ライフサイエンスコーパス: catenate

1 two Solomon links, a trefoil knot, and a [3]catenate.

2 led DNA molecules that are either knotted or catenated.

3 being topologically insulated, that is, not catenated.

4 AlCl(3), these chloroaluminate melts contain catenated Al(n)Cl(3n+1)(-) species, for example, Al(2)Cl

5 by X-ray crystallography of both the Co(III) catenate and the metal-free catenand.

6 The recombination products are catenated and knotted molecules, consistent with recombi

7 induced chromatin bridges exhibit "knots" of catenated and overtwisted DNA next to the midbody.

8 Importantly, cohesin holds both catenated and uncatenated DNAs together in this manner.

9 sister chromatids but also inter-chromosomal catenates between clustered repetitive elements.

10 odel in which Top2 complex resolves not only catenates between sister chromatids but also inter-chrom

11 Catenated cages represent chemistry's challenging synthe

12 These threads are thought to be catenated centromeric DNA.

13 connected by narrow tube-like connectors and catenate chains of various lengths characteristic of L.

14 Human topoisomerase IIalpha unlinks catenated chromosomes and preferentially relaxes positiv

15 dges, arising from DNA replication stress or catenated chromosomes, can interfere with this process,

16 to convert sister chromatid intertwines into catenated circles.

17 brucei, is a network containing thousands of catenated circles.

18 o is to help T. thermophilus disentangle the catenated circular chromosomes generated by DNA replicat

19 chromosome with hairpin telomeres produces a catenated circular dimer that is subsequently resolved i

20 actively reduce the fractions of knotted and catenated circular DNA below thermodynamic equilibrium v

21 on of res site-containing plasmid DNA to two catenated circular DNA products.

22 Recombination at psi gives catenated circular resolution products.

23 the feed ratio of the macrocycle and the [2]catenate comonomers, we prepared metalated pseudorotaxan

24 potent DNA strand passage activity that can catenate covalently closed DNA.

25 ently solved by crystallography, revealing a catenated cross-linked topology.

26 marily resolve the precatenanes and untangle catenated daughter chromosomes.

27 enates pre-catenanes behind the fork and the catenated daughter chromosomes.

28 I) relax negatively supercoiled DNA and also catenate/decatenate DNA molecules containing single-stra

29 A substrate: FtsK stimulated decatenation of catenated DNA and relaxation of positively supercoiled [

30 e, resulting in polypurine strand-nicked and catenated DNA conformations.

31 Catenated DNA is the predominant product under condition

32 efficient of randomly fluctuating knotted or catenated DNA molecules in solution shows approximately

33 The steady-state fraction of knotted or catenated DNA molecules produced by prokaryotic and euka

34 re we directly assessed the structure of the catenated DNA species formed by RecQ helicase and Topo I

35 The images show complex catenated DNA species involving crossovers between multi

36 ologically with affinity for supercoiled and catenated DNA templates.

37 ve scDNA, but not from either (+)ve scDNA or catenated DNA where the enzyme acts processively.

38 by gp45 can be followed by footprinting; the catenated DNA-tracking state of gp45 is short-lived, but

39 topoIIalpha, and resulted in accumulation of catenated DNA.

40 . coli topoisomerase III (Topo III) to fully catenate dsDNA molecules.

41 gled graphs (analogous to knots) or mutually catenated entangled compound polyhedra (analogous to lin

42 6), Sc(2)N(8,) and ScN(5) phases nitrogen is catenated forming previously unknown N(6)(6)(-) and N(8)

43 e tension equalizes over the entirety of the catenated framework.

44 2 represents a novel type of a linear homo-catenated Ge(I) compound featuring unsupported E-E bonds

45 ceptor units are assembled within a confined catenated geometry.

46 the Co(III) template led to the isomeric [2]catenate in 69% yield.

47 ase III has no effect on the accumulation of catenated intermediates of DNA replication, even when to

48 As a result, adjacent protein rings catenate into a network similar to chainmail armor.

49 rs, group 13 elements are rarely observed to catenate into linear chains.

50 ands of minicircles and 20 to 30 maxicircles catenated into a single large network and exists in the

51 The well-known tendency of sulfur to catenate is exemplified by an extensive series of polysu

52 six isoreticular MOFs (IRMOFs) studied, the catenated materials exhibit the largest capacities on a

53 olymer chemists and physicists to create new catenated materials.

54 as kinetoplast (k) DNA, composed of mutually catenated maxi- and minicircles.

55 mine; n=2, 3, corresponding to the number of catenated methylene units between imino nitrogen atoms).

56 ia, is a network containing several thousand catenated minicircles that is condensed into a disk-shap

57 e loss of kinetoplast DNA (kDNA), the cell's catenated mitochondrial DNA network.

58 In bacteria, these catenated molecules become supercoiled by DNA gyrase bef

59 his ability of Topo IV to selectively unlink catenated molecules mirrors its key role in decatenation

60 racterized by (1)H NMR spectroscopy, and the catenated nature of the small rings was confirmed using

61 nique mitochondrial DNA of trypanosomes is a catenated network of minicircles and maxicircles called

62 unique placement in the periodic table makes catenated nitrogen compounds of interest for development

63 provides an overview of important classes of catenated nitrogen compounds ranging from theoretical in

64 The properties of catenated nitrogen molecules, molecules containing inter

65 catalytic domains to form a spindle-shaped, catenated octaicosamer.

66 ion is found to be substantially stronger in catenated PCN-6 than in noncatenated PCN-6', leading to

67 on competition that favors the thermodynamic catenated phase, we show that the elevation of modulator

68 r, when positive supercoiling takes place in catenated plasmid, topoisomerase II activity is directed

69 kinetoplasts can serve that role for 2D and catenated polymer systems.

70 he interwound portions and in the knotted or catenated portions of the studied molecules.

71 gyrase has the primary role in unlinking the catenated products of site-specific recombination.

72 circular DNA yields a variety of knotted or catenated products.

73 intermediate that is resolved by EcoXerD to catenated products.

74 n in all domains of life is the formation of catenated progeny chromosomes, which arise during replic

75 e discuss the structural conversion of these catenated rectangles into monorectangles through adjustm

76 l and pai-conjugated pyrene-based (2 + 2)(2) catenated rectangles.

77 eatures of both the SRNs and PCNs, where the catenated ring crosslinks can slide along the polymer ba

78 rtwined structure that self-assembles into a catenated ring rather than a ring-in-ring or Borromean r

79 nal relaxation of polymer chains through the catenated rings while also increasing the rate of poroel

80 genomes generates physically interlinked or catenated sister DNAs.

81 DNA replication results in interlinked (catenated) sister duplex molecules as a consequence of t

82 Fe(3)O cluster affords either the threefold catenated SJTU-219 or noncatenated SJTU-220 with desired

83 The formation/nature of catenated species (oligo-dimetallynes) can be controlled

84 on (in which sister chromatids are linked by catenated strands of DNA) and a G2/M-phase block charact

85 inding energy within the rectangles favors a catenated structure over other potential ring-in-ring or

86 ield and now allow access to a wide range of catenated structures based on elements across the p bloc

87 ed to provide insights into the formation of catenated structures over other potential ring-in-ring o

88 r equilibrium stability versus competing non-catenated structures.

89 ibits activity on negatively supercoiled and catenated substrates, as well as a distinct region that

90 ngstroms diameter icosahedral structure with catenated subunit rings.

91 have been identified as molecules that have catenated sulfur atoms as persulfides (R-SSH) and polysu

92 range of sulfide oxidation products with 2-6 catenated sulfur atoms with or without oxygen insertion,

93 version of H2S to thiosulfate and iron-bound catenated sulfur products is provided by EPR and resonan

94 hexagons interpenetrate to form a seven-fold catenated superstructure.

95 nability to convert kinetoplast DNA from the catenated to the decatenated form.

96 e same conditions that the wild type protein catenates two circles.

97 romatin leading to DNA breaks and unresolved catenates, which necessitate the recruitment of the stru

98 re synthesized which consist of a bipy[9]CPP catenated with either Tz[10]CPP or Tz[12]CPP (where Tz d