Methods of producing nucleic acid ligands
First Claim
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1. A method for preparing an improved nucleic acid ligand, said nucleic acid ligand capable of binding to and altering the function of a target molecule, wherein said improvement is produced by modifying a nucleic acid ligand to have enhanced target function altering activity, said method comprising:
- a) contacting a candidate mixture with the target, wherein nucleic acids having an increased affinity to the target relative to the candidate mixture may be partitioned from the remainder of the candidate mixture;
b) partitioning the increased affinity nucleic acids from the remainder of the candidate mixture;
c) amplifying the increased affinity nucleic acids to yield a ligand-enriched mixture of nucleic acids;
d) repeating steps a)-c) as necessary to identify a nucleic acid ligand of said target;
e) determining the target function altering activity of said nucleic acid ligand of step d);
f) modifying the nucleic acid ligand of step d), wherein said modifying comprises adding, deleting, or substituting nucleotide residues, wherein said residues may be chemically modified, and/or chemically modifying said nucleic acid ligand; and
g) determining whether the modified nucleic acid ligand of step f) has enhanced target function altering activity relative to the target function altering activity of the nucleic acid ligand of step e), whereby said improved nucleic acid ligand may be prepared.
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Abstract
The present invention includes methods for the identification and production of improved nucleic acid ligands based on the SELEX process. Also included are nucleic acid ligands to the HIV-RT protein identified according to the methods described therein.
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Citations
40 Claims
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1. A method for preparing an improved nucleic acid ligand, said nucleic acid ligand capable of binding to and altering the function of a target molecule, wherein said improvement is produced by modifying a nucleic acid ligand to have enhanced target function altering activity, said method comprising:
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a) contacting a candidate mixture with the target, wherein nucleic acids having an increased affinity to the target relative to the candidate mixture may be partitioned from the remainder of the candidate mixture;
b) partitioning the increased affinity nucleic acids from the remainder of the candidate mixture;
c) amplifying the increased affinity nucleic acids to yield a ligand-enriched mixture of nucleic acids;
d) repeating steps a)-c) as necessary to identify a nucleic acid ligand of said target;
e) determining the target function altering activity of said nucleic acid ligand of step d);
f) modifying the nucleic acid ligand of step d), wherein said modifying comprises adding, deleting, or substituting nucleotide residues, wherein said residues may be chemically modified, and/or chemically modifying said nucleic acid ligand; and
g) determining whether the modified nucleic acid ligand of step f) has enhanced target function altering activity relative to the target function altering activity of the nucleic acid ligand of step e), whereby said improved nucleic acid ligand may be prepared. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 22, 23, 24, 25, 26, 27)
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9. A method for preparing an improved nucleic acid ligand, said nucleic acid ligand capable of binding to and altering the function of a target molecule, wherein said improvement is produced by modifying a nucleic acid ligand to have enhanced target function altering activity, said method comprising:
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a) contacting a candidate mixture with the target, wherein nucleic acids having an increased affinity to the target relative to the candidate mixture may be partitioned from the remainder of the candidate mixture;
b) partitioning the increased affinity nucleic acids from the remainder of the candidate mixture;
c) amplifying the increased affinity nucleic acids to yield a ligand-enriched mixture of nucleic acids;
d) repeating steps a)-c) as necessary to identify a nucleic acid ligand of said target;
e) determining the target function altering activity of said nucleic acid ligand of step d);
f) determining the three-dimensional structure of said nucleic acid ligand, wherein said determining is selected from the group consisting of determining which nucleic acid residues in a nucleic acid ligand are necessary for maintaining the three-dimensional structure of the ligand, which residues interact with the target to facilitate the formation of ligand-target binding pairs, and both determining which nucleic acid residues in a nucleic acid ligand are necessary for maintaining the three-dimensional structure of the ligand and which residues interact with the target to facilitate the formation of ligand-target binding pairs;
g) modifying the nucleic acid ligand of step d) based on the determined three-dimensional structure of the nucleic acid ligand, wherein said modifying comprises adding, deleting, or substituting nucleotide residues, wherein said residues may be chemically modified, and/or chemically modifying said nucleic acid ligand; and
h) determining whether the modified nucleic acid ligand of step g) has enhanced target function altering activity relative to the target function altering activity of the nucleic acid ligand of step e), whereby said improved nucleic acid ligand may be prepared. - View Dependent Claims (10, 11, 12, 13, 14)
i) chemically modifying denatured and nondenatured nucleic acid ligand; and
ii) determining which nucleotide residues are modified in the denatured nucleic acid ligand that are not modified in the nondenatured nucleic acid ligand.
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14. The method of claim 9 wherein in each of steps d)-f), said nucleic acid ligand comprises a plurality of nucleic acid ligands, and in step f) the three-dimensional structure of the nucleic acid ligands is determined by covariance analysis on said plurality of nucleic acid ligands of step d).
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15. A method for designing an improved nucleic acid ligand to a given target from a plurality of nucleic acid ligands to said target, said nucleic acid ligands capable of binding to and altering the function of said target, wherein said improved nucleic acid ligand has enhanced target function altering activity, and wherein said designing is accomplished by the method comprising:
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a) determining the three dimensional structure of said nucleic acid ligands;
b) determining the nucleic acid residues of said nucleic acid ligands that are responsible for altering the function of said target, wherein said determining is selected from the group consisting of determining which nucleic acid residues in a nucleic acid ligand are necessary for maintaining the three-dimensional structure of the ligand, which residues interact with the target to facilitate the formation of ligand-target binding pairs, and both determining which nucleic acid residues in a nucleic acid ligand are necessary for maintaining the three-dimensional structure of the ligand and which residues interact with the target to facilitate the formation of ligand-target binding pairs; and
c) designing said modified nucleic acid ligand to said target by modifying said nucleic acid ligand by adding, deleting, or substituting nucleotide residues based on said determinations made in steps a) and b) and wherein said added or substituted nucleotide residues may be chemically modified. - View Dependent Claims (16, 17, 18)
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19. A method for designing an improved nucleic acid ligand, said nucleic acid ligand capable of binding to and altering the function of a given target, wherein said improvement is produced by modifying a nucleic acid to have enhanced target function altering activity, said method comprising:
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a) contacting a candidate mixture of nucleic acids with the target, wherein nucleic acids having an increased affinity to the target relative to the candidate mixture may be partitioned from the remainder of the candidate mixture;
b) partitioning the increased affinity nucleic acids from the remainder of the candidate mixture;
c) amplifying the increased affinity nucleic acids to yield a ligand-enriched mixture of nucleic acids;
d) repeating steps a)-c) as necessary to identify a nucleic acid ligand of said target;
e) determining the target function altering activity of said nucleic acid ligand of step d);
f) determining the three-dimensional structure of said nucleic acid ligand;
g) determining the nucleic acid residues of the nucleic acid ligand that are responsible for the target function altering activity of said nucleic acid ligand, wherein said determining is selected from the group consisting of determining which nucleic acid residues in a nucleic acid ligand are necessary for maintaining the three-dimensional structure of the ligand, which residues interact with the target to facilitate the formation of ligand-target binding pairs, and both determining which nucleic acid residues in a nucleic acid ligand are necessary for maintaining the three-dimensional structure of the ligand and which residues interact with the target to facilitate the formation of ligand-target binding pairs; and
h) designing said improved nucleic acid ligand to said target by modifying the nucleic acid ligand by adding, deleting, or substituting nucleotide residues based on said determinations made in steps f) and g), and wherein said added or substituted residues may be chemically modified. - View Dependent Claims (20, 21)
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28. A method for designing an improved nucleic acid ligand of a given target from a plurality of unimproved nucleic acid ligands to said target, said nucleic acid ligands capable of binding to and altering the function of said target, wherein said improved nucleic acid ligand has enhanced target function altering activity relative to unimproved nucleic acid ligands, and wherein said designing is accomplished by the method comprising:
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a) contacting a candidate mixture with a target, wherein nucleic acids having an increased affinity to the target relative to the candidate mixture may be partitioned from the remainder of the candidate mixture;
b) partitioning the increased affinity nucleic acids from the remainder of the candidate mixture;
c) amplifying the increased affinity nucleic acids to yield a ligand-enriched mixture of nucleic acids;
d) repeating steps a)-c) as necessary to identify said plurality of unimproved nucleic acid ligands;
e) determining the target function altering activity of said plurality of unimproved nucleic acid ligands;
f) determining the consensus primary structure of said unimproved nucleic acid ligands;
g) designing an improved nucleic acid ligand by adding a random sequence of nucleotide residues to the minimal consensus primary structure, deleting, or substituting nucleotide residues not clearly conserved in said consensus primary structure, wherein said residues may be chemically modified; and
h) determining whether the improved nucleic acid ligand of step g) has altered target modulatory activity relative to the target function altering activity of the nucleic acid ligands of step e), whereby said improved nucleic acid ligand may be designed. - View Dependent Claims (29, 30, 31, 32)
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33. A method for designing an improved nucleic acid ligand of a given target from a plurality of unimproved nucleic acid ligands to said target, said nucleic acid ligands capable of binding to and altering the function of said target, wherein said improved nucleic acid ligand has enhanced target function altering activity relative to unimproved nucleic acid ligands, and wherein said designing is accomplished by the method comprising:
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a) contacting a candidate mixture with a target, wherein nucleic acids having an increased affinity to the target relative to the candidate mixture may be partitioned from the remainder of the candidate mixture;
b) partitioning the increased affinity nucleic acids from the remainder of the candidate mixture;
c) amplifying the increased affinity nucleic acids to yield a ligand-enriched mixture of nucleic acids;
d) repeating steps a)-c) as necessary to identify said plurality of unimproved nucleic acid ligands;
e) determining the target function altering activity of said plurality of unimproved nucleic acid ligands;
f) determining the consensus secondary structure of said unimproved nucleic acid ligands;
g) designing an improved nucleic acid ligand by adding, deleting, or substituting nucleotide residues from a consensus loop, or consensus bulge, or a consensus stem, including pairs of base-paired nucleotide residues in a consensus stem, wherein said residues may be chemically modified, based on the determined consensus secondary structure of the nucleic acid ligands of step d); and
h) determining whether the improved nucleic acid ligand of step g) has enhanced target function altering activity relative to the target function altering activity of the nucleic acid ligands of step e), whereby said improved nucleic acid ligand may be designed. - View Dependent Claims (34, 35, 36, 37, 38)
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39. A method for preparing an improved nucleic acid ligand, said nucleic acid ligand being a ligand of an intracellular target, wherein said improvement is produced by modifying a nucleic acid ligand to have enhanced cell membrane permeability, comprising:
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a) contacting a candidate mixture of nucleic acids with the target, wherein nucleic acids having an increased affinity to the target relative to the candidate mixture may be partitioned from the remainder of the candidate mixture;
b) partitioning the increased affinity nucleic acids from the remainder of the candidate mixture;
c) amplifying the increased affinity nucleic acids to yield a ligand-enriched mixture of nucleic acids;
d) repeating steps a)-c), as necessary, to identify a nucleic acid ligand;
e) determining the cell membrane permeability of said nucleic acid ligand;
f) modifying the nucleic acid ligand of step d), wherein said modifying comprises adding, deleting, or substituting nucleotide residues, wherein said residues may be chemically modified, and/or chemically modifying said nucleic acid ligand; and
g) determining whether the modified nucleic acid ligand of step e) has increased cell membrane permeability relative to the cell membrane permeability of the nucleic acid ligand of step e) whereby said improved nucleic acid ligand may be prepared. - View Dependent Claims (40)
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Specification
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Current AssigneeGilead Sciences Inc.
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Original AssigneeGilead Sciences Inc.
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InventorsTuerk, Craig, Gold, Larry
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Primary Examiner(s)Zitomer, Stephanie
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Assistant Examiner(s)SHEINBERG, MONIKA B
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Application NumberUS10/040,497Publication NumberTime in Patent Office820 DaysField of Search435/6, 435/91.2, 436/501, 530/300, 530/350, 536/22.1, 536/23.1, 536/24.5US Class Current435/6.11CPC Class CodesA61K 38/00 Medicinal preparations cont...A61K 47/547 Chelates, e.g. Gd-DOTA or Z...A61K 47/549 Sugars, nucleosides, nucleo...B82Y 5/00 Nanobiotechnology or nanome...C07H 21/00 Compounds containing two or...C07K 14/001 by chemical synthesisC07K 14/005 from virusesC07K 14/72 for hormones for neuromedia...C07K 7/22 Tachykinins, e.g. Eledoisin...C12N 15/1048 SELEXC12N 15/1058 Directional evolution of li...C12N 15/115 Aptamers, i.e. nucleic acid...C12N 2310/13 DecoysC12N 2310/322 2'-R ModificationC12N 2310/53 partially self-complementar...C12N 2740/16222 New viral proteins or indiv...C12N 9/1276 RNA-directed DNA polymerase...C12Q 1/37 involving peptidase or prot...C12Q 1/6811 Selection methods for produ...C12Q 1/703 Viruses associated with AIDSView All
