Stable helical ionic polypeptides

What is claimed is: 1. A polymer comprising Formula PVBLG: wherein m is about 6 to about 1000, and X is: wherein at least one nitrogen of X is a cation; or salt thereof. 2. The polymer of claim 1 wherein the polymer is in the form of an α-helix. 3. The polymer of claim 2 wherein the α-helix form is stable at pH 1 to about pH 11 in an aqueous solution, and in an aqueous solution containing up to a 4 M concentration of NaCl. 4. The polymer of claim 3 wherein the polymer forms an α-helix in aqueous solution wherein the helix is stable at temperatures up to about 90° C. 5. A polymer comprising the polymer PVBLG-8: wherein n is about 6 to about 600 and at least one nitrogen of the polymer side chain is a cation; or salt thereof. 6. A method for delivering molecular cargo to a cell comprising: contacting a cell with a composition comprising a polymer of claim 1 and molecular cargo; wherein the polymer adopts a secondary structure, where the secondary structure comprises an α-helix or a β-sheet; under conditions sufficient to transfect the cell with the molecular cargo; wherein the molecular cargo comprises, DNA, RNA, a protein, a small molecule drug, or a diagnostic agent. 7. A method for inhibiting bacterial growth comprising: contacting bacteria with a composition comprising a polymer of claim 1 , wherein the polymer adopts a secondary structure, where the secondary structure comprises an α-helix or a β-sheet; under conditions sufficient to inhibit the growth of the bacteria. 8. A method for inhibiting cancer cell growth comprising: contacting cancer cells with a composition comprising a polymer of claim 1 , wherein the polymer is in the form of a secondary structure, where the secondary structure comprises an α-helix or a β-sheet; under conditions sufficient to inhibit the growth of the cancer cells. 9. A method for destabilizing a cell membrane or causing pore formation in a cell comprising: contacting the cell with a composition comprising a polymer claim 1 , wherein the polymer is in the form of a stable α-helix; under conditions sufficient contact the cell with the polymer, whereby the polymer causes pore formation in the cell.