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Table representation of search results timeline featuring number of search results per year.

Year Number of Results
1967 2
1968 3
1969 2
1971 4
1972 9
1973 10
1974 8
1975 28
1976 39
1977 59
1978 99
1979 127
1980 109
1981 114
1982 128
1983 156
1984 129
1985 172
1986 145
1987 144
1988 197
1989 208
1990 164
1991 167
1992 208
1993 156
1994 170
1995 154
1996 167
1997 154
1998 136
1999 142
2000 159
2001 137
2002 121
2003 118
2004 136
2005 122
2006 123
2007 119
2008 110
2009 94
2010 103
2011 119
2012 110
2013 94
2014 89
2015 80
2016 67
2017 58
2018 61
2019 55
2020 49
2021 47
2022 32
2023 28
2024 10

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Search Results

5,588 results

Results by year

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Page 1
DNA structure and function.
Travers A, Muskhelishvili G. Travers A, et al. FEBS J. 2015 Jun;282(12):2279-95. doi: 10.1111/febs.13307. Epub 2015 Jun 2. FEBS J. 2015. PMID: 25903461 Free article. Review.
But why is DNA, and not RNA, now the dominant biological information store? ...We review recent evidence suggesting that DNA supercoiling, particularly that generated by DNA translocases, is a major driver of gene regulation and patterns of chromosomal gene o …
But why is DNA, and not RNA, now the dominant biological information store? ...We review recent evidence suggesting that DNA s …
Local supercoil-stabilized DNA structures.
Palecek E. Palecek E. Crit Rev Biochem Mol Biol. 1991;26(2):151-226. doi: 10.3109/10409239109081126. Crit Rev Biochem Mol Biol. 1991. PMID: 1914495 Review.
Curvature of the DNA molecule occurs in DNA regions with a specific type of nucleotide sequence periodicities. ...Techniques based on chemical probes have been proposed that make it possible to study DNA local structures in cells. Recent results suggest that …
Curvature of the DNA molecule occurs in DNA regions with a specific type of nucleotide sequence periodicities. ...Techniques b …
Modeling supercoiled DNA.
Vologodskii AV, Frank-Kamenetskii MD. Vologodskii AV, et al. Methods Enzymol. 1992;211:467-80. doi: 10.1016/0076-6879(92)11025-e. Methods Enzymol. 1992. PMID: 1406321 Review. No abstract available.
DNA topoisomerases beyond the standard role.
Baranello L, Kouzine F, Levens D. Baranello L, et al. Transcription. 2013 Sep-Dec;4(5):232-7. doi: 10.4161/trns.26598. Transcription. 2013. PMID: 24135702 Review.
Chromatin is dynamically changing its structure to accommodate and control DNA-dependent processes inside of eukaryotic cells. These changes are necessarily linked to changes of DNA topology, which might itself serve as a regulatory signal to be detected by proteins …
Chromatin is dynamically changing its structure to accommodate and control DNA-dependent processes inside of eukaryotic cells. These …
Bullied no more: when and how DNA shoves proteins around.
Fogg JM, Randall GL, Pettitt BM, Sumners WL, Harris SA, Zechiedrich L. Fogg JM, et al. Q Rev Biophys. 2012 Aug;45(3):257-299. doi: 10.1017/S0033583512000054. Epub 2012 Jul 31. Q Rev Biophys. 2012. PMID: 22850561 Free PMC article. Review.
Research focuses on protein structural motifs, electrostatic surfaces and contact potentials, while DNA is often ignored as a passive polymer to be manipulated. Recent studies of DNA topology, the supercoiling, knotting, and linking of the helices, have shown that …
Research focuses on protein structural motifs, electrostatic surfaces and contact potentials, while DNA is often ignored as a passive …
DNA supercoiling and relaxation by ATP-dependent DNA topoisomerases.
Fisher LM, Austin CA, Hopewell R, Margerrison EE, Oram M, Patel S, Plummer K, Sng JH, Sreedharan S. Fisher LM, et al. Philos Trans R Soc Lond B Biol Sci. 1992 Apr 29;336(1276):83-91. doi: 10.1098/rstb.1992.0047. Philos Trans R Soc Lond B Biol Sci. 1992. PMID: 1351300 Review.
Bacterial DNA gyrase and the eukaryotic type II DNA topoisomerases are ATPases that catalyse the introduction or removal of DNA supercoils and the formation and resolution of DNA knots and catenanes. ...In each case, the enzyme-DNA complex acts …
Bacterial DNA gyrase and the eukaryotic type II DNA topoisomerases are ATPases that catalyse the introduction or removal of …
Compaction of bacterial genomic DNA: clarifying the concepts.
Joyeux M. Joyeux M. J Phys Condens Matter. 2015 Sep 30;27(38):383001. doi: 10.1088/0953-8984/27/38/383001. Epub 2015 Sep 8. J Phys Condens Matter. 2015. PMID: 26345139 Review.
The unconstrained genomic DNA of bacteria forms a coil, whose volume exceeds 1000 times the volume of the cell. Since prokaryotes lack a membrane-bound nucleus, in sharp contrast with eukaryotes, the DNA may consequently be expected to occupy the whole available vol …
The unconstrained genomic DNA of bacteria forms a coil, whose volume exceeds 1000 times the volume of the cell. Since prokaryotes lac …
The importance of being supercoiled: how DNA mechanics regulate dynamic processes.
Baranello L, Levens D, Gupta A, Kouzine F. Baranello L, et al. Biochim Biophys Acta. 2012 Jul;1819(7):632-8. doi: 10.1016/j.bbagrm.2011.12.007. Epub 2012 Jan 3. Biochim Biophys Acta. 2012. PMID: 22233557 Free PMC article. Review.
Through dynamic changes in structure resulting from DNA-protein interactions and constraints given by the structural features of the double helix, chromatin accommodates and regulates different DNA-dependent processes. ...As virtually all DNA transactions are …
Through dynamic changes in structure resulting from DNA-protein interactions and constraints given by the structural features of the …
Folding of prokaryotic DNA. Isolation and characterization of nucleoids from Bacillus licheniformis.
Sloof P, Maagdelijn A, Boswinkel E. Sloof P, et al. J Mol Biol. 1983 Jan 15;163(2):277-97. doi: 10.1016/0022-2836(83)90007-4. J Mol Biol. 1983. PMID: 6188837
In contrast to the DNA organization in bacterial nucleoids, isolated under high-salt conditions and in the presence of detergents (Stonington & Pettijohn, 1971; Worcel & Burgi, 1972), the domains of supertwisted DNA in the low-salt-isolated nucleoids …
In contrast to the DNA organization in bacterial nucleoids, isolated under high-salt conditions and in the presence of detergents (St …
DNA knots and DNA supercoiling.
Witz G, Dietler G, Stasiak A. Witz G, et al. Cell Cycle. 2011 May 1;10(9):1339-40. doi: 10.4161/cc.10.9.15293. Epub 2011 Mar 11. Cell Cycle. 2011. PMID: 21393995 No abstract available.
5,588 results