PubMed ID: 21994131
Abstract:
A new reaction for DNA : DNA is shown to catalyze Ni2+‐dependent reductive amination involving the N2‐amine of a guanosine nucleobase (see picture). This finding expands the repertoire of nucleic acid catalysis to include reductive amination, an important natural biosynthetic reaction that has practical synthetic utility.
DNAzymes linked to this article:
| Name | Isolated sequence | Length | Reaction |
|---|---|---|---|
| 8QA102 | AAGGGGTAGTGCTAAACGTGAAGATGGTTTGGGTAATCTC | 40 | Reductive amination |
| 8QA103 | AATGGCAGTGAGAAACGTATGGTCACATGTATGTGGTCAC | 40 | Reductive amination |
| 8QA107 | AAGGGGTAGTGCCAAACGTGGAAACCTGTGGATAAGGTCC | 40 | Reductive amination |
| 8QA111 | GGGGGCCGCGATTAAATGTTGTCATGCAGCTCTCTGAGGC | 40 | Reductive amination |
| 8QA115 | AGGGGCAGTGCTAAACGTGTACAGACTAAAATGGTCTGTC | 40 | Reductive amination |
| 8QA122 | AAGGGGCACGTGCTAAACGTGGAAGGACTTCGGTTCTCCC | 40 | Reductive amination |
| 8QA104 | AGGGGTAGTGCCAAACGTGGCCTGGTTTGATGATTCGGCC | 40 | Reductive amination |
| 8QA108 | AAGGGGTAGTGCCAAACGTACGAAGGCTTCATTACCGACC | 40 | Reductive amination |
| 8QA109 | AAGAGGCACGTGCTAAACGTGGAAGGACTTCGGTTCTCCA | 40 | Reductive amination |
| 8QA124 | AAGGGGCAGTGCTAAACGTGGACAGGAATCATAAGTGTCA | 40 | Reductive amination |