ライフサイエンスコーパス: transfer system

1 c foamy viruses (FV) are an alternative gene-transfer system.

2 sisting antibodies to components of the gene transfer system.

3 eport the discovery of a new class of energy-transfer system.

4 obtained for VirB4, a second ATPase of this transfer system.

5 sence of a genetically tractable anterograde transfer system.

6 in)-infected cells, using an adenovirus gene transfer system.

7 une activity were assessed using an adoptive transfer system.

8 matory forms of antigen in a T cell-adoptive transfer system.

9 wo independent replicons to produce a binary transfer system.

10 nhancing the efficiency of this in vivo gene transfer system.

11 of RP4 and to VirD4 of the Ti plasmid T-DNA transfer system.

12 ockout (FVIII-KO) mice using a nonviral gene-transfer system.

13 transfer system and a related single proton transfer system.

14 er to arrive at an optimal, phage-based gene transfer system.

15 g a standardized protocol with an integrated transfer system.

16 nique nature of the M. smegmatis chromosomal transfer system.

17 ere used to inhibit arthritis in an adoptive transfer system.

18 phore-bridge-electrode nonadiabatic electron transfer system.

19 coupled to chicken gamma-globulin, in a cell transfer system.

20 s genome with a genetic marker rescue/marker transfer system.

21 he incorporation of emissive AuNPs in energy transfer systems.

22 share extensive homology with many conjugal transfer systems.

23 been hindered by the lack of effective gene transfer systems.

24 able of plugging pipets and automated liquid-transfer systems.

25 ming the lentivirus of choice for human gene transfer systems.

26 retion apparatus similar to type IV conjugal transfer systems.

27 ivo yeast two-hybrid and fluorescence energy transfer systems.

28 t gene therapy protocols use retroviral gene transfer systems.

29 mids of Agrobacterium tumefaciens encode two transfer systems.

30 the construction of supramolecular electron transfer systems.

31 t a model for the evolution of this group of transfer systems.

32 different from that of prototypical plasmid transfer systems.

33 are conveniently modeled by the K/BxN serum transfer system, a robust model well suited for genetic

34 robacterium tumefaciens transfer DNA (T-DNA) transfer system, a type IV secretion pathway required fo

35 In an OVA-TCR class I-restricted adoptive transfer system, administration of anti-Ox40 strongly en

36 asured experimentally for this double proton transfer system and a related single proton transfer sys

37 Using an adoptive transfer system and an erythroid-specific knockout syste

38 ued work on development of a chlamydial gene transfer system and application of genomic approaches to

39 vo endothelial cell-specific retroviral gene transfer system and found that a single Kaposi's sarcoma

40 ng type II cell line using the SB-based gene transfer system and found that hIDO-overexpressing lung

41 Using an adoptive transfer system and plasticity-prone Mir146a(-/-) Tregs,

42 nd compare the characteristics of these gene transfer systems and conclude that, although significant

43 4 vs CD8 cells using TCR transgenic adoptive transfer systems and soluble gp96-peptide complexes.

44 nt of versatile cloning vectors, robust gene transfer systems and transposable elements.

45 pecifically, an integrative approach of gene transfer, systems and brain slice electrophysiology, beh

46 nce similarity to genes encoding conjugative transfer systems, and it is believed that they are respo

47 In an OVA-TCR class II-restricted adoptive transfer system, anti-Ox40 treatment greatly enhanced th

48 e constants for the single and double proton transfer systems are in agreement with the experimental

49 Most transfer systems are plasmid-encoded and require protein

50 sion, and AAV vectors, similar to other gene transfer systems, are being evaluated for delivery of re

51 ons of the global soil-vegetation-atmosphere transfer system as advances in plant physiological and h

52 This transfer system, assembled from the products of the virB

53 avoid this concern, we have constructed gene transfer systems based on a nonprimate lentivirus, bovin

54 rate constant is lower for the double proton transfer system because of the smaller overlap integral

55 adrenodoxin P450 and photosynthetic electron-transfer systems but is different from the kinetic contr

56 FMN serves as a redox centre in the electron-transferring system by mediating the electron transfer f

57 In an in vitro minus-strand transfer system consisting of a (-) SSDNA mimic and a TA

58 cription of excited state dynamics in energy transfer systems constitutes a theoretical and experimen

59 t that the HSV-tk/GCV metabolic suicide gene transfer system could serve as an adjuvant of the presen

60 eponema, Salmonella, and Bacillus phosphoryl-transfer systems could be demonstrated.

61 The tissue culture and gene transfer systems currently employed to produce these tra

62 h, suggested the use of alternative electron transfer systems dependent on growth modality.

63 The autologous adoptive transfer system described in this study reveals novel fe

64 of inflammatory arthritis in the K/BxN serum transfer system, either preventively or therapeutically.

65 Two DNA transfer systems encoded by the tumor-inducing (Ti) plas

66 in traG(RP4) with defined effects on the RP4 transfer system exhibited similar phenotypes for Ti plas

67 tection from arthritis using the K/BxN serum-transfer system, focused on the effector phase of inflam

68 e there is no reliable laboratory-based gene transfer system for C. trachomatis, in vitro generation

69 A chiral anion phase-transfer system for enantioselective halogenation is des

70 in) reductase (Fpr) can serve as an electron-transfer system for microsomal cytochrome P450s.

71 barrier to a fully successful nonviral gene transfer system for the liver.

72 nodeficiency virus type 1 (HIV-1)-based gene transfer systems for delivery of genes into nondividing

73 ecent advances in the development of genetic transfer systems for the Archaea provide the first glimp

74 A peptide-based electron-transfer system has been designed in which the specific

75 This novel gene transfer system has the potential to confer long-term ep

76 A number of gene transfer systems have been designed that enable the gene

77 trees closer to reality, and efficient gene transfer systems have been developed for a number of con

78 A novel and functional conjugative transfer system identified in O119:H2 enteropathogenic E

79 component of the energy-conserving electron transfer system in methanogens.

80 describe novel aspects of a chromosomal DNA transfer system in Mycobacterium smegmatis.

81 study, we took advantage of a dual-adoptive transfer system in the mouse to simultaneously follow th

82 nvasion initiation site using a minus strand transfer system in vitro, containing the 97-nucleotide f

83 ly, the increased interest in utilizing this transfer system in vivo has posed new problems for heter

84 duced into the eye, we have used an adoptive transfer system in which a limiting number of OVA peptid

85 theria toxin, with a TCR-transgenic adoptive transfer system in which either naive or Th1 effector CD

86 immunogenic APC function we used an adoptive transfer system in which naive TCR transgenic hemaggluti

87 address this issue, we have used an adoptive transfer system in which naive TCR transgenic hemaggluti

88 Similar results were obtained in an adoptive transfer system in which TCR transgenic T cells were tra

89 amental challenge to create a wireless power transfer system in which the transfer efficiency is robu

90 netic studies owing to the discovery of gene-transfer systems in these genera.

91 embrane subunits of the A. tumefaciens T-DNA transfer system, in E. coli and homotypic complexes of V

92 We have therefore used a double-adoptive transfer system, in which all of the above events can be

93 more complex anaerobic and aerobic electron transfer systems indicates that this is a versatile fold

94 Herein, we developed a unique cell transfer system involving the adoptive transfer of a gen

95 harmonics generation in the extended charge-transfer system is augmented by the effective electronic

96 The transfer system is chromosomally encoded and requires re

97 By contrast, the Mycobacterium smegmatis DNA transfer system is chromosomally encoded.

98 This transfer system is most like conjugal DNA transfer in th

99 omponent of the ascorbate-dependent electron transfer system is necessary to detoxify H(2)O(2), which

100 A multichannel pipet or automated liquid-transfer system is used to transfer sample aliquots with

101 Development of safe and effective gene transfer systems is critical to the success of gene ther

102 ne of the most efficient conjugative plasmid transfer systems known in bacteria.

103 shaping devices, nonradiative wireless power-transfer systems, microscopy, and lithography.

104 Using an adoptive transfer system, migration of nonlymphoid memory cells w

105 An electron transfer system of NADPH, spinach NADPH-ferredoxin oxido

106 e, thus accounting for the activation of the transfer system of this plasmid by the two opine types.

107 trate interactions exist among the three DNA transfer systems of Agrobacterium.

108 oded by traA share lineage with those of the transfer systems of RSF1010 and plasmid F, while genes o

109 d VirD4 from the conjugal transfer and T-DNA transfer systems of Ti plasmids, are believed to dictate

110 Using a DO11.10 T cell adoptive transfer system, OVA-specific T cell IL-4 production and

111 ms with a well characterized horizontal gene transfer system, possessing a suite of oncogenes that, w

112 Two poised one-electron transfer systems (potassium ferricyanide/ferrocyanide an

113 h the DM13 domain comprises a novel electron-transfer system potentially involved in oxidative modifi

114 Taken together, this unique eosinophil transfer system provides an unprecedented opportunity to

115 r sugar branches of the bacterial phosphoryl transfer system (PTS).

116 ilution rate) and methanogen on the electron transfer systems, ratios of interspecies electron carrie

117 not have obvious orthologs in other type IV transfer systems, since these determinants could govern

118 ently, several primate lentivirus-based gene transfer systems, such as those based on human and simia

119 ic T cells and established a neonatal T cell transfer system suitable for these investigations.

120 Similarly, in a cell transfer system, T cell responses to OVA measured in viv

121 Gene transfer systems targeting various receptors have been d

122 y (SB) transposon is a natural nonviral gene transfer system that can mediate long-term transgene exp

123 Using an adoptive transfer system that enables tracking of OVA-specific CD

124 pears to constitute components of a conjugal transfer system that has been adopted to prevent phagoso

125 The use of a tape transfer system that obviates the need to wet paraffin s

126 ferred by the Qmo-MQ-Qrc loop as an electron transfer system that permits higher lactate oxidation ra

127 We present a high-vacuum cryo-transfer system that streamlines the entire handling of

128 ystems are highly promiscuous macromolecular transfer systems that impact human health significantly.

129 assembling components in electron and energy transfer systems that utilize DNA as a scaffold and/or p

130 We demonstrate, using an adoptive transfer system, that the ability of the central nervous

131 In the mammalian mitochondrial electron transfer system, the majority of electrons enter at comp

132 interrelated cellular high energy phosphoryl transfer systems through which the majority of newly gen

133 udy, we used a TCR-transgenic mouse adoptive transfer system to assess whether CY plus IL-2 treatment

134 e WldS phenotype, we used an adenoviral gene transfer system to deliver the WldS to rat DRG neurons.

135 ent study, we used a TCR transgenic adoptive transfer system to demonstrate that in a dose-dependent

136 ll receptor (TCR) antagonist and an adoptive transfer system to examine the influence of TCR signal q

137 We used a TCR-transgenic adoptive transfer system to further characterize the Ag and adjuv

138 of memory CD4+ T cells, we used an adoptive transfer system to generate a stable population of Ag-sp

139 Using an adoptive transfer system to incrementally raise the precursor fre

140 Using a murine adoptive transfer system to probe monocyte homing and differentia

141 In this study, we used an adoptive transfer system to re-examine the role of CD40 in the pr

142 We used the DO11.10 TCR transgenic adoptive transfer system to show that cells of similar phenotype

143 beta amyloidosis, we used an adenoviral gene transfer system to study the effects of human (h)COX-1 a

144 We employed an adoptive transfer system to understand this disease and show that

145 Thus, using a dynamic in vivo-transfer system, to our knowledge our study is the first

146 esidues from the peptide, utilizing a charge-transfer system unprecedented in MHC molecules, allows p

147 f these cells, we have developed an adoptive transfer system using in vitro-activated T cells express

148 oming, we constructed a novel and safer gene transfer system using modified SIN-based LV gene transfe

149 rane-associated ascorbate-dependent electron transfer system, using ascorbate peroxidase and monodehy

150 In this work, a minimal and inducible transfer system was constructed and used in transfer and

151 ppresses immune complex disease, an adoptive transfer system was developed in a model of immune throm

152 A novel transfer system was developed to identify neutrophil pro

153 Herein, an antigen-presenting cell (APC) transfer system was devised and applied to experimental

154 ponsible for GVHD in this model, an adoptive transfer system was used in which the function and kinet

155 Salmonella-specific TCR transgenic adoptive transfer system was used to further define the involveme

156 A novel adoptive transfer system was used to track the fate of naive Salm

157 A transgenic TCR adoptive transfer system was used to visualize Ag-specific T cell

158 Using an adoptive transfer system we assessed the role of Th1 and Th2 cell

159 Using an adoptive transfer system, we assessed the roles of Th1, Th2, and

160 In this study, using an adoptive transfer system, we compare the efficacy of two routes o

161 no-associated virus serotype 9-mediated gene transfer system, we confirmed in whole animal that GJA1-

162 poson mutagenesis with Tn3HoHo1 and a binary transfer system, we delimited this second region, called

163 Using a competitive adoptive transfer system, we demonstrate that selective loss of T

164 ar queuing network or, alternatively, a mass transfer system, we derive a plethora of results concern

165 Furthermore, using a retroviral gene transfer system, we find that stable expression of LRP6

166 By using an in vivo transfer system, we show that CD11c(+) CD11b(+) DCs from

167 n contrast, using a newly developed adoptive transfer system, we show that naive OVA-specific DO11 CD

168 t and BM chimaeras as well as in vivo T cell transfer systems, we demonstrate that in vivo regulation

169 comparing this vector to other Ad-based gene transfer systems, we have illustrated that the features

170 me to function as an effective self-electron transfer system where the donor and acceptor proteins ar

171 e take advantage of the combinatorial biotin transfer system, where polysome-associated mRNAs are sel

172 Here we report a unique energy-transfer system, where the sensitized acceptor emission

173 TNF show compromised effector function in a transfer system, whereas those treated neonatally with a

174 ate potential mechanisms we used an adoptive transfer system wherein ova-specific T cells were infuse

175 iviral vector is a simple and effective gene transfer system which shows potential for gene therapy o

176 alcium/calmodulin modulation of the electron transfer system, while the inducible isoform binds calmo

177 Using an adoptive transfer system with IL-2- or IL-2R-deficient TCR transg

178 Using an adoptive transfer system with low numbers of trackable nontransge

179 Using an adoptive transfer system with OT-II TCR transgenic CD4 T cells, w

180 ous anemia virus (using the lentivector gene transfer system) with the glycoprotein of the Evelyn-Rok