Nucleic acid molecules with reduced secondary structure
First Claim
1. An unstructured nucleic acid with reduced secondary structure relative to a nucleic acid of substantially identical nucleotide sequence having naturally occurring bases, wherein the unstructured nucleic acid has at least two sequence elements that are substantially complementary, wherein the substantially complementary sequence elements do not form intramolecular base pairs, wherein at least one sequence element of at least two complementary sequence elements is capable of hybridizing to a substantially complementary sequence in another nucleic acid molecule.
0 Assignments
0 Petitions
Accused Products
Abstract
The present invention provides a system for generating nucleic acid molecules having reduced levels of secondary structure compared to nucleic acid molecules of the same nucleotide sequence containing only naturally-occurring bases. Such molecules are referred to herein as “unstructured nucleic acids” (UNAs). UNAs have reduced levels of secondary structure because of their reduced ability to form intramolecular hydrogen bond base pairs between regions of substantially complementary sequence. Preferred UNAs, however, retain the ability to form intermolecular hydrogen bond base pairs with other nucleic acid molecules.
27 Citations
9 Claims
- 1. An unstructured nucleic acid with reduced secondary structure relative to a nucleic acid of substantially identical nucleotide sequence having naturally occurring bases, wherein the unstructured nucleic acid has at least two sequence elements that are substantially complementary, wherein the substantially complementary sequence elements do not form intramolecular base pairs, wherein at least one sequence element of at least two complementary sequence elements is capable of hybridizing to a substantially complementary sequence in another nucleic acid molecule.
-
9. An unstructured nucleic acid containing complementary sequence elements that do not form intramolecular base pairs with one another, but that do form intermolecular base pairs with a different nucleic acid molecule.
Specification