ライフサイエンスコーパス: compartmentation

1 e receptors and a change of subcellular cGMP compartmentation.

2 The first level is subcellular compartmentation.

3 evelopment that coincides with Purkinje cell compartmentation.

4 l probe of G protein-coupled receptor (GPCR) compartmentation.

5 modulation and the effect of electrodynamic compartmentation.

6 duced in the thymus, irrespective of antigen compartmentation.

7 proteins with uncharacterized roles in sugar compartmentation.

8 ct pathway division and the striosome-matrix compartmentation.

9 erimentally measured diffusion rates on cAMP compartmentation.

10 related redox signaling is tightly wedded to compartmentation.

11 cts of anatomical diffusion barriers on cAMP compartmentation.

12 f influx, efflux, synthesis, degradation and compartmentation.

13 duction of ABA degradation, modification, or compartmentation.

14 hesized to reveal information about myowater compartmentation.

15 o the complexity of subcellular and cellular compartmentation.

16 n an open bulk reaction without dilution and compartmentation.

17 vergent and ill-defined aspect of plant cell compartmentation.

18 that mucosal DCs play a crucial role in this compartmentation.

19 indicating tissue-specific regulation of SUS compartmentation.

20 nd PKA activity, critical for effective cAMP compartmentation.

21 ins within the glycosome and the function of compartmentation.

22 ned to the nucleus, they demonstrate altered compartmentation after carcinogen treatment, in cancers,

23 KAPs) provide a molecular mechanism for cAMP compartmentation, allowing for the precise control of PK

24 Compartmentation along both the mediolateral and rostroc

25 s an important role in chloroplast phosphate compartmentation and ATP synthesis, which affect plant g

26 investigated and modeled subcellular calcium compartmentation and Ca2+ movement under steady-state co

27 patibility, which is characterized by hyphal compartmentation and cell lysis, is induced.

28 bition, repression of conidiation and hyphal compartmentation and death (HCD).

29 mpatibility and significantly reduced hyphal compartmentation and death rates.

30 ed GRN expression, including changes in cell compartmentation and decreased secretion of GRN protein.

31 t and manipulate the networks regulating MSN compartmentation and differentiation, including in human

32 iosynthesis pathway occurs via multicellular compartmentation and does not require high co-expression

33 Compartmentation and dynamics of cAMP and PKA signaling

34 al model of fluorescent potentiometric probe compartmentation and dynamics using a bis-oxonol-type in

35 context both of current models of metabolic compartmentation and engineering.

36 ved understanding of plant lipid metabolism, compartmentation and function are discussed.

37 f second messengers is critical for ensuring compartmentation and localization of signaling molecules

38 times measurements, information on molecular compartmentation and mobility can be gleaned.

39 n separate waves, but the factors regulating compartmentation and neuronal differentiation are largel

40 However, subcellular compartmentation and protein modification may differ in

41 PKA regulatory subunit RIalpha promotes cAMP compartmentation and signaling specificity.

42 hat enhances co-enzyme affinity, subcellular compartmentation and stability.

43 led aspartate and lactate indicates cellular compartmentation and thus selective vulnerability of mit

44 roach opens an avenue to investigate element compartmentation and transport pathways in plants.

45 used to map and characterize microstructural compartmentation and transporter activity without exposi

46 fication, cytoplasmic pH elevation, vacuolar compartmentation, and disaggregation of the actin cytosk

47 Thus, global errors in chromosomal compartmentation are not the primary pathogenic mechanis

48 terioration and identify vacuolar amino acid compartmentation as a cellular strategy to minimize amin

49 ability of arginine but by a tight metabolic compartmentation at the systemic level.

50 1 h after wounding, indicating that loss of compartmentation barrier makes the structure unstable; s

51 ic to T. brucei in the absence of glycosomal compartmentation because of the intrinsic lack of feedba

52 timescales due to differences in metabolite compartmentation, biochemistry and diffusive pathways.

53 s not only are specific in their subcellular compartmentation but also have distinct cellular express

54 that RIalpha LLPS not only facilitates cAMP compartmentation but also spatially restrains active PKA

55 bution in register with the striosome/matrix compartmentation, but in an opposite fashion.

56 R2IIIb), differences in cell type of origin, compartmentation by alternate translation, the affinity

57 s the first demonstration that Purkinje cell compartmentation can be altered by mutation; therefore,

58 ective membrane fusion underlies subcellular compartmentation, cell growth, neurotransmission and hor

59 cluding those required for the cytoskeleton, compartmentation, cell-cycle control, proteolysis, prote

60 Compartmentation contributes to selectivity because Pkh1

61 ed in the cardiac myocyte dyadic space, cAMP compartmentation did occur, but only when diffusion was

62 strate that neuronal LRP undergoes selective compartmentation during neuronal maturation and suggest

63 gonist-stimulated NO signaling, likely via a compartmentation effect.

64 cytoplasm, as related to the electrodynamic compartmentation effects, might explain the morphologica

65 olism often presents a complex cell-specific compartmentation essential to accomplish the biosynthesi

66 he importance of polyglutamylation in folate compartmentation, folate homeostasis and folate-dependen

67 The potential importance of metabolic compartmentation for attempts to engineer phenylpropanoi

68 The importance of this subcellular compartmentation has not been directly tested in vivo.

69 e an overview of the advances in subcellular compartmentation, identifying the gaps in our knowledge

70 lowers, and suggest a role for intracellular compartmentation in auxin biosynthesis.

71 discusses what we currently know about cAMP compartmentation in cardiac myocytes and questions that

72 We hypothesized that beta-AR compartmentation in cardiomyocytes is accomplished by se

73 alized protein translation modulates protein compartmentation in cardiomyocytes.

74 t a structural model for Ca(2+) and CaNAbeta compartmentation in cells based on an isoform-specific m

75 We have examined three markers of cerebellar compartmentation in En-2 mutant mice: the Zebrin II and

76 damental cellular mechanisms that link lipid compartmentation in hepatocytes to liver damage and dise

77 CXCR4 expression and cytokine responses, and compartmentation in secondary lymphoid organs was normal

78 tool for exploring ROS dynamics, the role of compartmentation in the modulation of the redox environm

79 w that T cell activation leads to a striking compartmentation in the rafts of activated T cell recept

80 s manuscript discusses aspects of functional compartmentation in the regulation of metabolism.

81 The existence of spatial compartmentation in the rhombic lip and the interplay be

82 t the cell, and we outline the complexity of compartmentation in understanding of PTM function.

83 The fraction of voxels with an FMX compartmentation index greater than 1 was computed over

84 In brain metastases, a novel compartmentation index was derived by applying the MRI s

85 ganism cypermethrin concentrations indicated compartmentation into a sorbed fraction and two internal

86 Striatal function depends on neuronal compartmentation into striosomes and matrix.

87 demonstrate that this prerequisite is genome compartmentation into two epigenetically defined chromat

88 Compartmentation is a key strategy enacted by plants for

89 How exactly compartmentation is achieved, however, has remained a my

90 lso the evidence on which the concept of ATP compartmentation is based.

91 Intracellular sugar compartmentation is critical in plant development and ac

92 lasm of cells, but in plants its subcellular compartmentation is far from clear.

93 ds are wider and multilaminate, the standard compartmentation is present.

94 ecific antigen zebrin II (i.e., aldolase C), compartmentation is reflected in alternating zebrin II+

95 Although the concept of cAMP compartmentation is well established, the function and i

96 Characterization of Golgi compartmentation markers indicates altered colocalizatio

97 rent subcellular compartments and that their compartmentation may affect their access to arachidonic

98 This compartmentation may permit determining in which tissue

99 ion of flavin metabolism and its subcellular compartmentation, may also provide the basis for a more

100 C1 was shown to have defects in endocytosis, compartmentation, nuclear distribution, and conidiation.

101 es of inflammation can alter the subcellular compartmentation of 5-lipoxygenase.

102 we assessed the expression, regulation, and compartmentation of AC isoforms in rat aortic smooth mus

103 s investigated by studying the intracellular compartmentation of AdoMet as well as the mode of hypera

104 Genes involved in complexation and compartmentation of arsenic were up-regulated by AsIII,

105 to fine membrane structures and subcellular compartmentation of beta(3)-AR/cGMP signals underpinning

106 t the pathway responsible for the functional compartmentation of beta2-AR-PKA signaling sequentially

107 s anatomical features analogous to the Kranz compartmentation of C4 plants, and phosphoenolpyruvate c

108 onal evidence for differential intracellular compartmentation of Ca(2+) and calcineurin signal transd

109 iac myocytes, T-tubules confer the necessary compartmentation of Ca(2+) signals, which allows sarcome

110 ution of beta(2)ARs in heart failure changes compartmentation of cAMP and might contribute to the fai

111 We conclude that compartmentation of cAMP can provide a quantitative expl

112 Subcellular compartmentation of cAMP is essential to explain how dif

113 Increasingly the subcellular compartmentation of cAMP signaling has been appreciated,

114 proteins (AKAPs) play important roles in the compartmentation of cAMP signaling, anchoring protein ki

115 ion of cAMP may be a function of appropriate compartmentation of cAMP signaling.

116 determinant of the amplitude, duration, and compartmentation of cAMP-mediated signaling.

117 scarinic receptor (M(2)R) activation involve compartmentation of cAMP.

118 Compartmentation of carbohydrate metabolism has been sho

119 gulating spatial localization and functional compartmentation of cardiac beta-ARs remains elusive.

120 lasma membrane topography, but their role in compartmentation of caveolae-resident signaling componen

121 ociation may represent a novel mechanism for compartmentation of cGMP-mediated signaling and regulati

122 This compartmentation of cyclic nucleotide signaling is accom

123 c GMP, regulate the amplitude, duration, and compartmentation of cyclic nucleotide-mediated signaling

124 nd highlight the importance of intracellular compartmentation of DAG in causing lipotoxicity and hepa

125 Analysis of the cellular compartmentation of DAG revealed that DAG increased in t

126 ecific substrate utilization and subcellular compartmentation of DLK suggest that specific mixed line

127 chemic myocardium and document the metabolic compartmentation of downstream products of fatty acyl ch

128 Compartmentation of ET-1 signaling complexes may explain

129 immunocytochemistry, and by determining the compartmentation of expressed cathepsin B fused to green

130 e root are major sites for the intracellular compartmentation of folates.

131 The results support the hypothesis that compartmentation of glucokinase in the hepatocyte increa

132 ein for PFK and that this contributes to the compartmentation of glycolysis from other metabolic path

133 Compartmentation of GPCRs and AC is different in cardiom

134 s light regulation was found for the nuclear compartmentation of GUS-CRY2 fusion protein, the abundan

135 the identification of a distinct subcellular compartmentation of intracellular redox-active "labile"

136 Compartmentation of intracellular signaling pathways ser

137 Compartmentation of ion channels on the cardiomyocyte su

138 on can give new information on the molecular compartmentation of metabolites in intact tissues, inclu

139 cise regulation of the number, position, and compartmentation of mitotic membranes is a critical feat

140 chanism has been reported that regulates the compartmentation of multiple enzymes in M or BS cells.

141 The compartmentation of organic selenocompounds in specific

142 Unlike other receptor-mediated responses, compartmentation of PGE1 responses was not due to concur

143 sulin suggest 2 different isoforms of PI3-K, compartmentation of PI3-K, potentiation, or inhibition b

144 lays a foundation for studying targeting and compartmentation of PKA and other kinases and phosphatas

145 oteins has been implicated in the functional compartmentation of PKA signaling, the exact mechanism u

146 orelease of diacylglycerol further suggested compartmentation of PKC signaling, with release at the m

147 PKGI is required for cGMP-stimulated nuclear compartmentation of PKGI and phosphorylation of transcri

148 rocessing in the GA was critical for nuclear compartmentation of PKGIgamma because GA disruption with

149 e deduced from what is currently known about compartmentation of plant-cell metabolism.

150 Compartmentation of primary metabolism in developing emb

151 these preparations established intracellular compartmentation of processes to support a NAD-malic enz

152 ction are widely believed to require spatial compartmentation of protein kinase and phosphatase activ

153 d for a more complex view of the subcellular compartmentation of PTGS in plants.

154 role for granule cell raphes in parasagittal compartmentation of Purkinje cells.

155 t B(6) dynamics are rapidly tuned by precise compartmentation of pyridoxal kinase (PDXK), the rate-li

156 to or rather due to differential subcellular compartmentation of reductant in the different organs.

157 To determine whether compartmentation of RhoA and Rac1 within caveolae was ne

158 nding of how nanodomains can lead to spatial compartmentation of second messengers.

159 of heme-oxidation and altered intracellular compartmentation of sGC as potential mechanisms.

160 reases in cAMP or, alternatively, because of compartmentation of signaling components.

161 s mounting evidence for the organization and compartmentation of signaling molecules at the plasma me

162 ulate that the mutant might have a defect in compartmentation of substrates involved in the biosynthe

163 yte microtubules, underlying the distinctive compartmentation of the 2 beta-ARs on the plasma membran

164 esponsible for the loss of an Edn1-dependent compartmentation of the arch into the intermediate and v

165 the experimentally elongated neurites showed compartmentation of the axonal markers dephospho-tau and

166 We investigated the compartmentation of the catabolism of dodecanedioate (DO

167 adrenergic receptor (beta2-AR)/G(i)-mediated compartmentation of the concurrent G(s)-cAMP signaling,

168 Compartmentation of the folate-dependent de novo thymidy

169 SCLC tissues involves cytoplasmic activation/compartmentation of the glucose-to-serine pathway and en

170 h F-actin is suggested to be a mechanism for compartmentation of the glycolytic pathway.

171 osphate, consistent with the known lysosomal compartmentation of the molecule.

172 Instead, compartmentation of the PGE1 response in cardiac myocyte

173 At the same time, compartmentation of the Purkinje cell layer was detected

174 contribute to the molecular and subcellular compartmentation of the turnover of properly folded prot

175 Subcellular compartmentation of the ubiquitous second messenger cAMP

176 ription and quantitation of cellular calcium compartmentation patterns and movements as correlated wi

177 However, the exact mechanism by which compartmentation provides a catalytic advantage to the e

178 of versatile protein elements, weak linkage, compartmentation, redundancy, and exploratory behavior r

179 ught to develop a representation of cellular compartmentation that would accurately capture cellular

180 These results indicate that CK compartmentation to the myofibril of skeletal muscle is

181 he elucidation of the basis for carbohydrate compartmentation to the plasma membrane in a wide variet

182 Here, we mimic cell compartmentation using an aqueous two-phase system of de

183 This work unveils a novel mechanism of cAMP compartmentation utilized for localized tuning of an osc

184 Spatial compartmentation was first proposed over 30 years ago to

185 enzyme activity measurements and subcellular compartmentation was parameterized to fit the sucrose, h

186 ith ZE, and no differences in subcellular Zn compartmentation were found between Zn-efficient and -in

187 Thus, in this system, compartmentation with its associated signalosome archite

188 glucose utilization and inorganic phosphate compartmentation with normal ATP gamma-phosphoryl dynami

189 This indicates a high level of functional compartmentation within the rat mPFC whereat many functi

190 sALMT4 expression affected malate efflux and compartmentation within the tissues, which increased Mn