Vilaivan Chotima, Srisuwannaket Choladda, Ananthanawat Cheeraporn, Suparpprom Chaturong, Kawakami Junji, Yamaguchi Yoshie, Tanaka Yuko, Vilaivan Tirayut
Organic Synthesis Research Unit; Department of Chemistry; Faculty of Science; Chulalongkorn University; Patumwan, Bangkok, Thailand.
Artif DNA PNA XNA. 2011 Apr;2(2):50-59. doi: 10.4161/adna.2.2.16340.
We describe herein a new conformationally constrained analog of PNA carrying an alternating α/β amino acid backbone consisting of (2'R,4'R)-nucleobase-subtituted proline and (1S,2S)-2-aminocyclopentanecarboxylic acid (acpcPNA). The acpcPNA has been synthesized and evaluated for DNA, RNA and self-pairing properties by thermal denaturation experiments. It can form antiparallel hybrids with complementary DNA with high affinity and sequence specificity. Unlike other PNA systems, the thermal stability of acpcPNA·DNA hybrid is largely independent of G+C contents, and is generally higher than that of acpcPNA·RNA hybrid with the same sequence. Thermodynamic parameters analysis suggest that the A·T base pairs in the acpcPNA·DNA hybrids are enthalpically stabilized over G·C pairs. The acpcPNA also shows a hitherto unreported behavior, namely the inability to form self-pairing hybrids. These unusual properties should make the new acpcPNA a potentially useful candidate for various applications including microarray probes and antigene agents.
我们在此描述了一种新的构象受限的肽核酸类似物,其带有由(2'R,4'R)-核碱基取代的脯氨酸和(1S,2S)-2-氨基环戊烷羧酸(acpcPNA)组成的交替α/β氨基酸主链。已通过热变性实验合成并评估了acpcPNA的DNA、RNA和自配对特性。它能与互补DNA形成具有高亲和力和序列特异性的反平行杂交体。与其他肽核酸系统不同,acpcPNA·DNA杂交体的热稳定性在很大程度上与G+C含量无关,并且通常高于相同序列的acpcPNA·RNA杂交体。热力学参数分析表明,acpcPNA·DNA杂交体中的A·T碱基对比G·C碱基对在焓上更稳定。acpcPNA还表现出一种迄今未报道的行为,即无法形成自配对杂交体。这些不寻常的特性应使新的acpcPNA成为包括微阵列探针和抗基因剂在内的各种应用的潜在有用候选物。
