
`
`10 to 50 basesin length.
`
`9.
`
`The polynucleotide library of claim 1, wherein the first overlap region comprises
`
`12 to 25 basesin length.
`
`10.—The polynucleotide library of claim 1, wherein thefirst overlap region comprises a
`
`GC content of 35% to 65%.
`
`10086336
`
`-241-
`
`WSGRDocketNo. 44854-701.311
`
`
`
`CLAIMS
`
`1.
`
`A polynucleotide library, wherein the polynucleotide library comprisesat least
`
`20,000 polynucleotides, wherein the at least 20,000 polynucleotides are synthesized based on
`
`instructions provided in a computer readable non-transient medium, wherein the at least 20,000
`
`polynucleotides encode sequences with an aggregate error rate of less than 1 in 800 bases
`
`compared to the preselected sequences received in the instructions provided in the computer
`
`readable non-transient medium, wherein each ofthe at least 20,000 polynucleotides comprises a
`
`first overlap region which is complementary to a second overlap region of another polynucleotide
`
`of the at least 20,000 polynucleotides, such that a plurality of longer nucleic acids are formed
`
`when a subset of the at least 20,000 polynucleotides are assembled, and wherein the subset of the
`
`at least 20,000 polynucleotides comprises at least one barcode sequence.
`
`2.
`
`The polynucleotide library of claim 1, wherein the at least 20,000 polynucleotides
`
`encode sequences with an aggregate error rate of less than | in 1000 bases comparedto the
`
`preselected sequences received in the instructions provided in the computer readable non-
`
`transient medium.
`
`3.
`
`The polynucleotide library of claim 1, wherein the at least 20,000 polynucleotides
`
`encode sequences with the aggregate error rate of less than 1 in 800 bases compared to the
`
`preselected sequences received in the instructions provided in the computer readable non-
`
`transient medium withouterror correction.
`
`4.
`
`The polynucleotide library of claim 1, wherein each ofthe at least 20,000
`
`polynucleotides comprises at least one barcode sequence.
`
`5.
`
`The polynucleotide library of claim 1, wherein each ofthe plurality of longer
`
`nucleic acids comprises at least one barcode sequence.
`
`6.
`
`The polynucleotide library of claim 1, wherein the at least one barcode sequence
`
`comprises up to 50 bases in length.
`
`7.
`
`The polynucleotide library of claim 1, wherein the first overlap region comprises
`
`10 to 100 basesin length.
`
`8.
`
`The polynucleotide library of claim 1, wherein the first overlap region comprises
`
`10 to 50 basesin length.
`
`9.
`
`The polynucleotide library of claim 1, wherein the first overlap region comprises
`
`12 to 25 basesin length.
`
`10.—The polynucleotide library of claim 1, wherein thefirst overlap region comprises a
`
`GC content of 35% to 65%.
`
`10086336
`
`-241-
`
`WSGRDocketNo. 44854-701.311
`
`
`
`11.—The polynucleotide library of claim 1, wherein each ofthe at least 20,000
`
`polynucleotidesis isolated.
`
`12.—The polynucleotide library of claim 1, wherein the polynucleotide library
`
`comprisesat least 100,000 polynucleotides.
`
`13.
`
`The polynucleotide library of claim 1, wherein the polynucleotide library
`
`comprisesat least 1,000,000 polynucleotides.
`
`14.
`
`The polynucleotide library of claim 1, wherein each polynucleotide is at least 25
`
`bases in length.
`
`15.
`
`The polynucleotide library of claim 1, wherein each polynucleotide is at least 100
`
`bases in length.
`
`16.—The polynucleotide library of claim 1, wherein each of the longer nucleic acids is
`
`at least 0.5 kb in length.
`
`17.
`
`The polynucleotide library of claim 1, wherein the at least 20,000 polynucleotides
`
`are attached to a structure.
`
`18.—The polynucleotide library of claim 17, wherein the structureis a solid support.
`
`19.
`
`A method of nucleic acid assembly, comprising:
`
`a) providing preselect sequencesfor at least 20,000 polynucleotides;
`
`b) synthesizing the at least 20,000 polynucleotides, wherein each of the at least
`
`20,000 polynucleotides comprisesa first overlap region whichis
`
`complementary to a second overlap region of another polynucleotide ofthe at
`
`least 20,000 polynucleotides, and wherein the at least 20,000 polynucleotides
`
`encode sequences with an aggregate error rate of less than 1 in 800 bases
`
`compared to the preselected sequences; and
`
`c) assembling a subset of the at least 20,000 polynucleotides to form a plurality
`
`of longer nucleic acids, wherein the subset of the at least 20,000
`
`polynucleotides comprises at least one barcode sequence.
`
`20.
`
`A method of nucleic acid assembly, comprising:
`
`a) providing preselect sequencesfor at least 10,000 nucleic acids;
`
`b) synthesizing a plurality of polynucleotides, wherein each polynucleotide of the
`
`plurality of polynucleotides comprisesa first overlap region whichis
`
`complementary to a second overlap region of another polynucleotide of the
`
`plurality of polynucleotides, and wherein the plurality of polynucleotides
`
`encode sequences with an aggregate error rate of less than 1 in 800 bases
`
`compared to the preselected sequences;; and
`
`c) assembling a subset of the plurality of polynucleotides to form the at least
`
`10086336
`
`-242-
`
`WSGRDocketNo. 44854-701.311
`
`
`
`10,000 nucleic acids, wherein the at least 10,000 nucleic acids comprise at
`
`least one barcode sequence.
`
`10086336
`
`-243-
`
`WSGRDocketNo. 44854-701.311
`
`
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