ライフサイエンスコーパス: chromosome stability

1 enes obtained in this screen were named CST (chromosome stability).

2 the end of chromosomes and are important for chromosome stability.

3 al breakage, uncoupling fork protection, and chromosome stability.

4 2p and/or Sir3p cause a profound decrease in chromosome stability.

5 ne acetylation and of chromatin structure on chromosome stability.

6 repair by homologous recombination (HR) and chromosome stability.

7 DNA transactions are also required for whole-chromosome stability.

8 ir of DNA interstrand cross-links (ICLs) and chromosome stability.

9 esses independent of iron regulation such as chromosome stability.

10 o facilitate telomere repeat replication and chromosome stability.

11 kinetochore-microtubule attachment to ensure chromosome stability.

12 and crosslinks (ICLs) and the maintenance of chromosome stability.

13 rtant mediators of epigenetic regulation and chromosome stability.

14 processes including the ability to maintain chromosome stability.

15 tial for maintaining telomerase activity and chromosome stability.

16 recombination intermediates and to maintain chromosome stability.

17 rocess important for both viral and cellular chromosome stability.

18 egulation is critical for the maintenance of chromosome stability.

19 between FANC and HRR proteins in maintaining chromosome stability.

20 ociated factors regulate gene expression and chromosome stability.

21 h we define as "telotype") are essential for chromosome stability.

22 unctions, ionizing radiation sensitivity and chromosome stability.

23 hosphorylation during mitosis in maintaining chromosome stability.

24 C) seriation algorithms can inform models of chromosome stability.

25 biquitin ligase implicated in the control of chromosome stability.

26 lied to a number of problems associated with chromosome stability.

27 e expression, recombination, DNA repair, and chromosome stability.

28 romeric chromatin and contributes to mitotic chromosome stability.

29 otal role in maintaining telomere length and chromosome stability.

30 ing protein with a critical role in ensuring chromosome stability.

31 plays a critical role in the maintenance of chromosome stability.

32 DNA double-strand breaks and in maintaining chromosome stability.

33 ng fully restores mitomycin-C resistance and chromosome stability.

34 DSBs, promoting HR, replication recovery and chromosome stability.

35 in eukaryotic DNA repair, recombination and chromosome stability.

36 plex, required for the maintenance of normal chromosome stability.

37 a proteins in a cellular pathway controlling chromosome stability.

38 ve been used to identify genes important for chromosome stability and as large-fragment cloning vecto

39 eats (LCRs) are genomic features that affect chromosome stability and can produce disease-associated

40 tease Ulp2 is a nuclear protein required for chromosome stability and cell cycle restart after checkp

41 pose that Msc1 acts through H2A.Z to promote chromosome stability and cell survival following DNA dam

42 udying telomerase owing to its vital role in chromosome stability and cellular immortality.

43 extensively studied, but the mechanisms for chromosome stability and diploidization in polyploids re

44 a role for maternal proteins in maintaining chromosome stability and euploidy in early-cleavage mous

45 d distinct areas of the protein required for chromosome stability and for limiting access to telomere

46 elomeres have been shown to be essential for chromosome stability and function and to shorten with ea

47 ength maintenance, an activity essential for chromosome stability and genome integrity, is regulated

48 motifs of BARD1 are each essential for both chromosome stability and HDR.

49 ed the effects of hippo signaling via YAP on chromosome stability and hepatocarcinogenesis in humans

50 in females for epigenetic control of meiotic chromosome stability and in males for haploid gene trans

51 DNA-PKcs in the maintenance of S/G(2)-phase chromosome stability and in the induction of cell cycle

52 e, a medically important enzyme required for chromosome stability and long-term cell proliferation.

53 roliferation and required for maintenance of chromosome stability and ploidy levels.

54 pate in homologous recombination to maintain chromosome stability and repair DNA damage.

55 Yeast cells lacking UFD2 exhibit altered chromosome stability and several spindle-related phenoty

56 cognized role for Shp2 in the maintenance of chromosome stability and suggest a new mechanism by whic

57 tant and P53-independent role in maintaining chromosome stability and suppressing tumor development.

58 XRCC3 plays a key role in the maintenance of chromosome stability and the repair of DNA damage.

59 Our work defines a new role for Aft1 in chromosome stability and transmission.

60 ce suggests that such origins play a role in chromosome stability and tumor suppression, though the u

61 ormal cell morphology, decreased plasmid and chromosome stability, and a severe sporulation defect.

62 he roles of Sir2 proteins in gene silencing, chromosome stability, and cell aging and imply that lysi

63 cation repair, damage checkpoint activation, chromosome stability, and chromosome condensation.

64 tical role for the CHK1 kinase in regulating chromosome stability, and in particular, common fragile

65 1) plays roles in transcription, DNA repair, chromosome stability, and limiting telomeric silencing.

66 tations tested, yap4 (cin5) mutations affect chromosome stability, and they suppress the cold-sensiti

67 nduce a partial cell cycle arrest and retain chromosome stability are crucial for suppression of earl

68 ns to assess their effect on gene dosage and chromosome stability are discussed.

69 Compelling links exist between DNMT3B and chromosome stability as emphasized by the mitotic defect

70 In chromosome stability assays, rad27-G67S strains displaye

71 ls and tumor tissues, suggesting its role in chromosome stability associated with MMR deficiency.

72 plays a critical role in the maintenance of chromosome stability at key stages of meiosis in the fem

73 pha-RMI1-RMI2 (BTR) complex, which maintains chromosome stability at the spindle assembly checkpoint

74 ochromatin (HC) is important for maintaining chromosome stability, but also delays the repair of DNA

75 Telomeres are essential for chromosome stability, but their functions at specific ce

76 es the end replication problem and maintains chromosome stability by adding telomeric DNA to the term

77 The DNA repair enzyme telomerase maintains chromosome stability by ensuring that telomeres regenera

78 the FA pathway acts more globally to ensure chromosome stability by promoting efficient end joining

79 CA1/BARD1 heterodimer is believed to enhance chromosome stability by promoting homology-directed repa

80 shelterin complex and functions to maintain chromosome stability by repressing the activation of abe

81 yeast pot1+ gene has an immediate effect on chromosome stability, causing rapid loss of telomeric DN

82 embly that likely contributes to its role in chromosome stability control and tumor suppression.

83 y and participates in cell proliferation and chromosome stability control by incompletely defined mec

84 These chromosome stability-defective cdc28(CST) mutants inappr

85 on-coupled DSB repair and the maintenance of chromosome stability distinct from its role in the G1-S

86 act the genome of many organisms, regulating chromosome stability, gene expression, and DNA repair.

87 D+-dependent deacetylase enzymes involved in chromosome stability, gene silencing and cell aging in e

88 fidelity, as it allows the identification of chromosome stability genes that have not been detected i

89 ereby Sir2 controls phenotypic switching and chromosome stability in C.albicans by organizing chromat

90 epair mechanism that is critical to maintain chromosome stability in cells and to prevent tumor forma

91 d mismatch (MDM) repair and help to maintain chromosome stability in Escherichia coli.

92 lation of gene expression and maintenance of chromosome stability in eukaryotes.

93 tative histone demethylases, is required for chromosome stability in fission yeast.

94 some condensation, centromeric function, and chromosome stability in mammalian cells, and link these

95 oinsufficient tumor suppressor essential for chromosome stability in mice.

96 ngthens telomeres, an activity essential for chromosome stability in most eukaryotes.

97 ssential for maintaining telomere length and chromosome stability in most eukaryotic organisms.

98 of endogenous DNA damage, thereby promoting chromosome stability in normal human cells.

99 -stranded tails, which may be deleterious to chromosome stability in S. cerevisiae.

100 Overexpression of abp1 affects mitotic chromosome stability in S. pombe.

101 ssential for maintaining telomere length and chromosome stability in stem cells, germline cells, and

102 actors, including antibiotics and bile, when chromosome stability is examined.

103 e of the central requirements for eukaryotic chromosome stability is the maintenance of the simple se

104 olocomplex (Smc5/6) plays a critical role in chromosome stability maintenance, DNA replication, homol

105 ay include the regulation of peptide import, chromosome stability, meiosis, apoptosis and cardiovascu

106 Chromosome stability models are usually qualitative mode

107 nd unstable clones for relationships between chromosome stability, reproductive integrity, and apopto

108 n the Cdc28 carboxyl terminus in maintaining chromosome stability through mitosis.

109 R regulatory mechanism and link guardians of chromosome stability to nutrient metabolism.

110 Chromosome stability was maintained in mouse spermatozoa