Prevention of DNA multimerization using phosphoryl guanidine primers during isothermal amplification with Bst exo- DNA polymerase

Standard

Prevention of DNA multimerization using phosphoryl guanidine primers during isothermal amplification with Bst exo- DNA polymerase. / Garafutdinov, Ravil R.; Sakhabutdinova, Assol R.; Kupryushkin, Maxim S. и др.

в: Biochimie, Том 168, 01.2020, стр. 259-267.

Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование

Harvard

Garafutdinov, RR, Sakhabutdinova, AR, Kupryushkin, MS & Pyshnyi, DV 2020, 'Prevention of DNA multimerization using phosphoryl guanidine primers during isothermal amplification with Bst exo- DNA polymerase', Biochimie, Том. 168, стр. 259-267. https://doi.org/10.1016/j.biochi.2019.11.013

APA

Garafutdinov, R. R., Sakhabutdinova, A. R., Kupryushkin, M. S., & Pyshnyi, D. V. (2020). Prevention of DNA multimerization using phosphoryl guanidine primers during isothermal amplification with Bst exo- DNA polymerase. Biochimie, 168, 259-267. https://doi.org/10.1016/j.biochi.2019.11.013

Vancouver

Garafutdinov RR, Sakhabutdinova AR, Kupryushkin MS, Pyshnyi DV. Prevention of DNA multimerization using phosphoryl guanidine primers during isothermal amplification with Bst exo- DNA polymerase. Biochimie. 2020 янв.;168:259-267. Epub 2019 нояб. 22. doi: 10.1016/j.biochi.2019.11.013

Author

Garafutdinov, Ravil R. ; Sakhabutdinova, Assol R. ; Kupryushkin, Maxim S. и др. / Prevention of DNA multimerization using phosphoryl guanidine primers during isothermal amplification with Bst exo- DNA polymerase. в: Biochimie. 2020 ; Том 168. стр. 259-267.

BibTeX

@article{978c52463aef418ab243195c449c41e8,

title = "Prevention of DNA multimerization using phosphoryl guanidine primers during isothermal amplification with Bst exo- DNA polymerase",

abstract = "Over the last two decades, isothermal amplification of nucleic acids has gained more attention due to a number of advantages over the widely used polymerase chain reaction. For isothermal amplification, DNA polymerases with strand-displacement activity are needed, and Bst exo- polymerase is one of the most commonly used. Unfortunately, Bst exo- causes nonspecific DNA amplification (so-called multimerization) under isothermal conditions that results in undesirable products (multimers) consisting of tandem nucleotide repeats. Multimerization occurs only for short ssDNA or primer dimers, and the efficiency of multimerization depends significantly on the reaction conditions, but slightly depends on the sequence of DNA templates. In this study we report the prevention of DNA multimerization using a new type of modified oligonucleotide primers with internucleosidic phosphates containing 1,3-dimethyl-2-imino-imidazolidine moieties (phosphoryl guanidine (PG) groups). Primers with one, two or three PG groups located at the 3′- or 5′-ends or in the middle of the primers were designed. It turned out, such bulky groups interfere with the moving of Bst exo- polymerase along DNA chains. However, one modified phosphate does not notably affect the efficiency of polymerization, and the elongation is completely inhibited only when three contiguous modifications occur. Multimerization of the linear ssDNA templates is blocked by three modifications in the middle of both primers whereas specific amplification of the circular ssDNA by rolling circle amplification is not inhibited. Thus, incorporation of three PG groups is sufficient to prevent multimerization and allows to create improved primers for reliable isothermal amplification with Bst exo- DNA polymerase.",

keywords = "Blocking modifications, Bst exo- DNA polymerase, Isothermal amplification, Multimerization, Phosphoryl guanidine oligonucleotides (PGO), Rolling Circle Amplification, MORPHOLINO, ROLLING CIRCLE AMPLIFICATION, ENZYMATIC-SYNTHESIS, SENSITIVE DETECTION",

author = "Garafutdinov, {Ravil R.} and Sakhabutdinova, {Assol R.} and Kupryushkin, {Maxim S.} and Pyshnyi, {Dmitrii V.}",

note = "Publisher Copyright: {\textcopyright} 2019 Elsevier B.V. and Soci{\'e}t{\'e} Fran{\c c}aise de Biochimie et Biologie Mol{\'e}culaire (SFBBM)",

year = "2020",

month = jan,

doi = "10.1016/j.biochi.2019.11.013",

language = "English",

volume = "168",

pages = "259--267",

journal = "Biochimie",

issn = "0300-9084",

publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Prevention of DNA multimerization using phosphoryl guanidine primers during isothermal amplification with Bst exo- DNA polymerase

AU - Garafutdinov, Ravil R.

AU - Sakhabutdinova, Assol R.

AU - Kupryushkin, Maxim S.

AU - Pyshnyi, Dmitrii V.

PY - 2020/1

Y1 - 2020/1

N2 - Over the last two decades, isothermal amplification of nucleic acids has gained more attention due to a number of advantages over the widely used polymerase chain reaction. For isothermal amplification, DNA polymerases with strand-displacement activity are needed, and Bst exo- polymerase is one of the most commonly used. Unfortunately, Bst exo- causes nonspecific DNA amplification (so-called multimerization) under isothermal conditions that results in undesirable products (multimers) consisting of tandem nucleotide repeats. Multimerization occurs only for short ssDNA or primer dimers, and the efficiency of multimerization depends significantly on the reaction conditions, but slightly depends on the sequence of DNA templates. In this study we report the prevention of DNA multimerization using a new type of modified oligonucleotide primers with internucleosidic phosphates containing 1,3-dimethyl-2-imino-imidazolidine moieties (phosphoryl guanidine (PG) groups). Primers with one, two or three PG groups located at the 3′- or 5′-ends or in the middle of the primers were designed. It turned out, such bulky groups interfere with the moving of Bst exo- polymerase along DNA chains. However, one modified phosphate does not notably affect the efficiency of polymerization, and the elongation is completely inhibited only when three contiguous modifications occur. Multimerization of the linear ssDNA templates is blocked by three modifications in the middle of both primers whereas specific amplification of the circular ssDNA by rolling circle amplification is not inhibited. Thus, incorporation of three PG groups is sufficient to prevent multimerization and allows to create improved primers for reliable isothermal amplification with Bst exo- DNA polymerase.

AB - Over the last two decades, isothermal amplification of nucleic acids has gained more attention due to a number of advantages over the widely used polymerase chain reaction. For isothermal amplification, DNA polymerases with strand-displacement activity are needed, and Bst exo- polymerase is one of the most commonly used. Unfortunately, Bst exo- causes nonspecific DNA amplification (so-called multimerization) under isothermal conditions that results in undesirable products (multimers) consisting of tandem nucleotide repeats. Multimerization occurs only for short ssDNA or primer dimers, and the efficiency of multimerization depends significantly on the reaction conditions, but slightly depends on the sequence of DNA templates. In this study we report the prevention of DNA multimerization using a new type of modified oligonucleotide primers with internucleosidic phosphates containing 1,3-dimethyl-2-imino-imidazolidine moieties (phosphoryl guanidine (PG) groups). Primers with one, two or three PG groups located at the 3′- or 5′-ends or in the middle of the primers were designed. It turned out, such bulky groups interfere with the moving of Bst exo- polymerase along DNA chains. However, one modified phosphate does not notably affect the efficiency of polymerization, and the elongation is completely inhibited only when three contiguous modifications occur. Multimerization of the linear ssDNA templates is blocked by three modifications in the middle of both primers whereas specific amplification of the circular ssDNA by rolling circle amplification is not inhibited. Thus, incorporation of three PG groups is sufficient to prevent multimerization and allows to create improved primers for reliable isothermal amplification with Bst exo- DNA polymerase.

KW - Blocking modifications

KW - Bst exo- DNA polymerase

KW - Isothermal amplification

KW - Multimerization

KW - Phosphoryl guanidine oligonucleotides (PGO)

KW - Rolling Circle Amplification

KW - MORPHOLINO

KW - ROLLING CIRCLE AMPLIFICATION

KW - ENZYMATIC-SYNTHESIS

KW - SENSITIVE DETECTION

UR - http://www.scopus.com/inward/record.url?scp=85075726730&partnerID=8YFLogxK

U2 - 10.1016/j.biochi.2019.11.013

DO - 10.1016/j.biochi.2019.11.013

M3 - Article

C2 - 31765671

AN - SCOPUS:85075726730

VL - 168

SP - 259

EP - 267

JO - Biochimie

JF - Biochimie

SN - 0300-9084

ER -

ID: 22499334