Insight into formation propensity of pseudocircular DNA
G-hairpins

LENARČIČ ŽIVKOVIĆ, Martina, Martin GAJARSKÝ, Kateřina BEKOVÁ, P. STADLBAUER, Lukáš VICHEREK, M. PETROVA, Radovan FIALA, I. ROSENBERG, Jiří ŠPONER, J. PLAVEC a Lukáš TRANTÍREK. Insight into formation propensity of pseudocircular DNA G-hairpins. Nucleic acids research. Oxford: Oxford University Press, 2021, roč. 49, č. 4, s. 2317-2332. ISSN 0305-1048. Dostupné z: https://dx.doi.org/10.1093/nar/gkab029.

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TY  - JOUR
ID  - 1831038
AU  - Lenarčič Živković, Martina - Gajarský, Martin - Beková, Kateřina - Stadlbauer, P. - Vicherek, Lukáš - Petrova, M. - Fiala, Radovan - Rosenberg, I. - Šponer, Jiří - Plavec, J. - Trantírek, Lukáš
PY  - 2021
TI  - Insight into formation propensity of pseudocircular DNA G-hairpins
JF  - Nucleic acids research
VL  - 49
IS  - 4
SP  - 2317-2332
EP  - 2317-2332
PB  - Oxford University Press
SN  - 03051048
KW  - MOLECULAR-DYNAMICS SIMULATIONSG-QUADRUPLEX STRUCTUREAMBER FORCE-FIELDG-TRIPLEXFOLDING PATHWAYSNUCLEIC-ACIDSRNAIDENTIFICATIONVISUALIZATIONINVOLVEMENT
UR  - https://academic.oup.com/nar/article/49/4/2317/6125665
N2  - We recently showed that Saccharomyces cerevisiae telomeric DNA can fold into an unprecedented pseudocircular G-hairpin (PGH) structure. However, the formation of PGHs in the context of extended sequences, which is a prerequisite for their function in vivo and their applications in biotechnology, has not been elucidated. Here, we show that despite its 'circular' nature, PGHs tolerate single-stranded (ss) protrusions. High-resolution NMR structure of a novel member of PGH family reveals the atomistic details on a junction between ssDNA and PGH unit. Identification of new sequences capable of folding into one of the two forms of PGH helped in defining minimal sequence requirements for their formation. Our time-resolved NMR data indicate a possibility that PGHs fold via a complex kinetic partitioning mechanism and suggests the existence of K+ ion-dependent PGH folding intermediates. The data not only provide an explanation of cation-type-dependent formation of PGHs, but also explain the unusually large hysteresis between PGH melting and annealing noted in our previous study. Our findings have important implications for DNA biology and nanotechnology. Overrepresentation of sequences able to form PGHs in the evolutionary-conserved regions of the human genome implies their functionally important biological role(s).
ER  -

Základní údaje
Originální název	Insight into formation propensity of pseudocircular DNA G-hairpins
Autoři	LENARČIČ ŽIVKOVIĆ, Martina (705 Slovinsko, domácí), Martin GAJARSKÝ (703 Slovensko, domácí), Kateřina BEKOVÁ (203 Česká republika, domácí), P. STADLBAUER, Lukáš VICHEREK (203 Česká republika, domácí), M. PETROVA, Radovan FIALA (203 Česká republika, domácí), I. ROSENBERG, Jiří ŠPONER (203 Česká republika, domácí), J. PLAVEC a Lukáš TRANTÍREK (203 Česká republika, garant, domácí).
Vydání	Nucleic acids research, Oxford, Oxford University Press, 2021, 0305-1048.

Další údaje
Originální jazyk	angličtina
Typ výsledku	Článek v odborném periodiku
Obor	10608 Biochemistry and molecular biology
Stát vydavatele	Velká Británie a Severní Irsko
Utajení	není předmětem státního či obchodního tajemství
WWW	URL
Impakt faktor	Impact factor: 19.160
Kód RIV	RIV/00216224:14740/21:00119635
Organizační jednotka	Středoevropský technologický institut
Doi	http://dx.doi.org/10.1093/nar/gkab029
UT WoS	000637321900039
Klíčová slova anglicky	MOLECULAR-DYNAMICS SIMULATIONSG-QUADRUPLEX STRUCTUREAMBER FORCE-FIELDG-TRIPLEXFOLDING PATHWAYSNUCLEIC-ACIDSRNAIDENTIFICATIONVISUALIZATIONINVOLVEMENT
Štítky	CF NMR, rivok
Příznaky	Mezinárodní význam, Recenzováno
Změnil	Změnila: Mgr. Pavla Foltynová, Ph.D., učo 106624. Změněno: 4. 3. 2022 13:27.

Anotace

We recently showed that Saccharomyces cerevisiae telomeric DNA can fold into an unprecedented pseudocircular G-hairpin (PGH) structure. However, the formation of PGHs in the context of extended sequences, which is a prerequisite for their function in vivo and their applications in biotechnology, has not been elucidated. Here, we show that despite its 'circular' nature, PGHs tolerate single-stranded (ss) protrusions. High-resolution NMR structure of a novel member of PGH family reveals the atomistic details on a junction between ssDNA and PGH unit. Identification of new sequences capable of folding into one of the two forms of PGH helped in defining minimal sequence requirements for their formation. Our time-resolved NMR data indicate a possibility that PGHs fold via a complex kinetic partitioning mechanism and suggests the existence of K+ ion-dependent PGH folding intermediates. The data not only provide an explanation of cation-type-dependent formation of PGHs, but also explain the unusually large hysteresis between PGH melting and annealing noted in our previous study. Our findings have important implications for DNA biology and nanotechnology. Overrepresentation of sequences able to form PGHs in the evolutionary-conserved regions of the human genome implies their functionally important biological role(s).

Návaznosti
EF18_070/0009846, projekt VaV	Název: MSCAfellow2@MUNI
GX19-26041X, projekt VaV	Název: Strukturní biologie nové generace: Od izolovaných molekul k buňkám, od buněk ke tkáním.
GX19-26041X, projekt VaV	Investor: Grantová agentura ČR, STRUCTURAL BIOLOGY – NEXT GENERATION: from isolated molecules to cells, from cells to tissues.
LM2018127, projekt VaV	Název: Česká infrastruktura pro integrativní strukturní biologii (Akronym: CIISB)
LM2018127, projekt VaV	Investor: Ministerstvo školství, mládeže a tělovýchovy ČR, Czech Infrastructure for Integrative Structural Biology
LQ1601, projekt VaV	Název: CEITEC 2020 (Akronym: CEITEC2020)
LQ1601, projekt VaV	Investor: Ministerstvo školství, mládeže a tělovýchovy ČR, CEITEC 2020

VytisknoutZobrazeno: 4. 8. 2024 16:19

Insight into formation propensity of pseudocircular DNA G-hairpins

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