Feng Tang scite author profile

DNA methylation plays vital roles in various biological processes in both prokaryotes and eukaryotes. In bacteria, modification of adenine at N6 can protect bacterial DNA against cleavage by restriction enzymes, and bacterial DNA adenine methyltransferases are essential for bacterial virulence and viability. DNA adenine methyltransferase (DAM) targets the sequence of 5'-GATC-3' and can convert adenine into N(6)-methyladenine (m(6)A). Because mammals do not methylate DNA at adenine, bacterial DAM represents an excellent candidate for antibiotic development. Here, we developed an exonuclease III-aided target recycling strategy to sensitively assay activity of DAM. In this method, a hairpin probe labeled with a donor fluorophore (FAM) at the 5' end and a quencher (BHQ) close to the 3' end (FQ probe) was employed as reporter. Another hairpin substrate containing sequence of GATC was used as the methylation substrate of DAM. Once the hairpin substrate was methylated by DAM, it could be recognized and cleaved by Dpn I, which allows the release of a single-stranded oligodeoxynucleotide (ssODN). The ssODN can then hybridize to the 3' protruding terminus of FQ probe, which subsequently triggers the exonuclease III-mediated target recycling reaction and therefore can significantly improve the detection sensitivity of DAM. The exonuclease-mediated target recycling strategy is extremely sensitive and as low as 0.01 U/mL DAM can be distinctly determined. Using this developed method, we evaluated DAM activity in different growth stages of E. coli cells, and we also demonstrated that the assay has the potential to screen suitable inhibitor drugs for DAM for disease(s) treatment.

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Location analysis of 8-oxo-7,8-dihydroguanine in DNA by polymerase-mediated differential coding

Tang

Liu

et al. 2019

Chem. Sci.

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Formation and removal of 1,N6-dimethyladenosine in mammalian transfer RNA

You

Zhang

Chen

et al. 2022

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RNA molecules harbor diverse modifications that play important regulatory roles in a variety of biological processes. Over 150 modifications have been identified in RNA molecules. N6-methyladenosine (m6A) and 1-methyladenosine (m1A) are prevalent modifications occurring in various RNA species of mammals. Apart from the single methylation of adenosine (m6A and m1A), dual methylation modification occurring in the nucleobase of adenosine, such as N6,N6-dimethyladenosine (m6,6A), also has been reported to be present in RNA of mammals. Whether there are other forms of dual methylation modification occurring in the nucleobase of adenosine other than m6,6A remains elusive. Here, we reported the existence of a novel adenosine dual methylation modification, i.e. 1,N6-dimethyladenosine (m1,6A), in tRNAs of living organisms. We confirmed that m1,6A is located at position 58 of tRNAs and is prevalent in mammalian cells and tissues. The measured level of m1,6A ranged from 0.0049% to 0.047% in tRNAs. Furthermore, we demonstrated that TRMT6/61A could catalyze the formation of m1,6A in tRNAs and m1,6A could be demethylated by ALKBH3. Collectively, the discovery of m1,6A expands the diversity of RNA modifications and may elicit a new tRNA modification-mediated gene regulation pathway.

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Hydrophilic materials in sample pretreatment

Tang

Yuan

2017

TrAC Trends in Analytical Chemistry

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Feng Tang

Degradation of 4-nitrophenol in aqueous medium by electro-Fenton method

Sensitive Detection of DNA Methyltransferase Activity Based on Exonuclease-Mediated Target Recycling

Location analysis of 8-oxo-7,8-dihydroguanine in DNA by polymerase-mediated differential coding

Formation and removal of 1,N6-dimethyladenosine in mammalian transfer RNA

Hydrophilic materials in sample pretreatment

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