ライフサイエンスコーパス: intracellular organelle

1 nsport compounds from the lumen of an acidic intracellular organelle.

2 ement across epithelia, and acidification of intracellular organelles.

3 metabolite flux across membranes of cells or intracellular organelles.

4 les, and changes in receptor assembly within intracellular organelles.

5 -R (R1 and R2) in HEK-293 cell membranes and intracellular organelles.

6 reen fluorescent protein remained trapped in intracellular organelles.

7 o maintain and adapt spatial organization of intracellular organelles.

8 ER, which contacts and modulates most other intracellular organelles.

9 ntial for regulating vesicular traffic among intracellular organelles.

10 operated channel activity and Ca2+ uptake by intracellular organelles.

11 vated at the expense of bulk Rap1 located on intracellular organelles.

12 fields to achieve selective manipulations of intracellular organelles.

13 ated pit formation at the cell surface or on intracellular organelles.

14 of membrane proteins present on a variety of intracellular organelles.

15 association with cell membrane and possibly intracellular organelles.

16 low-pH-dependent fusion triggering in acidic intracellular organelles.

17 on of MG29 from the plasma membrane into the intracellular organelles.

18 both mZip1 and mZip3 were largely present in intracellular organelles.

19 segregation of membrane proteins to distinct intracellular organelles.

20 TPases) mediate the acidification of various intracellular organelles.

21 g that the remaining calcium originated from intracellular organelles.

22 ingle-celled bacterium that presumably lacks intracellular organelles.

23 cell volume regulation and acidification of intracellular organelles.

24 f signaling proteins to send messages to the intracellular organelles.

25 angers were associated with the membranes of intracellular organelles.

26 microdomains on both the plasma membrane and intracellular organelles.

27 erentiated, nonendocytic cells that lack all intracellular organelles.

28 and the spatial distribution of Ca2+ within intracellular organelles.

29 h cell types, virions localized to acidified intracellular organelles.

30 ch probably consists mainly of iron bound to intracellular organelles.

31 s fuse with the plasma membrane but not with intracellular organelles.

32 d the coincident accumulation of cadherin in intracellular organelles.

33 function in vesicle formation from distinct intracellular organelles.

34 esting that betaIII spectrin associates with intracellular organelles.

35 e and coordination of diurnal rhythmicity in intracellular organelles.

36 he regulation of vesicle trafficking between intracellular organelles.

37 this protein in the membranes of specialized intracellular organelles.

38 ransmembrane proteins, and proteins found in intracellular organelles.

39 losure of macropinosomes and phagosomes into intracellular organelles.

40 tuate pattern suggestive of association with intracellular organelles.

41 nd function of integral membrane proteins of intracellular organelles.

42 nsistent with the reported effects of BFA on intracellular organelles.

43 rated channels, and it is not sequestered by intracellular organelles.

44 ration to driving cytokinesis to positioning intracellular organelles.

45 uired for endolysosomal membrane fusion with intracellular organelles.

46 effects on membrane permeability of multiple intracellular organelles.

47 iber cells contain the typical complement of intracellular organelles.

48 ases recruit peripheral membrane proteins to intracellular organelles.

49 nd fusion determine size and copy numbers of intracellular organelles.

50 ract with the eukaryotic plasma membrane and intracellular organelles.

51 cture and function of mitochondria and other intracellular organelles.

52 (2) in regulating the fusogenic potential of intracellular organelles.

53 that exist in most eukaryotic cells, such as intracellular organelles.

54 termittently shown the presence of BK(Ca) in intracellular organelles.

55 eract with the eukaryotic plasma membrane or intracellular organelles.

56 egulate pH by pumping cytosolic protons into intracellular organelles.

57 amp technique, are not readily applicable to intracellular organelles.

58 only across the cell membrane but also into intracellular organelles.

59 tem to rapidly target proteins to individual intracellular organelles.

60 ontrol the pH and electrolyte composition of intracellular organelles.

61 TPase proton pump responsible for acidifying intracellular organelles.

62 redirecting transport vesicles and hijacking intracellular organelles.

63 e labeling of either neuronal cell bodies or intracellular organelles.

64 either by drug efflux or sequestration into intracellular organelles.

65 oplasmic reticulum (ER) is a multifunctional intracellular organelle, a component of the cellular ret

66 asma membrane and the membranes of nanoscale intracellular organelles, a result we found to be due to

67 ton pump inhibitors which increase the pH of intracellular organelles, after which TYR is transported

68 le the multiple glycan species released from intracellular organelle and cell surface glycoproteins,

69 aggregates are not associated with any known intracellular organelles and are reversible by incubatin

70 t both receptors were profoundly retained in intracellular organelles and co-localized with the endop

71 tor 1, a negative effect on the structure of intracellular organelles and defective autophagy.

72 domain of Bcl-B impairs its association with intracellular organelles and diminishes its anti-apoptot

73 Vacuolar H(+)-ATPases (V-ATPases) acidify intracellular organelles and help to regulate overall ce

74 H(+)ATPases mediate acidification of various intracellular organelles and in some tissues mediate H(+

75 en implicated in maturational degradation of intracellular organelles and in the biosynthesis of anti

76 tisubunit complex responsible for acidifying intracellular organelles and is highly regulated.

77 ducing this dramatic morphological change in intracellular organelles and its relation to the functio

78 Autophagy is a process for turnover of intracellular organelles and macromolecules that protect

79 Autophagy is a process for turnover of intracellular organelles and molecules that protects cel

80 lysosomal pathway that degrades and recycles intracellular organelles and proteins to maintain energy

81 of intestinal SR-B1 from apical membranes to intracellular organelles and reduced chylomicron secreti

82 nd physiological stimuli alter the pH within intracellular organelles and suggest that NAADP signals

83 ase) is a rotary motor enzyme that acidifies intracellular organelles and the extracellular milieu in

84 microscopy to generate 3D reconstructions of intracellular organelles and their membrane appositions

85 t is well established that CFTR localizes to intracellular organelles and to apical membranes.

86 mechanisms rely on their ability to mobilize intracellular organelles and to deliver granular cargoes

87 n and myosin have been proposed to transport intracellular organelles and vesicles to the cell periph

88 tion from within eosinophil granules both as intracellular organelles and, as novelly demonstrated, a

89 o play an important role in the clearance of intracellular organelles, and autophagy-deficient mature

90 a(2+) regulation involves sequestration into intracellular organelles, and expeditious Ca(2+) release

91 ttering structures from the visual axis, all intracellular organelles are eliminated from cells in th

92 is a homeostatic process whereby cytosol or intracellular organelles are sequestered by a double mem

93 Eosinophil granules, in addition to being intracellular organelles, are found as intact membrane-b

94 Fatp4 mutants, and FATP1 sorted to the same intracellular organelles as endogenous FATP4.

95 ron microscopy revealed the disappearance of intracellular organelles, as well as the disappearance o

96 with additional participation of the NCX and intracellular organelles at high [Ca(2+)]i.

97 with additional participation of the NCX and intracellular organelles at high [Ca2+]i.

98 atients demonstrates impaired trafficking of intracellular organelles because of obstruction by vacuo

99 ion events that occur during endocytosis and intracellular organelle biogenesis through the combined

100 Cells tightly regulate trafficking of intracellular organelles, but a deeper understanding of

101 ication is required for the function of many intracellular organelles, but methods to acutely manipul

102 protein vti1a is proposed to drive fusion of intracellular organelles, but recent data also implicate

103 e of assembly of SIV is not redirected to an intracellular organelle by the retrieval of the Env prot

104 of zinc influx, efflux, and distribution to intracellular organelles by zinc transporters.

105 mary melanocytes from which they arise, have intracellular organelles, called melanosomes, wherein th

106 re human erythrocytes, known to be devoid of intracellular organelles, can sequester ATP, but they ma

107 n shares extensive homology with a family of intracellular organelle chloride channels but is the fir

108 The apicoplast (an intracellular organelle) contains an approximately 35-kb

109 er switch for cell growth and trafficking of intracellular organelles, controls the acidification of

110 Distinct lipid compositions of intracellular organelles could provide a physical basis

111 l surface growth, the biogenesis of distinct intracellular organelles, endocytosis, and the controlle

112 Mitochondria are intracellular organelles essential for cell viability an

113 and a catabolic process of self-digestion of intracellular organelles for energy use and survival in

114 evelopments and their applications to assess intracellular organelle function.

115 will be approximately equal to the number of intracellular organelles if random segregation prevails.

116 transiently expressed Dm-cF was localized to intracellular organelles in D. melanogaster S2 cells, un

117 ase) is a multisubunit enzyme that acidifies intracellular organelles in eukaryotes.

118 ndings highlight the importance of different intracellular organelles in specific innate immune respo

119 was used to record ion channel activity from intracellular organelles in the presynaptic terminal of

120 Given the absence of intracellular organelles in the sub-micron diameter olfa

121 Absence of intracellular organelles in these vacuoles, shown by ele

122 e a new functional role for P2X receptors on intracellular organelles, in this case in osmoregulation

123 transport reactions distributed across five intracellular organelles including cytosol, plastid, mit

124 misfolded SOD1 onto the cytoplasmic faces of intracellular organelles, including mitochondria and the

125 Proteins typically associated with other intracellular organelles, including nuclei, mitochondria

126 and accumulation on the cytoplasmic faces of intracellular organelles, including the mitochondria and

127 nding to and imaging of exogenous TTR within intracellular organelles, including the mitochondria and

128 has been implicated in vesicle budding from intracellular organelles, including the trans-Golgi netw

129 en distinct and morphologically well-defined intracellular organelles, including three distinct types

130 hermore, the isolation of DRMs from purified intracellular organelles independently verified the loca

131 he aging process in the function of the main intracellular organelles involved in Ca(2+) regulation:

132 cking of membrane vesicles between different intracellular organelles involves the formation of solub

133 major lysosomal pathway for the turnover of intracellular organelles is markedly impaired in neurons

134 The rapid mobilization of intracellular organelles is regulated by vesicular traff

135 ecretion of von Willebrand factor (VWF) from intracellular organelles known as Weibel-Palade bodies (

136 genetic defects in proteins associated with intracellular organelles, mainly the endoplasmic reticul

137 Intracellular organelles mediate complex cellular functi

138 drop in DeltaPsim, endoplasmic reticulum and intracellular organelle membrane potential tantamount to

139 hese genes in the production and function of intracellular organelles, mice doubly homozygous for the

140 erate the forces that drive cell crawling or intracellular organelle motility.

141 arrays that stimulate protrusions and drive intracellular organelle movements.

142 from muscle contraction to acidification of intracellular organelles, nutrient accumulation and surv

143 e remodeling, and the elimination of certain intracellular organelles occur through the exosomal path

144 s implemented with mag-indo-1 trapped in the intracellular organelles of frog skeletal muscle and val

145 ane microdomains (lipid rafts/caveolae), and intracellular organelles of living cells, both in vitro

146 ecific targeting and delivery of antigens to intracellular organelles of macrophages using Sn-ligand

147 nonpathological amyloids have been found in intracellular organelles of normal mammalian tissues sug

148 Sequestering NIS in intracellular organelles or impairing its targeting to t

149 ative pathway that regulates the turnover of intracellular organelles, parasites, and long-lived prot

150 ation into asymmetries of cell membranes and intracellular organelles, PCP signaling coordinates morp

151 Gas vesicles are proteinaceous intracellular organelles, permeable only to gas, that en

152 sely, activation of GPR55 at the membrane of intracellular organelles promotes Ca(2+) release from ac

153 fatty oils are generally stored in spherical intracellular organelles referred to as oleosomes that a

154 tions at the cell surface, but investigating intracellular organelles remains a challenge.

155 localization of CSAS orthologs to different intracellular organelles represents, to our knowledge, t

156 Mitochondria were first characterized as intracellular organelles responsible for energy producti

157 ate (S1P) can stimulate calcium release from intracellular organelles, resulting in the activation of

158 During the second division, intracellular organelles segregate specifically to sperm

159 These observations suggest that these intracellular organelles share a remarkably conserved me

160 blished the presence of Birbeck granules, an intracellular organelle specific to LCs.

161 ery little fluorescent beta(2)m was found in intracellular organelles stained by DiOC(6), marking the

162 ls localized on both the plasma membrane and intracellular organelles such as endoplasmic reticulum.

163 unt for the presence of skeletal networks in intracellular organelles such as lysosomes, the Golgi ap

164 toskeletal remodeling but also the motion of intracellular organelles such as the nucleus.

165 of which are autophagy specific, as well as intracellular organelles, such as the ER and Golgi, and

166 ermeabilized cells to be present in discrete intracellular organelles, suggesting that these cells ha

167 romotes abnormalities in the distribution of intracellular organelles that are correctable by pharmac

168 Endosomes and lysosomes are key intracellular organelles that couple nutrition and metab

169 Lipid droplets (LDs) are intracellular organelles that provide fatty acids (FAs)

170 Lipid droplets (LDs) are intracellular organelles that store neutral lipids withi

171 embranes and cause release of molecules from intracellular organelles that ultimately induces cell ne

172 sion of spermatogenesis requires specialized intracellular organelles, the fibrous body-membranous or

173 iate zinc efflux and compartmentalization in intracellular organelles; thus, ZnTs play a central role

174 oduction and/or movement of vesicles from an intracellular organelle to the cell surface to support m

175 used on the contribution of Pgp expressed in intracellular organelles to drug resistance.

176 c pH, suggesting it may also function within intracellular organelles to reduce these metals.

177 dicate that although Ca2+ release from other intracellular organelles to the cytosol is adequate for

178 en shown to play a role in the regulation of intracellular organelle transport .

179 Nonperturbative monitoring of intracellular organelle transport in unstained living ce

180 Certain types of intracellular organelle transport to the cell periphery

181 d in several subcellular functions involving intracellular organelle transport.

182 que properties implicate a role for HDAC6 in intracellular organelle transport.

183 M), suggesting that GLUT8 is associated with intracellular organelles under basal conditions.

184 rafficking and the formation of melanosomes, intracellular organelles unique to melanocytes and melan

185 by treatments that inhibit acidification of intracellular organelles, using chloroquine, a pH-neutra

186 The excessive acidification of intracellular organelles was corrected with low concentr

187 rion to determine the membrane properties of intracellular organelles, we found that the endocytic re

188 aintenance of the acidic microenvironment in intracellular organelles, whereas its membrane-bound V(0

189 of vesicles that are formed from preexisting intracellular organelles, which serve as a scaffold for

190 lation of lipids and membranous materials in intracellular organelles, which was hypothesized to be c

191 es are delivered into a phagosome, a complex intracellular organelle with a well-established and impo

192 lso resided in a heterogeneous population of intracellular organelles with discrete dynamic propertie

193 ion in cell biology is how is the routing of intracellular organelles within cells regulated?