ライフサイエンスコーパス: temporal expression pattern

1 in DNA supercoiling that correlates with the temporal expression pattern.

2 ption factor (lin-29) primarily controls the temporal expression pattern.

3 s that exhibit diverse structural layout and temporal expression patterns.

4 in which they exhibit selective spatial and temporal expression patterns.

5 ike peptides (ILPs) with diverse spatial and temporal expression patterns.

6 essed, but are found instead in gradient and temporal expression patterns.

7 channels with distinct properties and spatio-temporal expression patterns.

8 nt and identified new genes with interesting temporal expression patterns.

9 nt Hox3 paralog), with disparate spatial and temporal expression patterns.

10 athways differing in biological function and temporal expression patterns.

11 genes clustered into four anatomical and six temporal expression patterns.

12 lust, we clustered host genes based on their temporal expression patterns.

13 te specificity, kinetic characteristics, and temporal expression patterns.

14 egulated clusters based on the similarity of temporal expression patterns.

15 f storage components showed several distinct temporal expression patterns.

16 induced genes could be categorized into four temporal expression patterns.

17 unctional DNMs, (2) exhibited similar spatio-temporal expression patterns, (3) shared significantly m

18 ion process seemed to exhibit characteristic temporal expression patterns after the addition of norma

19 transcriptome analysis revealed distinctive temporal expression patterns among the cold-regulated ge

20 rces, suggesting a highly restricted spatial/temporal expression pattern, an alternatively spliced va

21 We found that each HDAC has a distinct temporal expression pattern and regulates transcription

22 All twenty GaLIMs showed variable spatio-temporal expression patterns and accordingly further cat

23 in callosal fibers based on both spatial and temporal expression patterns and analysis of gene-target

24 Similar temporal expression patterns and equivalent levels of ch

25 0A4 in normal mammary gland, its spatial and temporal expression patterns and possible function in br

26 ins having a common function exhibit similar temporal expression patterns, and genes specifying funct

27 Spatial and temporal expression patterns appear to have been evoluti

28 identified two PG-specific P450 genes whose temporal expression patterns are correlated with changes

29 e implications of their distinct spatial and temporal expression patterns are discussed.

30 the DEF/APETELA3(AP3)/TM6 group, its spatio-temporal expression patterns are more similar to that of

31 n3c instead of cBrn3b exhibits a spatial and temporal expression pattern characteristic of ganglion c

32 Interestingly, these spatial and temporal expression patterns coincide with the expressio

33 Temporal expression patterns demonstrated that the super

34 Each ligand displays differential temporal expression patterns during embryogenesis and sp

35 t mH2A1 and mH2A2 have different spatial and temporal expression patterns during embryonic developmen

36 eplichores largely corresponds both to their temporal expression patterns during growth and to an inf

37 lationship and have retained distinct spatio-temporal expression patterns during plant developmental

38 of them are tapetum-specific with differing temporal expression patterns during pollen development a

39 Here we report their spatio-temporal expression patterns during the depilation-induc

40 Transcript abundance levels and temporal expression patterns for double-strand break rep

41 the current study, we found distinct spatial-temporal expression patterns for the mRNA of TIMP family

42 To further investigate the spatial and temporal expression patterns for these genes, the TAPG g

43 genes that must be expressed, as well as the temporal expression pattern, for the development of func

44 ative cluster analysis grouped into distinct temporal expression patterns >900 known human genes that

45 We clustered the genes by temporal expression pattern, identified transcription fa

46 The ZRS drives the early spatio-temporal expression pattern in the limb of tetrapods.

47 dization was used to examine its spatial and temporal expression pattern in the retina.

48 The spatial and temporal expression patterns in C. elegans embryos of 10

49 lso show that genetic manipulations of their temporal expression patterns in mice alter the timing of

50 rtcl genes display highly correlated spatio-temporal expression patterns in roots, despite the signi

51 s pathway of melanin, were cloned, and their temporal expression patterns in the integument were comp

52 lopmental enhancers with desired spatial and temporal expression patterns in the zebrafish brain.

53 Methods for capturing these spatial and/or temporal expression patterns include in situ hybridizati

54 ollagen type I genes showed a similar spatio-temporal expression pattern, indicating their co-regulat

55 scription factors, whose defined spatial and temporal expression patterns may also be influenced by a

56 or co-expression network based comparison of temporal expression patterns (NACEP).

57 transcripts, as well as the miR156-dependent temporal expression pattern of a 35S::GUS-SPL3 transgene

58 ally or in combination, determine the spatio-temporal expression pattern of a promoter at the transcr

59 The spatial and temporal expression pattern of COUP-TFI suggested a role

60 the lacZ expression completely agrees with a temporal expression pattern of Crx during retinal develo

61 A study of the spatial and temporal expression pattern of Ctr1 during mouse develop

62 The temporal expression pattern of cyp-5 was further determi

63 (Day28) subjects were characterized by an AM temporal expression pattern of Day 1 enrichment of innat

64 The spatial and temporal expression pattern of dlf1 indicates a threshol

65 The present study analyzes the tissue and temporal expression pattern of endogenous haptoglobin in

66 reporter that recapitulates the spatial and temporal expression pattern of endogenous Tctex-1.

67 the normal postnatal brain, the spatial and temporal expression pattern of FGFR3 parallels the appea

68 In this study, we compared the temporal expression pattern of four retinal genes; rho1

69 we have determined the detailed spatial and temporal expression pattern of FOXP2 mRNA in the develop

70 d in tube-forming endothelial cells reveal a temporal expression pattern of genes primarily associate

71 Northern analyses revealed a similar temporal expression pattern of HAS genes in developing m

72 Therefore, our results reveal a temporal expression pattern of miR-17-92 by antigen-spec

73 d out a detailed analysis of the spatial and temporal expression pattern of the gene Fgf10, by compar

74 d at embryonic day 9.5, corresponding to the temporal expression pattern of the insulin gene.

75 The temporal expression pattern of the mag-1 gene prior to a

76 ansgenic bone marrow in combination with the temporal expression pattern of the transgene in the pro/

77 To address the spatial and temporal expression pattern of the two homologs, C-termi

78 ndicate that RNAi does not contribute to the temporal expression pattern of this gene.

79 We found that the spatio-temporal expression pattern of VEGF in the ectoderm corr

80 Temporal expression patterns of AhR target genes were al

81 expression reveals constitutive spatial and temporal expression patterns of all gene family members

82 contractile forces influence the spatial and temporal expression patterns of all three genes.

83 The comparative analysis reveals spatial and temporal expression patterns of both genes that correlat

84 he deficit in the NT-3 mutant to the spatial-temporal expression patterns of brain-derived neurotroph

85 role of miR398 in specifying the spatial and temporal expression patterns of CSD1 and CSD2 mRNAs.

86 rmal development by altering the spatial and temporal expression patterns of cytochrome P450s require

87 anscription-PCR to determine the spatial and temporal expression patterns of each AtKT/KUP gene acros

88 The spatial and temporal expression patterns of FGFs and FGFRs and the a

89 Here we describe the cloning and mRNA spatio-temporal expression patterns of five new MADS-box genes

90 sses that generate the characteristic spatio-temporal expression patterns of floral homeotic genes, e

91 s in the heme active site structures and the temporal expression patterns of HbO and HbN suggest that

92 tudy, we used the raft system to analyze the temporal expression patterns of HPV31b late gene transcr

93 The spatial and temporal expression patterns of human Abeta are expected

94 Temporal expression patterns of hypoxia-inducible factor

95 f this study was to elucidate how changes in temporal expression patterns of individual components of

96 lia have come via monitoring the spatial and temporal expression patterns of individual transcription

97 The spatial and temporal expression patterns of messenger RNA of Hoxa4,

98 The spatial and temporal expression patterns of metallothionein (MT) iso

99 evelopment, we have examined the spatial and temporal expression patterns of mu, kappa, and delta opi

100 The spatial and temporal expression patterns of Notch signaling genes in

101 ntial for generating the complex spatial and temporal expression patterns of Notch target genes durin

102 Temporal expression patterns of other lncRNA-messenger R

103 However, the temporal expression patterns of PHF21A and LSD1 splicing

104 o illuminate its properties, the spatial and temporal expression patterns of PKHD1 were determined in

105 The spatial and temporal expression patterns of several extracellular ma

106 nt and function, we examined the spatial and temporal expression patterns of SRC-1 and characterized

107 rs regulating various aspects of the spatial-temporal expression patterns of TCF7L2, including expres

108 During ocular development, the spatial-temporal expression patterns of the betaGal recapitulate

109 Temporal expression patterns of the Bordetella pertussis

110 allantoic culture by analysis of spatial and temporal expression patterns of the endothelial or hemat

111 ervous system, we determined the spatial and temporal expression patterns of the gene products of AHI

112 The spatial and temporal expression patterns of the genes provide inform

113 and verified genes by qPCR revealed that the temporal expression patterns of these genes are consiste

114 e a high level of conservation of the spatio-temporal expression patterns of these genes between zebr

115 as sensors, we demonstrate that spatial and temporal expression patterns of these genes in the endos

116 ilies, this order does not reflect the known temporal expression patterns of these genes.

117 The spatial and temporal expression patterns of these two genes show ext

118 The specific localization and different temporal expression patterns of these two proteoglycans

119 We have investigated the spatial and temporal expression patterns of three members of the B s

120 ential to accurately measure the spatial and temporal expression patterns of transcription factors an

121 er analysis of these genes revealed distinct temporal expression patterns of transcriptional activati

122 Finally, we determined the temporal expression patterns of WNT, BMP, and RA signali

123 models for the prediction of precise spatio-temporal expression patterns on the one side, and crude,

124 issural somata and axons is unknown, but its temporal expression pattern parallels the transient expr

125 The temporal expression pattern provided clues to potential

126 Clustering the genes by temporal expression patterns provided further insight in

127 By determining spatial-temporal expression patterns, reporter constructs provid

128 Spatial and temporal expression patterns show startling similarity b

129 CesA gene family has adapted differentially temporal expression patterns, suggesting an integrated r

130 to be accompanied by a change in spatial and temporal expression patterns, suggesting that duplicated

131 talloproteinase 7 (MMP7) as an enzyme with a temporal expression pattern that corresponded with carti

132 transient CNS ischemia while others showed a temporal expression pattern that was dependent on the ty

133 d to be essential for permitting spatial and temporal expression patterns that approximate normal end

134 When grouped by temporal expression pattern, these TFs explain much of t

135 iP promoters potentially define their spatio-temporal expression patterns under developmental and str

136 of LOXL2 mRNA and demonstrated a spatial and temporal expression pattern unique to the LOXL2 gene.

137 ression level information in addition to the temporal expression patterns, we can uncover sequence-le

138 g the mycorrhiza-induced genes, two distinct temporal expression patterns were evident.

139 ng analysis, 13 miRNA clusters with distinct temporal expression patterns were identified.

140 However, the temporal expression patterns were strongly dependent on

141 has an unusual developmental cycle marked by temporal expression patterns whose mechanisms of regulat

142 se gene and betaVPE) that shared spatial and temporal expression patterns with seed storage proteins.