Alternative nucleic acid molecules containing reduced uracil content and uses thereof

The invention claimed is: 1. An mRNA encoding a polypeptide, the mRNA comprising: (i) a 5′-cap structure; (ii) a 5′-UTR; (iii) an open reading frame (ORF) encoding the polypeptide, wherein at least 95% of uracils in the ORF are 5-methoxyuracils; and wherein the uracil content in the ORF is between the theoretical minimum and 150% of the theoretical minimum, (iv) a 3′-UTR; and (v) a poly-A region; wherein the level of expression in a mammalian cell of the encoded polypeptide from the mRNA is increased relative to a reference mRNA comprising a reference open reading frame (rORF) encoding the polypeptide, wherein at least 95% of uracils in the rORF are 5-methoxyuracils, and wherein the uracil content in the rORF is from about 190% to about 200% of the theoretical minimum. 2. The mRNA of claim 1 , wherein the uracil content in the ORF is between the theoretical minimum and 125% of the theoretical minimum. 3. The mRNA of claim 1 , wherein the guanine content of the ORF is maximized for at least 50% of the codons, and wherein the ORF comprises at least one low frequency guanine maximized codon. 4. The mRNA of claim 1 , wherein the cytosine content of the ORF is maximized for at least 50% of the codons, and wherein the ORF comprises at least one low frequency cytosine maximized codon. 5. The mRNA of claim 1 , wherein the guanine and cytosine content of the ORF is maximized for at least 50% of the codons, and wherein the ORF comprises at least one low frequency guanine and cytosine maximized codon. 6. The mRNA of claim 1 , wherein the uracil content is less than 20% of the total nucleobase content in the ORF. 7. The mRNA of claim 1 , wherein the uracil content within any 20 nucleobase window within the ORF does not exceed 50%. 8. The mRNA of claim 1 , wherein expression of the polypeptide in HeLa cells transfected with the mRNA of claim 1 using Lipofectamine 2000, followed by an incubation for 18-22 hours at 37° C., is comparable to expression of said polypeptide from an mRNA comprising a modified reference open reading frame (mrORF) encoding said polypeptide, wherein 100% of the uracils in the mrORF are 1-methylpseudouracils. 9. The mRNA of claim 1 , wherein, upon intravenous administration of 0.05 mg/kg of the mRNA to a mouse, the mRNA expresses the encoded polypeptide, wherein the level of expression of the encoded polypeptide in the mouse is increased relative to a reference mRNA comprising a rORF encoding the polypeptide, wherein at least 95% of uracils in the rORF are 5-methoxyuracils, and wherein the uracil content in the rORF is about 190% of the theoretical minimum. 10. The mRNA of claim 1 , wherein the 5′-cap structure is cap0, cap1, or ARCA inosine, N1-methyl-guanosine, 2′-fluoro-guanosine, 7-deaza-guanosine, 8-oxo-guanosine, 2-amino-guanosine, LNA-guanosine, or 2-azido-guanosine. 11. The mRNA of claim 1 , wherein the 3′-UTR is an alpha-globin 3′-UTR. 12. The mRNA of claim 1 , wherein the poly-A region is between 80 to 120 nucleotides in length. 13. The mRNA of claim 1 , wherein, upon contacting a BJ fibroblast cell or human keratinocyte cells, the mRNA induces a detectably lower level of IFN-β at 48 hours relative to an mRNA encoding the polypeptide and having unmodified uracils, and further having a uracil content above 150% of the theoretical minimum. 14. The mRNA of claim 1 , wherein, upon contacting the mammalian cell, the mRNA has a longer half-life, relative to an mRNA encoding the polypeptide and having unmodified uracils, and further having a uracil content above 150% of the theoretical minimum. 15. The mRNA of claim 1 , wherein the ORF further comprises at least one low-frequency codon. 16. The mRNA of claim 1 , wherein the 3′-UTR of the mRNA comprises at least one microRNA (miRNA) binding site. 17. The mRNA of claim 16 , wherein the miRNA is known to be expressed in liver cells or in immune cells. 18. The mRNA of claim 17 , wherein the miRNA is selected from miR-142-5p, miR-146-5p, and miR-146-3p. 19. The mRNA of claim 17 , wherein the miRNA is miR-142-3p. 20. The mRNA of claim 16 , wherein the miRNA is known to be expressed in liver cells, and is miR-122-5p or miR-122-3p. 21. A method of producing a modified mRNA comprising an ORF encoding a polypeptide, the method comprising modifying an mRNA sequence to produce the modified mRNA by replacing at least one codon containing a uracil with a codon that encodes the same amino acid but contains a lower number of uracils, wherein at least 95% of uracils in the ORF are 5-methoxyuracils, and wherein the uracil content in the ORF is between the theoretical minimum and 150% of the theoretical minimum; wherein the level of expression in a mammalian cell of the encoded polypeptide from the mRNA is increased relative to a reference mRNA comprising a reference open reading frame (rORF) encoding the polypeptide, wherein at least 95% of uracils in the rORF are 5-methoxyuracils, and wherein the uracil content in the rORF is from about 190% to about 200% of the theoretical minimum. 22. The method of claim 21 , wherein the guanine content of the ORF is maximized for at least 50% of the codons, and wherein the ORF comprises at least one low frequency guanine maximized codon. 23. The mRNA of claim 21 , wherein the cytosine content of the ORF is maximized for at least 50% of the codons, and wherein the ORF comprises at least one low frequency cytosine maximized codon. 24. The method of claim 21 , wherein the guanine and cytosine content of the ORF is maximized for at least 50% of the codons, and wherein the ORF comprises at least one low frequency guanine and cytosine maximized codon. 25. The method of claim 21 , wherein the uracil content within any 20 nucleobase window within the ORF of the modified mRNA does not exceed 50%. 26. The method of claim 21 , wherein the uracil content is less than 20% of the total nucleobase content in the ORF. 27. A composition comprising: (a) a lipid nanoparticle comprising a cationic lipid; and (2) an mRNA encoding a polypeptide, the mRNA comprising: (i) a 5′-cap structure; (ii) a 5′-UTR; (iii) an ORF encoding the polypeptide wherein at least 95% uracils in the ORF are 5-methoxyuracils; and wherein the uracil content in the ORF is between the theoretical minimum and 150% of the theoretical minimum, (iv) a 3′-UTR; and (v) a poly-A region; wherein the level of expression in a mammalian cell of the encoded polypeptide from the mRNA is increased relative to a reference mRNA comprising a reference open reading frame (rORF) encoding the polypeptide, wherein at least 95% of uracils in the rORF are 5-methoxyuracils, and wherein the uracil content in the rORF is from about 190% to about 200% of the theoretical minimum. 28. The composition of claim 27 , wherein the 3′-UTR of the mRNA comprises at least one miRNA binding site. 29. The composition of claim 28 , wherein the miRNA binding site is a miR-143-3p binding site.