Mirror-Image Thymidine Discriminates against Incorporation of Deoxyribonucleotide Triphosphate into DNA and Repairs Itself by DNA Polymerases

Xiao, Yong; Liu, Qingju; Tang, Xinjing; Yang, Zhenjun; Wu, Li; He, Yi

doi:10.1021/acs.bioconjchem.7b00301

Cited by 11 publications

(20 citation statements)

References 54 publications

Supporting

Mentioning

Contrasting

Order By: Relevance

“…In addition to incorporating modified nucleotides on a natural DNA template, Therminator DNA Polymerase accommodates modifications in the template strand. For example, Xiao et al demonstrate high fidelity synthesis of dATP across from mirror image L-thymidine in the template strand using Therminator DNA Polymerase (Xiao et al, 2017). Therefore, the ability of Therminator DNA Polymerase to synthesize modifications on both the primer and template strands will increase the diversity of modifications that can be introduced into substrates.…”

Section: Synthesis Of Modified Functional Polymers and Aptamers Usingmentioning

confidence: 99%

Therminator DNA Polymerase: Modified Nucleotides and Unnatural Substrates

Gardner

Jackson

Boyle

et al. 2019

Front. Mol. Biosci.

View full text Add to dashboard Cite

A variant of 9°N DNA polymerase [Genbank ID ( AAA88769.1 )] with three mutations (D141A, E143A, A485L) and commercialized under the name “Therminator DNA polymerase” has the ability to incorporate a variety of modified nucleotide classes. This Review focuses on how Therminator DNA Polymerase has enabled new technologies in synthetic biology and DNA sequencing. In addition, we discuss mechanisms for increased modified nucleotide incorporation.

show abstract

Section: Synthesis Of Modified Functional Polymers and Aptamers Usingmentioning

confidence: 99%

Therminator DNA Polymerase: Modified Nucleotides and Unnatural Substrates

Gardner

Jackson

Boyle

et al. 2019

Front. Mol. Biosci.

View full text Add to dashboard Cite

show abstract

“… 35 Previous studies have shown that l -nucleotide residue in heterochiral duplexes retains its selectivity toward the complementary d -nucleotide residue. 17 , 36 Considering that T7 RNAP can incorporate NTPs opposite l -T in the templates into transcripts with different efficiency, we therefore checked the fidelity of the T7 RNAP when it encountered l -T-containing templates.…”

Section: Resultsmentioning

confidence: 99%

“…Recently, we reported that natural nucleotides could be incorporated into the growing chain opposite of the l -thymidine ( l -T) unit in the DNA template by B family DNA polymerases (Therminator, Vent [exo − ], and Deep Vent [exo − ] DNA polymerase) and elongate the primer with self-repair. 17 Based on the results of primer extension, further investigation on the role of mirror-image thymidine in bypassing these lesions in RNA transcription reactions was necessary.…”

Section: Introductionmentioning

confidence: 99%

“…Although DNA replication studies with A and B family DNA polymerases have been carried out for l -T insertion, 17 our transcriptional systems were used to estimate the degrees to which the lesion impedes RNA transcription and whether it induces mutations. In this study, we have introduced l -T into different sites of template strands and non-template strands, and then examined the processivity of transcription with the modified templates catalyzed by T7 RNAP.…”

Section: Introductionmentioning

confidence: 99%

See 1 more Smart Citation

Compatibility and Fidelity of Mirror-Image Thymidine in Transcription Events by T7 RNA Polymerase

Liu

Kan

et al. 2020

Molecular Therapy - Nucleic Acids

Self Cite

View full text Add to dashboard Cite

Due to highly enzymatic d -stereoselectivity, l -nucleotides ( l -2′-deoxynucleoside 5′-triphosphates [l -dNTPs]) are not natural targets of polymerases. In this study, we synthesized series of l -thymidine ( l -T)-modified DNA strands and evaluated the processivity of nucleotide incorporation for transcription by T7 RNA polymerase (RNAP) with an l -T-containing template. When single l -T was introduced into the transcribed region, transcription proceeded to afford the full-length transcript with different efficiencies. However, introduction of l -T into the non-transcribed region did not exhibit a noticeable change in the transcription efficiency. Surprisingly, when two consecutive or internal l -Ts were introduced into the transcribed region, no transcripts were detected. Compared to natural template, significant lags in NTP incorporation into the template T+4/N and T+7/N (where the number corresponds to the site of l -T position, and + means downstream of the transcribed region) were detected by kinetic analysis. Furthermore, affinity of template T+4/N was almost the same with T/N, whereas affinity of T+7/N was apparently increased. Furthermore, no mismatch opposite to l -T in the template was detected in transcription reactions via gel fidelity analysis. These results demonstrate the effects of chiral l -T in DNA on the efficiency and fidelity of RNA transcription mediated by T7 RNAP, which provides important knowledge about how mirror-image thymidine perturbs the flow of genetic information during RNA transcription and development of diseases caused by gene mutation.

show abstract

“…In the steps below, L-T is introduced into nucleic acids according to a published method (Xiao et al, 2017). The antiviral drug Telbivudine corresponds to 2 -deoxy-L-thymidine (Yan, Qiao, Zhang, Wang, & Gou, 2018).…”

Section: Systhesis Of Oligonucleotides Containing L-tmentioning

confidence: 99%

Mutation Analysis of L‐Thymidine‐Induced Replication Products Using a Restriction Enzyme–Mediated Assay

Kan

2020

CP Nucleic Acid Chemistry

Self Cite

View full text Add to dashboard Cite

This article describes experimental and analytical procedures for evaluating the efficiency and fidelity of DNA replication containing mirror‐image thymidine (L‐T) in E. coli. The procedure involves construction of DNA recombinants containing a restriction enzyme (PstI) recognition site in which the L‐T lesion is site‐specifically located within the PstI recognition sequence (CTGCAG). The recombinants are transfected into DH5α cells. DNA is extracted, amplified, and cleaved into relatively short fragments using different combinations of restriction enzymes to facilitate electrophoretic analysis. Detailed explanations for the restriction enzyme–mediated assay for detection of mutagenic properties of mirror‐image thymidine at a predetermined site are also presented. Advantages and limitations of the assay are discussed by comparing it to other techniques used for detecting lesion‐induced mutation efficiency, and a troubleshooting guide is provided. © 2020 Wiley Periodicals LLC. Basic Protocol 1: Synthesis of oligonucleotides containing L‐T Basic Protocol 2: Construction of DNA recombinants Basic Protocol 3: Mutation analysis of L‐T‐induced replication products using a restriction enzyme–mediated assay

show abstract

Mirror-Image Thymidine Discriminates against Incorporation of Deoxyribonucleotide Triphosphate into DNA and Repairs Itself by DNA Polymerases

Cited by 11 publications

References 54 publications

Therminator DNA Polymerase: Modified Nucleotides and Unnatural Substrates

Therminator DNA Polymerase: Modified Nucleotides and Unnatural Substrates

Compatibility and Fidelity of Mirror-Image Thymidine in Transcription Events by T7 RNA Polymerase

Mutation Analysis of L‐Thymidine‐Induced Replication Products Using a Restriction Enzyme–Mediated Assay

Contact Info

Product

Resources

About