ライフサイエンスコーパス: production system

1 th the previously described baculovirus/rAAV production system.

2 e agronomic and economic requirements of the production system.

3 cells in the IL-4- and anti-CD40-induced IgE production system.

4 should be considered in designing an optimal production system.

5 tivations and the deactivation of the speech production system.

6 abit of B. braunii makes it impractical as a production system.

7 critical for the sustainability of the food production system.

8 d and explained as part of the mature speech production system.

9 of forwarding modeling within a hierarchical production system.

10 ion per year) for a small size potable water production system.

11 itional traits of retail milk from different production systems.

12 d is the paradigm for engineering solar fuel-production systems.

13 ive environmental impacts of pastoral animal production systems.

14 etory differences across recombinant protein production systems.

15 nal shifts in health costs dependent on fuel production systems.

16 inexpensive subunit vaccines by using plant production systems.

17 ctured and concerns over the current vaccine production systems.

18 s mechanisms and guide the design of protein production systems.

19 in meat compared with traditional extensive production systems.

20 c chemicals and that constrain the choice of production systems.

21 tive theories target the auditory and speech production systems.

22 ing light-harvesters for photocatalytic fuel production systems.

23 een integrated into diverse environments and production systems.

24 erse geographical regions, environments, and production systems.

25 mmended for quality assurance and control in production systems.

26 new bioengineered microbial and plant-based production systems.

27 rs originating from organic and conventional production systems.

28 oor feeding in both organic and conventional production systems.

29 high-resolution representation of livestock production systems.

30 e stress tolerance and disease management in production systems.

31 s and rainwater harvested and then reused in production systems.

32 h is crucial for developing sustainable crop production systems.

33 ional extensive nomadic to intense livestock-production systems.

34 se gas emissions for 28 regions, 8 livestock production systems, 4 animal species (cattle, small rumi

35 Differences in the virus production system altered the binding efficiencies of so

36 diment samples from a high-intensity catfish production system and its original water reservoir.

37 n intensities, with vast differences between production systems and animal products; (ii) the importa

38 oorganisms offer many advantages as low-cost production systems and effective delivery systems for va

39 ature and water deficit in both agricultural production systems and terrestrial ecosystems.

40 Given rapid changes in livestock production systems and their potential health implicatio

41 es important practical implications for food-production systems and these concepts are translatable t

42 its epidemiological origins (country, swine production system, and host species).

43 eutical companies, development of hydroponic production systems, and evaluation by regulatory agencie

44 Pigs reared in intensive production systems are continuously exposed to ammonia r

45 Crop-livestock production systems are the largest cause of human altera

46 iverine nitrate-N load limits on the biofuel production system as a whole, including land use change

47 stablished a broadly applicable HIV-1 trimer production system as well as generating new insights int

48 Considering local production systems as a more sustainable alternative, th

49 ara beef from four age groups from different production systems, as well as to extrapolate the effect

50 In this paper, a bioenergy production system based on heathland biomass is investig

51 for tomatoes grown using the pure hydroponic production system based on the recirculation of nutrient

52 but have not been developed for agricultural production systems based on drought-tolerant plants that

53 al cow, industry-scale adoption, and overall production system basis.

54 Across the production systems, BIO apples had consistently higher l

55 The search for inexpensive production systems capable of producing large quantities

56 et change in the evapo(transpi)ration of the production system compared to the natural reference situ

57 The production system contains a recycling loop leading to n

58 The availability of this production system demonstrated the feasibility of produc

59 It is extremely important to beef production systems due to its impact on the allocation o

60 compare the amount of resources embodied in production systems, Emergy suffers from its vague accoun

61 sorbers for integrated solar-driven hydrogen production systems enabling significant improvements in

62 ere, we studied whether T cell-mediated ET-1 production system exists and operates independent of the

63 efense strongly suggests that an active H2O2 production system exists to supply appropriate substrate

64 ffer potential alternatives, and plant-based production systems facilitate the inexpensive bulking of

65 developed a plant/tobacco mosaic virus-based production system following the 'full virus vector strat

66 purpose here was to establish a plant-based production system for a chimeric mouse-human version of

67 illustrating the versatility of plants as a production system for antibodies.

68 noids in tomato fruit, offering an effective production system for bioactives and other high value in

69 it this specificity, we created a TR5 vector production system for Cap1 to Cap5.

70 This rapid production system for generating tumor-specific protein

71 e have successfully established an efficient production system for our recombinant PTTS in large scal

72 To that end we develop a peer production system for recording and organizing variant e

73 olecular pharming in cereals can be a viable production system for such high-value pharmaceutical mac

74 with the genotype, stage of production, and production system from which the isolate originated, whi

75 imal interactions in small-scale food animal production systems, generally practiced in and around th

76 A hierarchical organization of the song production system has recently been described.

77 the availability of information on livestock production systems has increased substantially over the

78 sed use of intensive, cereal-based livestock production systems has resulted in a lower proportion of

79 are enzymatically linked in a simple E. coli production system, has broad applicability for use in va

80 urce assessments of microalgae-based biofuel production systems have relied on growth models extrapol

81 These production systems have the capacity to produce very lar

82 However, this production system imposes plant-back restrictions on rot

83 eplaced with Can by using the single-protein production system in Escherichia coli.

84 ystem exists and operates independent of the production system in vascular endothelial cells.

85 relied upon heavily in U.S. high-value crop production systems in a world without methyl bromide.

86 transitions toward more productive livestock production systems in combination with climate policies

87 ssette through the construction of diterpene production systems in E. coli and genetic manipulation i

88 pen floor samples collected from four swine production systems in Illinois.

89 farmers' needs across the great diversity of production systems in Mexico.

90 s region is not irrigated, rendering soybean production systems in the area highly sensitive to in-se

91 Our results focus attention on T-cell production systems in the pathogenesis of HIV-1 disease

92 Most crop production systems in the United States are characterize

93 f organic, conventional and integrated apple production systems in Washington State from 1994 to 1999

94 potentially useful for tracing the whole ham production system, including the processing procedure.

95 key requirement for a sustainable solar fuel production system is a low-cost, stable and non-toxic li

96 An ultimate goal for any protein production system is to express only the protein of inte

97 t of soilborne pests in some high-value crop production systems is preplant fumigation with mixtures

98 The agronomic production systems may affect the levels of food metabol

99 Sustainable intensification of livestock production systems might become a key climate mitigation

100 ack of developmental plasticity in the vocal production system, neuroscientists have largely ignored

101 An efficient production system now exists for recombinant human acid

102 mmalian cell culture, which is currently the production system of choice for glycoproteins, has sever

103 ed in four locations representing major food production systems of densely populated regions of South

104 The effect of three production systems of Iberian pigs namely Montanera (fre

105 aim of ascertaining the effect of origin and production system on 11 isotopic ratios.

106 d to investigate the effect of the agronomic production system on the metabolite composition of carro

107 atch derives from the fact that in intensive production systems, only a limited fraction of all cow p

108 d over five months to examine the effects of production system (organic vs. free range vs. indoor), s

109 Knowledge of production-system performance is largely based on observ

110 entation when assessing new technologies and production-system performance, especially as related to

111 communities that are present in aquaculture production systems play significant roles in degrading o

112 We show that arecanut palm (Areca catechu) production systems retain 90% of the bird species associ

113 The inducible anthocyanin-production system reveals a range of phenomena that acco

114 Alternative management of livestock production systems shows that combinations of intensific

115 ory of N and P budgets in livestock and crop production systems shows that in the beginning of the 20

116 The aquaculture production system significantly changed the structure of

117 ively calibrated and tested the Agricultural Production Systems sIMulator (APSIM) using 6 years of co

118 thms into a standard model, the Agricultural Production Systems sIMulator (APSIM), and running an ens

119 yields are simulated using the Agricultural Production Systems Simulator (APSIM), driven by high-res

120 a process-based crop model, the Agricultural Production Systems sIMulator (APSIM), to quantify the co

121 We also modify APSIM (the Agricultural Production Systems Simulator) to incorporate extreme hea

122 The agricultural production systems simulator, APSIM-Maize model, was use

123 e paradigm for engineering direct solar fuel production systems since it is driven by solar light and

124 ancing the commercial success of plant-based production systems since product yields have a major inf

125 es and trees) and a wider range of livestock-production systems than previous studies, we investigate

126 Other aspects of the livestock production system that can be modified are discussed.

127 To provide a convenient vector production system that circumvents the generation of rep

128 e, produced via the Saccharomyces cerevisiae production system that is also used for their quadrivale

129 otransformation is an attractive alternative production system that would circumvent the expensive pr

130 Among the many plant-based production systems that are being tested for molecular f

131 tree crop, and indicate that effective food production systems that contributed significant dietary

132 the potential to significantly impact maize production systems that experience drought.

133 Although the diversification of global food production systems that includes aquaculture offers prom

134 in recent years largely because of intensive production systems, the expansion of conservation agricu

135 s probably as old as the food processing and production systems themselves.

136 Effective production systems therefore require the integrated cons

137 ded are case studies of U.S. high-value crop production systems to demonstrate how nematode managemen

138 However, the potential of such production systems to facilitate elucidation of plant bi

139 rrent study we have used plant-based vaccine production systems to generate a dengue subunit vaccine

140 ange now present challenges for agricultural production systems to increase food, feed, forage, fiber

141 are transforming yeast platforms from simple production systems to key technological assets in the di

142 eld data on CH4 and N2 O emissions from rice production systems to test the hypothesis that in respon

143 The new production system uses a plasmid construct which contain

144 agnitude of each effect for a temperate rice production system using a large data set covering multip

145 However, livestock production systems vary substantially, making the implem

146 To deliver P108 into tumors, a novel peptide production system was applied for expression and secreti

147 Moreover, the stability of this production system was ascertained by up to 7 days of con

148 nciples model of the cradle-to-gate ethylene production system was developed and applied.

149 t the 'isotopic fingerprint' of a particular production system was maintained over time, and that it

150 The wider environmental impact of production systems was assessed via acidification (AP),

151 In this vector production system, we used an HBoV1 packaging plasmid, p

152 The production systems were characterized by six masses, whi

153 positions of egg components from 7 different production systems were measured.

154 evidence of microevolution locally in swine production systems, while its clustering patterns showed

155 Combining the features of the pCL retroviral production system with the highly visible green fluoresc

156 t on increasing TN, which calls for new food production systems with better N-recycling, such as coop

157 n particular for large uncertainties and for production systems with nonlinearities, for example, fro

158 We evaluated the most common timber production systems worldwide in terms of their impact on