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22. High mobility group protein 1 preferentially conserves torsion in negatively supercoiled DNA. Sheflin LG; Spaulding SW Biochemistry; 1989 Jun; 28(13):5658-64. PubMed ID: 2550058 [TBL] [Abstract][Full Text] [Related]
23. Activities of gyrase and topoisomerase IV on positively supercoiled DNA. Ashley RE; Dittmore A; McPherson SA; Turnbough CL; Neuman KC; Osheroff N Nucleic Acids Res; 2017 Sep; 45(16):9611-9624. PubMed ID: 28934496 [TBL] [Abstract][Full Text] [Related]
24. Quantitation of supercoiled DNA cleavage in nonradioactive DNA: application to ionizing radiation and synthetic endonuclease cleavage. Sutherland BM; Bennett PV; Conlon K; Epling GA; Sutherland JC Anal Biochem; 1992 Feb; 201(1):80-6. PubMed ID: 1320349 [TBL] [Abstract][Full Text] [Related]
25. Long-range structural effects in supercoiled DNA: statistical thermodynamics reveals a correlation between calculated cooperative melting and contextual influence on cruciform extrusion. Schaeffer F; Yeramian E; Lilley DM Biopolymers; 1989 Aug; 28(8):1449-73. PubMed ID: 2752100 [TBL] [Abstract][Full Text] [Related]
26. Effects of supercoiling in electrophoretic trapping of circular DNA in polyacrylamide gels. Akerman B Biophys J; 1998 Jun; 74(6):3140-51. PubMed ID: 9635767 [TBL] [Abstract][Full Text] [Related]
27. Isolation, characterization, and structure of the folded interphase genome of Drosophila melanogaster. Benyajati C; Worcel A Cell; 1976 Nov; 9(3):393-407. PubMed ID: 825231 [TBL] [Abstract][Full Text] [Related]
28. Melting of a self-complementary DNA minicircle. Comparison of optical melting theory with exchange broadening of the nuclear magnetic resonance spectrum. Benight AS; Schurr JM; Flynn PF; Reid BR; Wemmer DE J Mol Biol; 1988 Mar; 200(2):377-99. PubMed ID: 2836596 [TBL] [Abstract][Full Text] [Related]
29. The relaxation of supercoiled DNA molecules as a biophysical dosimeter for ionizing radiations: a feasibility study. Chen W; Blazek ER; Rosenberg I Med Phys; 1995 Sep; 22(9):1369-75. PubMed ID: 8531861 [TBL] [Abstract][Full Text] [Related]
30. Cruciform formation in a negatively supercoiled DNA may be kinetically forbidden under physiological conditions. Courey AJ; Wang JC Cell; 1983 Jul; 33(3):817-29. PubMed ID: 6871994 [TBL] [Abstract][Full Text] [Related]
31. High efficiency method to obtain supercoiled DNA with a commercial plasmid purification kit. Carbone A; Fioretti FM; Fucci L; AusiĆ³ J; Piscopo M Acta Biochim Pol; 2012; 59(2):275-8. PubMed ID: 22693686 [TBL] [Abstract][Full Text] [Related]
32. Investigations of the supercoil-selective DNA binding of wild type p53 suggest a novel mechanism for controlling p53 function. Fojta M; Pivonkova H; Brazdova M; Nemcova K; Palecek J; Vojtesek B Eur J Biochem; 2004 Oct; 271(19):3865-76. PubMed ID: 15373832 [TBL] [Abstract][Full Text] [Related]
33. Molecular modeling and energy refinement of supercoiled DNA. Hao MH; Olson WK J Biomol Struct Dyn; 1989 Dec; 7(3):661-92. PubMed ID: 2627304 [TBL] [Abstract][Full Text] [Related]
34. Studies of DNA dumbbells VIII. Melting analysis of DNA dumbbells with dinucleotide repeat stem sequences. Mandell KE; Vallone PM; Owczarzy R; Riccelli PV; Benight AS Biopolymers; 2006 Jun; 82(3):199-221. PubMed ID: 16345003 [TBL] [Abstract][Full Text] [Related]
35. Negative supercoiling and nucleosome cores. I. The effect of negative supercoiling on the efficiency of nucleosome core formation in vitro. Patterton HG; von Holt C J Mol Biol; 1993 Feb; 229(3):623-36. PubMed ID: 8433363 [TBL] [Abstract][Full Text] [Related]
39. Preparation and melting of single strand circular DNA loops. Wemmer DE; Benight AS Nucleic Acids Res; 1985 Dec; 13(23):8611-21. PubMed ID: 4080549 [TBL] [Abstract][Full Text] [Related]
40. [Localization of melted regions in supercoiled DNA by means of chemical modification]. Voloshin ON; Liubchenko IuL; Shliakhtenko LS Bioorg Khim; 1988 Dec; 14(12):1700-3. PubMed ID: 3251468 [TBL] [Abstract][Full Text] [Related] [Previous] [Next] [New Search]