Podrobný výpis o publikaci

ŠTEFL, Richard, Lukáš TRANTÍREK, Michaela VORLÍČKOVÁ, Jaroslav KOČA, Vladimír SKLENÁŘ a Jaroslav KYPR. A-like Guanine-Guanine Stacking in the Aqueous DNA. Journal of Molecular Biology. USA: Academic Press, 2001, roč. 307, č. 1, s. 513-524. ISSN 0022-2836.

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TY  - JOUR
ID  - 359292
AU  - Štefl, Richard - Trantírek, Lukáš - Vorlíčková, Michaela - Koča, Jaroslav - Sklenář, Vladimír - Kypr, Jaroslav
PY  - 2001
TI  - A-like Guanine-Guanine Stacking in the Aqueous DNA
JF  - Journal of Molecular Biology
VL  - 307
IS  - 1
SP  - 513
EP  - 513
PB  - Academic Press
SN  - 00222836
KW  - A-like guanine stacking
KW  - B/A intermediate structure;heteronomous duplex
N2  - We have used CD spectroscopy, NMR spectroscopy and unrestrained molecular dynamics to study conformational properties of a DNA duplex formed by the self-complementary octamer d(GGGGCCCC). Its unusual CD spectrum contains features indicating A-like stacking of half of the bases, whereas the other half stack in a B-like fashion. Unrestrained mol- ecular dynamics simulations converged to a stable B-like double-helix of d(GGGGCCCC). However, the double-helix contained a central hole whose size was half of that occurring in structure A. In the canonical structure B, the hole does not exist at all because the base-pairs cross the double-helix centre. The cytosine bases were stacked in the duplex of d(GGGGCCCC) as in structure B, while stacking of the guanine bases displayed features characteristic for structure A. NMR spectroscopy revealed that the A-like guanine-guanine stacking was accompanied by an increased tendency of the deoxyribose rings attached to the guanine bases to be puckered in an A-like fashion. Otherwise, the duplex of d(GGGGCCCC) showed no clash, no bend and no other signiŽcant devi- ation from structure B. The present analysis demonstrates a remarkable propensity of the guanine runs to stack in an A-like fashion even within the B-DNA framework. This property explains why the oligo(dG). oligo(dC) tracts switch into structure A so easily. Secondly, this property may inŻuence replication, because structure A is replicated more faith- fully than structure B. Thirdly, the oligo(dG) runs might have played an important role in early evolution, when DNA took on functions that orig- inally evolved on RNA. Fourthly, the present study extends the vocabu- lary of DNA secondary structures by the heteronomous duplex of d(GGGGCCCC) in which the B-like strand of oligo(dC) is bound to the A-like strand of oligo(dG).
ER  -

Základní údaje
Originální název	A-like Guanine-Guanine Stacking in the Aqueous DNA
Autoři	ŠTEFL, Richard (203 Česká republika), Lukáš TRANTÍREK (203 Česká republika), Michaela VORLÍČKOVÁ, Jaroslav KOČA (203 Česká republika), Vladimír SKLENÁŘ (203 Česká republika, garant) a Jaroslav KYPR.
Vydání	Journal of Molecular Biology, USA, Academic Press, 2001, 0022-2836.

Další údaje
Originální jazyk	angličtina
Typ výsledku	Článek v odborném periodiku
Obor	10600 1.6 Biological sciences
Stát vydavatele	Spojené státy
Utajení	není předmětem státního či obchodního tajemství
Impakt faktor	Impact factor: 5.826
Kód RIV	RIV/00216224:14310/01:00003142
Organizační jednotka	Přírodovědecká fakulta
Klíčová slova anglicky	A-like guanine stacking; B/A intermediate structure;heteronomous duplex
Štítky	A-like guanine stacking, B/A intermediate structure, heteronomous duplex
Změnil	Změnil: prof. Mgr. Richard Štefl, Ph.D., učo 19362. Změněno: 26. 1. 2007 17:15.

Anotace
We have used CD spectroscopy, NMR spectroscopy and unrestrained molecular dynamics to study conformational properties of a DNA duplex formed by the self-complementary octamer d(GGGGCCCC). Its unusual CD spectrum contains features indicating A-like stacking of half of the bases, whereas the other half stack in a B-like fashion. Unrestrained mol- ecular dynamics simulations converged to a stable B-like double-helix of d(GGGGCCCC). However, the double-helix contained a central hole whose size was half of that occurring in structure A. In the canonical structure B, the hole does not exist at all because the base-pairs cross the double-helix centre. The cytosine bases were stacked in the duplex of d(GGGGCCCC) as in structure B, while stacking of the guanine bases displayed features characteristic for structure A. NMR spectroscopy revealed that the A-like guanine-guanine stacking was accompanied by an increased tendency of the deoxyribose rings attached to the guanine bases to be puckered in an A-like fashion. Otherwise, the duplex of d(GGGGCCCC) showed no clash, no bend and no other signiŽcant devi- ation from structure B. The present analysis demonstrates a remarkable propensity of the guanine runs to stack in an A-like fashion even within the B-DNA framework. This property explains why the oligo(dG). oligo(dC) tracts switch into structure A so easily. Secondly, this property may inŻuence replication, because structure A is replicated more faith- fully than structure B. Thirdly, the oligo(dG) runs might have played an important role in early evolution, when DNA took on functions that orig- inally evolved on RNA. Fourthly, the present study extends the vocabu- lary of DNA secondary structures by the heteronomous duplex of d(GGGGCCCC) in which the B-like strand of oligo(dC) is bound to the A-like strand of oligo(dG).

Anotace

We have used CD spectroscopy, NMR spectroscopy and unrestrained molecular dynamics to study conformational properties of a DNA duplex formed by the self-complementary octamer d(GGGGCCCC). Its unusual CD spectrum contains features indicating A-like stacking of half of the bases, whereas the other half stack in a B-like fashion. Unrestrained mol- ecular dynamics simulations converged to a stable B-like double-helix of d(GGGGCCCC). However, the double-helix contained a central hole whose size was half of that occurring in structure A. In the canonical structure B, the hole does not exist at all because the base-pairs cross the double-helix centre. The cytosine bases were stacked in the duplex of d(GGGGCCCC) as in structure B, while stacking of the guanine bases displayed features characteristic for structure A. NMR spectroscopy revealed that the A-like guanine-guanine stacking was accompanied by an increased tendency of the deoxyribose rings attached to the guanine bases to be puckered in an A-like fashion. Otherwise, the duplex of d(GGGGCCCC) showed no clash, no bend and no other signiŽcant devi- ation from structure B. The present analysis demonstrates a remarkable propensity of the guanine runs to stack in an A-like fashion even within the B-DNA framework. This property explains why the oligo(dG). oligo(dC) tracts switch into structure A so easily. Secondly, this property may inŻuence replication, because structure A is replicated more faith- fully than structure B. Thirdly, the oligo(dG) runs might have played an important role in early evolution, when DNA took on functions that orig- inally evolved on RNA. Fourthly, the present study extends the vocabu- lary of DNA secondary structures by the heteronomous duplex of d(GGGGCCCC) in which the B-like strand of oligo(dC) is bound to the A-like strand of oligo(dG).

Návaznosti
LN00A016, projekt VaV	Název: BIOMOLEKULÁRNÍ CENTRUM
LN00A016, projekt VaV	Investor: Ministerstvo školství, mládeže a tělovýchovy ČR, Biomolekulární centrum