ライフサイエンスコーパス: relaxed DNA

1 difference $\Delta Lk$ relative to unknotted relaxed DNA.

2 than it introduced negative supercoils into relaxed DNA.

3 tely 100 times higher in supercoiled than in relaxed DNA.

4 al site juxtaposition is much higher than in relaxed DNA.

5 DeltaLk, the linking number difference from relaxed DNA.

6 NA is two orders of magnitude higher than in relaxed DNA.

7 re not favored by conventional conditions in relaxed DNA.

8 ir sites more readily in supercoiled than in relaxed DNA, again indicating 3D rather than 1D routes.

9 th which Vaccinia topoisomerase I supercoils relaxed DNA, an energetically unfavorable, yet ATP-indep

10 th straight DNA or supercoiled compared with relaxed DNA, and untwists DNA somewhat as it binds.

11 difference spectrum between superhelical and relaxed DNA are proposed as markers of moderate negative

12 Topoisomerase I relaxed DNA at a faster rate, 5 links min(-1), but only

13 Mutant enzymes that relaxed DNA at reduced rates were subjected to kinetic a

14 a yeast TBP mutant that exhibits altered and relaxed DNA binding specificity.

15 Binding of Topo-Phe274 to relaxed DNA circles in solution introduced torsional str

16 ed the change in topology of closed circular relaxed DNA following binding of HU.

17 Purified TraM stimulates the formation of relaxed DNA in a reaction that requires the minimal comp

18 n Vaccinia topoisomerase I is presented with relaxed DNA in the presence of enrofloxacin, it executes

19 ely decreases the efficiency of supercoiling relaxed DNA in the presence of topoisomerase I.

20 eferentially to sites containing torsionally-relaxed DNA, in vivo.

21 the reconstitute holoenzyme decatenated and relaxed DNA, indicating that the proteins are subunits o

22 Un-nicked torsionally relaxed DNA is a poor substrate for the compaction react

23 mber associated with excisive inversion with relaxed DNA is equally +2 and -2, reflecting two differe

24 bited, whereas the extent of supercoiling of relaxed DNA is limited.

25 by Rad51 efficient, even when topologically relaxed DNA is used as substrate.

26 Here, we show that for relaxed DNA lattices, the opposite is true: UvsY exhibit

27 In the absence of p21, G1 block is relaxed, DNA replication is not affected, and cells beco

28 m cauliflower meristematic tissues exhibited relaxed DNA sequence requirements, which might reflect t

29 The degree of modulation can range from relaxed DNA specificity to almost completely altered spe

30 speculate as to how this enzyme achieves a "relaxed" DNA specificity.

31 oop formation occurs with even topologically relaxed DNA, suggesting that via specific protein-protei

32 structural flexibility could account for the relaxed DNA targeting specificity in PAX3-FKHR.

33 Compared with relaxed DNA, the presence of supercoils greatly enhances

34 On both supercoiled and relaxed DNA, the rate of loop capture across 0.4 kb was

35 transcription frequency 10-fold higher than relaxed DNA, which lead to an abrupt formation of G-quad

36 nt of the nucleoprotein complex of Rad54 and relaxed DNA with topoisomerases reveals dynamic DNA remo