ライフサイエンスコーパス: gene expression regulation

1 ion factors (TFs) is crucial to the study of gene expression regulation.

2 ic function of DNMT3B and DNA methylation in gene expression regulation.

3 somatic cells is an important mechanism for gene expression regulation.

4 meric G proteins we have focused recently on gene expression regulation.

5 RNAs (miRNAs) have emerged as key factors in gene expression regulation.

6 rform dual roles in mRNA quality control and gene expression regulation.

7 s; all of which play immense roles in global gene expression regulation.

8 for understanding their functional roles in gene expression regulation.

9 es in influencing complex phenotypes through gene expression regulation.

10 rges as an abundant modification involved in gene expression regulation.

11 ovide new insights into our understanding of gene expression regulation.

12 A as a new mechanism of post-transcriptional gene expression regulation.

13 y of the interplay between genome layout and gene expression regulation.

14 ith several pathological conditions and with gene expression regulation.

15 play important biological functions such as gene expression regulation.

16 ost-transcriptional regulatory mechanism for gene expression regulation.

17 oviding unprecedented opportunities to study gene expression regulation.

18 rovide a tight spatial and temporal level of gene expression regulation.

19 ve as important hubs for posttranscriptional gene expression regulation.

20 ing sites is pivotal to our understanding of gene expression regulation.

21 coding RNAs that are extensively involved in gene expression regulation.

22 modulate RNA-protein interactions to affect gene expression regulation.

23 s a new dimension to the characterization of gene expression regulation.

24 des) noncoding endogenous RNAs implicated in gene expression regulation.

25 k between global chromatin changes and local gene expression regulation.

26 This pause is a key component of metazoan gene expression regulation.

27 ing regions, suggesting their involvement in gene expression regulation.

28 A-to-I editing in microRNA (miRNA)-mediated gene expression regulation.

29 from the same gene and thus is important in gene expression regulation.

30 a new insight into chromatin remodeling and gene expression regulation.

31 diverse, important biological roles through gene expression regulation.

32 cal role of the human TPH2 (hTPH2) 5'-UTR in gene expression regulation.

33 mains for binding TPP to form a platform for gene expression regulation.

34 multiple mRNAs, has revealed a new level of gene expression regulation.

35 ssect the mechanism of this critical step of gene expression regulation.

36 , suggesting a potential role for the PNC in gene expression regulation.

37 ly contribute to transcriptome diversity and gene expression regulation.

38 ally map variation in chromatin structure to gene-expression regulation across conditions, environmen

39 al information for a better understanding of gene expression regulation and antigenic variation in ma

40 The knowledge of the nature of gene expression regulation and biological pathways can b

41 entiation and establish a role for Nup210 in gene expression regulation and cell fate determination.

42 ute to a better understanding of protein and gene expression regulation and could find applications i

43 ical and direct role for TARBP2 in mammalian gene expression regulation and reveal that regulated RNA

44 It also plays a role in gene expression regulation and RNA metabolism.

45 This suggests that under complex conditions, gene expression regulation and signal integration have b

46 lysine residues is an essential component of gene expression regulation and there is considerable int

47 llenging DNA structure with crucial roles in gene expression, regulation and recombination.

48 Our studies have cataloged gene-expression regulation and identified multiple novel

49 or for several cellular functions, including gene expression regulation, and has also been linked wit

50 rocesses such as DNA replication initiation, gene expression regulation, and mismatch repair.

51 ) pathways, ion-channel activity modulation, gene expression regulation, and the interface with other

52 a species in the same family, unveiling the gene expression, regulation, and conservation of the pat

53 ation is a fascinating new approach by which gene expression, regulation, and function can be studied

54 nonredundant and condition-specific roles in gene-expression regulation, arguing against a generic ge

55 one lysine residues plays important roles in gene expression regulation as well as cancer initiation.

56 e PNC in cancer cells and may play a role in gene expression regulation at the DNA locus that associa

57 for heart formation and critical for cardiac gene expression regulation at the early stages of heart

58 ected, including transcription, translation, gene expression regulation, autophagy and stress resista

59 HOS related genes and provided an example of gene expression regulation based on the final protein ar

60 d the origins of this proposed difference in gene expression regulation between natural variants and

61 ted microbiologists in the area of microbial gene expression, regulation, biogenesis, pathogenicity,

62 tion antitermination is a common strategy of gene expression regulation, but only a few transcription

63 istinct proteins, plays an essential role in gene expression regulation by acting as a bridge between

64 igenetic modifications play crucial roles in gene expression regulation by altering the architecture

65 has been recognized as a key contributor of gene expression regulation by generating different trans

66 thus demonstrating functional complexity in gene expression regulation by miRNAs.

67 Gene expression regulation by the stringent response eff

68 Memory consolidation requires gene expression regulation by transcription factors, whi

69 In this paper we investigate how much gene expression regulation can be attributed to the pres

70 emales are likely rooted from the sex-biased gene expression regulation during brain development.

71 Transcriptional elongation is critical for gene expression regulation during embryogenesis.

72 lations, which likely reflect fine-tuning of gene expression regulation during evolution.

73 us strengthening the possibility of a direct gene expression regulation exerted by RALY.

74 A new paradigm of gene expression regulation has emerged recently with the

75 MicroRNAs (miRNAs) play important roles in gene expression regulation in animals and plants.

76 has been shown to play an important role in gene expression regulation in animals and plants.

77 ate the impact of RNA secondary structure on gene expression regulation in Arabidopsis thaliana.

78 histone modifications that are implicated in gene expression regulation in complex organisms.

79 Translation control is a prevalent form of gene expression regulation in developmental and stem cel

80 different genes, bringing new insights into gene expression regulation in dopaminergic cells and the

81 important epigenetic marker associated with gene expression regulation in eukaryotes.

82 aims to unveil effects of AGE and FruArg on gene expression regulation in LPS stimulated BV-2 cells.

83 cations in understanding DNA methylation and gene expression regulation in mammalian cells.

84 ripts are essential for post-transcriptional gene expression regulation in mammals.

85 veals critical features that may function in gene expression regulation in mouse pluripotent cells.

86 and microRNAs, provided valuable insight to gene expression regulation in response to drought stress

87 , revealing that there are unique aspects of gene expression regulation in the mammalian brain.

88 y that addresses the epigenetic mechanism of gene expression regulation in various postmitotic neuron

89 tute arenavirus RNA synthesis initiation and gene expression regulation in vitro using purified compo

90 rt from various modalities of protein-coding gene expression regulation, including microRNA repressio

91 r good examples linking neuronal activity to gene expression/regulation involved in synaptic plastici

92 Understanding the mechanisms that determine gene expression regulation is an important and challengi

93 Similarly, the genetic architecture of gene expression regulation is highly diversified among p

94 ucleotides, which plays an important role in gene expression regulation, is one of the most studied e

95 es affected included chromatin modification, gene-expression regulation, macromolecular metabolism, a

96 y realistic evolutionary model that includes gene expression, regulation, metabolism and biosynthesis

97 ll protein concentration, with >70% of yeast gene expression regulation occurring through mRNA-direct

98 3K/MAPK/mTOR) signaling-pathways, and by the gene-expression regulation of key receptors/transcriptio

99 delineating three-dimensional mechanisms of gene expression regulation, our studies identify lineage

100 rotein interactions are essential for proper gene expression regulation, particularly in neurons with

101 one modifications in neuronal signal-induced gene expression regulation, plasticity, and survival and

102 Gene expression regulation plays an important role in co

103 olysis, and the direct roles for caspases in gene expression regulation, remain largely unclear.

104 ulatory elements and revealing their role in gene expression regulation remains a central goal of pla

105 other modes of evolution--such as changes in gene expression regulation-remains unknown.

106 key question is how morphogen diffusion and gene expression regulation shape positional information

107 xtreme and obvious--facet of a pairing-based gene expression regulation system in plants.

108 ges and represent a fascinating new layer of gene expression regulation that has only recently been a

109 lved in alternative splicing, a mechanism of gene expression regulation that is increasingly recogniz

110 new dimension in tamoxifen action, involving gene expression regulation that is tamoxifen preferentia

111 ibed here indicate an intricate mechanism of gene expression regulation that may be relevant in the c

112 profiles described here provide insight into gene expression regulation that may underlie the adverse

113 ups play an evolutionarily conserved role in gene expression regulation that, in metazoans, extends i

114 In studies to understand gene-expression regulation that might involve HAT activi

115 inted in the genome that might contribute to gene expression regulation through an indirect reading m

116 ure and participate in many other aspects of gene expression regulation through mechanisms that are n

117 derstand the molecular mechanisms underlying gene expression regulation under adverse environmental c

118 utant allows us to test the role of Fgfr1 in gene expression regulation without disturbing limb bud g