ライフサイエンスコーパス: decondense

1 present in high copy, the chromosomes do not decondense.

2 curs primarily in early G1 after chromosomes decondense.

3 rallel, heterochromatin at chromocenters was decondensed.

4 chromosome is severely distorted, appearing decondensed.

5 e site of integration, the chromatin remains decondensed.

6 function of G3BP proteins, hijacking the RNA decondensing activity of eIF4A, and/or maintaining effic

7 During ES cell differentiation, decondensed alleles can also be found inside of chromoso

8 The chromatin in the oocyte quickly decondensed and a nucleus formed.

9 main forms: euchromatin, which is relatively decondensed and enriched in transcriptionally active gen

10 to either trypsin or proteinase K gradually decondensed and softened chromosomes but without entirel

11 primitive streak region: Hoxb chromatin was decondensed and the Hoxb1 locus looped out from its chro

12 n the presence of nocodazole-the chromosomes decondensed and the nuclear envelope re-formed-whereas c

13 entered an interphase-like state (chromatin decondensed, and an interphase-like microtubule array an

14 plicating mitotic chromosomes became visibly decondensed, and, after DNA replication was complete, th

15 We here show that stimulated lymphocytes decondense chromatin by three differentially regulated s

16 Here we found that Npm could widely decondense chromatin in undifferentiated mouse cells wit

17 neutrophils, PAD4 citrullinates histones to decondense chromatin that gets released as NETs in a man

18 the capacity of neutrophils to release their decondensed chromatin and form large extracellular DNA n

19 e chromatin spreads revealed the presence of decondensed chromatin as gap structures along the spread

20 in contact to particulate agents to extrude decondensed chromatin as neutrophil extracellular traps

21 That is, the propagation of decondensed chromatin at specific loci through DNA repli

22 BRM binds decondensed chromatin but is excluded from condensed chr

23 eed surrounded by or adjacent to a domain of decondensed chromatin composed of sequences from the gen

24 NETs are decondensed chromatin decorated by granular enzymes and

25 NETs consist of decondensed chromatin decorated with granular and cytoso

26 NETs are composed of decondensed chromatin decorated with granular proteins t

27 scs' are boundary elements that delimit this decondensed chromatin domain, reflecting the mechanism b

28 surrounding domains of recently transcribed decondensed chromatin have not.

29 se findings suggest that increased levels of decondensed chromatin in both normal progenitor cells an

30 ne hypercitrullination is detected on highly decondensed chromatin in HL-60 granulocytes and blood ne

31 form extracellular traps (NETs) by releasing decondensed chromatin lined with cytotoxic proteins.

32 il extracellular traps (NETs), a meshwork of decondensed chromatin lined with histones and neutrophil

33 26) modification colocalizes with ERalpha at decondensed chromatin loci surrounding the estrogen-resp

34 Neutrophil extracellular traps (NETs) are decondensed chromatin networks released by neutrophils t

35 An open and decondensed chromatin organization is a defining propert

36 Taken together, we could visualize the decondensed chromatin regions together with active RNA p

37 il extracellular traps (NETs) originate from decondensed chromatin released to immobilize pathogens,

38 ng sites, a transition from a condensed to a decondensed chromatin structure appears to take place.

39 layed after DNA replication, indicative of a decondensed chromatin structure in all regions of the re

40 on after replication and is facilitated by a decondensed chromatin structure.

41 e acquisition and heritable maintenance of a decondensed chromatin structure.

42 ochemical and bioimaging experiments suggest decondensed chromatin structures are associated with tra

43 ils trap and kill bacteria by forming highly decondensed chromatin structures, termed neutrophil extr

44 Peripheral blood neutrophils form highly decondensed chromatin structures, termed neutrophil extr

45 ocytes (PMNs), extrude molecular lattices of decondensed chromatin studded with histones, granule enz

46 tive genes may result from their location on decondensed chromatin that enables clustering around com

47 with probe penetration, (2) have relatively decondensed chromatin that is highly accessible to probe

48 on of neutrophil extracellular traps (NETs), decondensed chromatin threads decorated with cytoplasmic

49 ar traps (NETs) are structures consisting of decondensed chromatin with associated proteins, includin

50 cytosolic and granule proteins assembled on decondensed chromatin, kill pathogens and cause tissue d

51 r traps (NETs) resulting from the release of decondensed chromatin, were found to be part of the thro

52 ly, MEL-28 recruits PP1c to the periphery of decondensed chromatin, where it directs formation of a f

53 y reassembled a nuclear structure containing decondensed chromatin.

54 haracteristics including abundant amounts of decondensed chromatin.

55 a surrounding domain of recently transcribed decondensed chromatin.

56 for polymerase in producing and maintaining decondensed chromatin.

57 ced by recruitment of an acidic peptide that decondenses chromatin without affecting transcription, i

58 CTD charge reduction unfolds the domain and decondenses chromatin, a mechanism in consonance with re

59 Since PARP-1 decondenses chromatin, we hypothesize that this enzyme r

60 elope components and successful expansion of decondensing chromatin compared with those induced by no

61 NuMA keeps the decondensing chromosome mass compact at mitotic exit and

62 s depleted of Ca2+ and Mg2+ showed partially decondensed chromosomes and a loss of Topo II and ScII,

63 e viable only during slow growth and display decondensed chromosomes, suggesting that SMC complexes f

64 he entire perimeter of the region containing decondensing chromosomes in each daughter cell.

65 n daughter cells and rapidly associates with decondensing chromosomes in telophase, suggesting a role

66 Second, in telophase, decondensing chromosomes often moved rapidly (7-23 micro

67 mosome movement suggests that the surface of decondensing chromosomes, and by extension those of inta

68 the nuclear envelope reassembles around the decondensing chromosomes.

69 a cells infected by the hepatitis C virus is decondensed compared to uninfected cells, which correlat

70 , large-scale chromatin structures on Xa are decondensed compared with the Xi and transcription inhib

71 escribed in neutrophils wherein chromatin is decondensed, decorated with cytotoxic granule enzymes, a

72 Transmigrated neutrophils also released decondensed DNA associated with proteases, which are kno

73 IL-1 dependent, and release of proteases and decondensed DNA from recruited neutrophils in the brain

74 were discovered as extracellular strands of decondensed DNA in complex with histones and granule pro

75 toxicity (i.e., the release of proteases and decondensed DNA triggered by phenotypic transformation d

76 arrest, appearance of convoluted nuclei with decondensed DNA, and formation of multinucleated cells.

77 The decondensed domain is enriched for the trimethyl H3K36 m

78 Formation of this decondensed domain requires transcription and topoisomer

79 to the more typical euchromatic regions that decondense during interphase.

80 ain specific regions of chromatin can become decondensed, even at physiological salt concentration, t

81 maternal IC, whereas the paternal IC is more decondensed, extending into the nuclear halo.

82 1-positive mass, but replication occurred at decondensed foci at the surface of this mass.

83 ytes arrest in a G(2) state based on uniform decondensed GV chromatin, interphase microtubule arrays,

84 g and growth-inhibitory genes.In conclusion, decondensing H3K27me3-marked chromatin by EZH2 inhibitio

85 lent methylated genes and transposons and to decondense heterochromatic chromocenters, despite only m

86 of multinucleated giant cells and cells with decondensed, highly convoluted and lobulated nuclei that

87 nstrate that camphor causes the nucleoids to decondense in vivo and when the three genes are present

88 Remarkably, it decondenses in differentiating cells.

89 g the human alpha-globin genes is frequently decondensed, independent of transcription.

90 that facilitate chromosome segregation, and decondensed interphase structures that accommodate trans

91 exit mitosis, the neat rod-like chromosomes decondense into their interphase state.

92 with [3H]uridine autoradiography, shows that decondensed micronuclear chromatin undergoing active tra

93 ed to enhanced RNAPII transcription from the decondensed model chromatin.

94 conserved antimicrobial strategy comprising decondensed nuclear DNA and associated histones that are

95 , a signature neutrophil pathway that expels decondensed nuclear DNA into extracellular compartments

96 These mutant embryos exhibit fragmented or decondensed nuclei and accumulate higher levels of SUMO-

97 ion of reactive oxygen species (ROS) and the decondensing of the nuclear DNA catalyzed by peptidyl ar

98 over, the free C-terminal domain can rapidly decondense ParB networks independently of its ability to

99 tability in MM may be associated with highly decondensed pericentromeric heterochromatin, which may p

100 We hypothesise that active, decondensed rDNA units are most likely to be deleted via

101 The XNP focus corresponds to an unusual decondensed satellite DNA block, and both active genes a

102 rified hyperphosphorylated egg nucleoplasmin decondense sperm chromatin and remove sperm basic protei

103 dhd-null embryos cannot decondense sperm chromatin and terminate development aft

104 iction-enzyme-mediated integration (REMI) on decondensed sperm nuclei followed by nuclear transplanta

105 Plasmids are introduced into decondensed sperm nuclei in vitro using restriction enzy

106 In Xenopus laevis, nucleoplasmin 2 (NPM2) decondenses sperm DNA in vitro.

107 on of the nuclear mitotic apparatus from the decondensing sperm nuclear apex.

108 onversion from a heavily compacted form into decondensed, spherical pronuclei, accompanied by rapid n

109 OMORPHOGENIC 1 maintain heterochromatin in a decondensed state in etiolated cotyledons.

110 one-containing chromatin fiber to exist in a decondensed state under conditions that normally would p

111 from misfolding the RDN into an irreversibly decondensed state.

112 genes most frequently in association lie in decondensed stretches of chromatin.

113 exibility in vivo, maintaining a compact yet decondensed template that permits polymerase accessibili

114 the H3K27 histone methyltransferase EZH2 to decondense the H3K27me3-marked chromatin of AML cells en

115 On the other hand, it decondenses the nucleoid through many nonspecific, weak,

116 Nucleoplasmin decondenses the sperm chromatin by removing protamines,

117 ACF spaces nucleosomes without decondensing the chromatin, explaining how ACF maintains

118 Decondensing the heterochromatin with 5-aza-2-deoxycytid

119 Here, we show that naive ES cells decondense their chromatin in the course of downregulati

120 tering mitosis, causing cells in prophase to decondense their chromosomes and return to G2 phase.

121 ay induces mid-prophase cells to transiently decondense their chromosomes, it is likely that it downr

122 In response to certain stimuli, neutrophils decondense their lobulated nucleus and release chromatin

123 treated with nocodazole, the majority (70%) decondensed their chromosomes and returned to G(2) befor

124 The mechanism by which chromatin is decondensed to permit access to DNA is largely unknown.

125 DNA fluorescent in situ hybridization (FISH) decondensed to varying degrees, in the most pronounced c

126 an immobilized polymerase molecule extrudes decondensed, transcribed sequences into its surroundings

127 ng mitosis, the genome is transformed from a decondensed, transcriptionally active state to a highly

128 Although these loci decondense upon HS, they do not undergo a detectable net