出 处:《Science China Chemistry》2016年第3期310-315,共6页中国科学(化学英文版)
基 金:the National Natural Science Foundation of China (21473255, 21003160);the Fundamental Research Funds for the Central Universities (14CX05040A, 15CX05017A)
摘 要:A peptide nucleic acid (PNA)-peptide conjugated molecule, T'3(AKAE)2, was designed to have both a PNA segment for oligo- nucleotide binding and an ionic self-complementary peptide sequence for self-association. T'3(AKAE)2 could co-assemble with oligoadenines (d(A)x) to form virus-like supramolecular structures whose morphology showed dependence on the chain length and rigidity of the d(A)x molecules. Smaller nanospheres with diameters of 13.0±2.0 nm were produced in the case of d(A)6. Wormlike aggregates with lengths of 20-50 nm and diameters of 15.0±2.5 nm were found in the cases of d(A)12, d(A)ls, d(A)24 and d(A)30. And larger spherical aggregates with diameters of 18±5 nm came into presence in the cases of d(A)36 and d(A)42+. These nanostructures were suggested to be formed under a cooperative effect of base pair recognition and peptidic association. The study provides insights into the programmed assembly of a multi-components system as well as control of the size and shade of the co-assembled structures, which is of great significance in develouing gene/drug deliverv systems.A peptide nucleic acid(PNA)-peptide conjugated molecule, T′_3(AKAE)_2, was designed to have both a PNA segment for oligonucleotide binding and an ionic self-complementary peptide sequence for self-association. T′_3(AKAE)_2 could co-assemble with oligoadenines(d(A)_x) to form virus-like supramolecular structures whose morphology showed dependence on the chain length and rigidity of the d(A)_x molecules. Smaller nanospheres with diameters of 13.0±2.0 nm were produced in the case of d(A)_6. Wormlike aggregates with lengths of 20–50 nm and diameters of 15.0±2.5 nm were found in the cases of d(A)_(12), d(A)_(18), d(A)_(24) and d(A)_(30). And larger spherical aggregates with diameters of 18±5 nm came into presence in the cases of d(A)_(36) and d(A)_(42). These nanostructures were suggested to be formed under a cooperative effect of base pair recognition and peptidic association. The study provides insights into the programmed assembly of a multi-components system as well as control of the size and shape of the co-assembled structures, which is of great significance in developing gene/drug delivery systems.
关 键 词:peptide nucleic acid OLIGONUCLEOTIDE artificial virus co-assembly supramolecular complex
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