ライフサイエンスコーパス: recalcitrance

1 ) lignin, with negligible effects on biomass recalcitrance.

2 iable relationship between R(50) and biochar recalcitrance.

3 sation as its macromolecular composition and recalcitrance.

4 lineC horizontal lineR), controlled biochar recalcitrance.

5 ry networks underlying switchgrass cell wall recalcitrance.

6 unique insight into the nature of cellulose recalcitrance.

7 tructure on both plant fitness and cell wall recalcitrance.

8 (</=180 degrees C), enzymatic, and microbial recalcitrance.

9 ucuronic acid (GlcA) is critical for biomass recalcitrance.

10 velopment and the molecular basis of biomass recalcitrance.

11 erified CNFs exhibiting the highest level of recalcitrance.

12 erogeneity in driving metastasis and therapy recalcitrance.

13 ect plant growth and development nor biomass recalcitrance.

14 uels and chemicals due to their toxicity and recalcitrance.

15 ms have been proposed to be involved in this recalcitrance.

16 ially derived organic carbon but not general recalcitrance.

17 gets to include in efforts to reduce biomass recalcitrance.

18 harides intensifies the problem of cell wall recalcitrance.

19 lity of the cellulases to overcome substrate recalcitrance.

20 charification efficiency caused by cell wall recalcitrance.

21 of how cell wall composition contributes to recalcitrance and affects plant fitness.

22 nts can be rationally engineered for reduced recalcitrance and efficient biofuels production.

23 rder to understand and reduce lignocellulose recalcitrance and enable more cost-effective production

24 Biomass recalcitrance and enzyme cost are key challenges associa

25 e most abundant organic pollutant due to its recalcitrance and extensive use.

26 l implications for overcoming lignocellulose recalcitrance and for the design of advanced wood-based

27 Exactly the recalcitrance and hydrophobicity of lignin put a burden

28 cell walls and recent progress in overcoming recalcitrance and illustrate the potential for natural o

29 anscriptional factors (TFs) that reduce wood recalcitrance and improve saccharification efficiency in

30 as effective targets for reducing cell wall recalcitrance and improving the enzymatic degradation of

31 The EPS biochemistry promotes recalcitrance and informs the design of therapies to red

32 long-standing issues of high tissue culture recalcitrance and low transformation efficiency of a wid

33 ra Preta de Indio'' (TPI), in which chemical recalcitrance and stable carbon with millenary mean resi

34 iotechnological tool for reducing of biomass recalcitrance and therefore, the need for pretreatments.

35 the most difficult compounds with regard to recalcitrance and toxicity.

36 models, shared signals and responses promote recalcitrance, and common features and vulnerabilities o

37 d of emerging concern due to their polarity, recalcitrance, and common use.

38 lusion of the recent paradigm shift from SOM recalcitrance as an 'intrinsic property' to SOM persiste

39 e to its widespread occurrence and perceived recalcitrance at groundwater sites where chlorinated sol

40 ding the mechanisms underlying plant biomass recalcitrance at the molecular level can only be achieve

41 This work will aid the design of low-recalcitrance biomass crops, a requirement for a sustain

42 Engineered low-lignin plants have reduced recalcitrance but often exhibit yield penalties, offsett

43 thermophilic endoglucanase (AcCel5A) reduces recalcitrance by creating voids and other irregularities

44 cin levels on lignin structure and cell wall recalcitrance by phenolic profiling, nuclear magnetic re

45 </= R(50) < 0.70) or Class C (R(50) < 0.50) recalcitrance/carbon sequestration classes.

46 sing tissue-specific promoters to reduce its recalcitrance, change its biophysical properties, and in

47 mental water supplies, and poorly understood recalcitrance collectively necessitate a better understa

48 We asked whether this recalcitrance could be driven by these organisms' evolut

49 (and possible stabilization through acquired recalcitrance) could reduce the opportunity to become ph

50 ssue development, microstructure, origins of recalcitrance, degradation, and solubilization.

51 on, delta(13)C and PAHs signatures, chemical recalcitrance, density and porosity) and carbon sequestr

52 To reduce the recalcitrance engendered by the lignin polymer, the coum

53 , the relationship between its environmental recalcitrance, food security and human health has never

54 dilution acts as an alternative mechanism to recalcitrance for long-term DOC storage.

55 the primary material responsible for biomass recalcitrance, has almost no industrial utility, and can

56 ll wall architecture is key to understanding recalcitrance i.e. identifying features which prevent th

57 ther, these findings suggest that HFO-1234yf recalcitrance in aquifers should be expected; however, H

58 somatic embryogenesis pathway and can break recalcitrance in Arabidopsis (Arabidopsis thaliana) and

59 Overcoming the recalcitrance in lignocellulosic biomass for efficient h

60 escribe an alternative strategy for reducing recalcitrance in switchgrass by manipulating the express

61 cus jostii, depolymerizes lignin and reduces recalcitrance in transgenic tobacco (Nicotiana benthamia

62 ough genetic engineering has reduced biomass recalcitrance, in some cases, these genetic manipulation

63 A new recalcitrance index, the R(50), for assessing biochar qu

64 Antibiotic recalcitrance is challenging to detect and investigate-t

65 terial into the peatland ecosystem as litter recalcitrance is lower.

66 anding of the main factors affecting biomass recalcitrance is needed.

67 s associated with biofilm formation and drug recalcitrance is thought to be biofilm specific.

68 The reason behind this recalcitrance is unknown.

69 or biotic degradation (herein referred to as recalcitrance) is crucial to their successful deployment

70 construction, collectively known as "biomass recalcitrance." It is this property of plants that is la

71 plantation forestry, a field where in vitro recalcitrance, long breeding cycles, and other practical

72 heat because its inherent heterogeneity and recalcitrance make it difficult to selectively valorize.

73 on since its xylem cell walls display highly recalcitrance nature.

74 association with the solid phase, as well as recalcitrance of analytes to anaerobic degradation, resu

75 The recalcitrance of another ecotype occurs at a late step i

76 he rise of multidrug-resistant pathogens and recalcitrance of biofilm infections present a formidable

77 sters have been hypothesized to underlie the recalcitrance of biofilm infections, and strategies to e

78 of antibiotics by affecting MIC but not the recalcitrance of biofilms to killing by bactericidal age

79 er, inactivation of sagS also eliminated the recalcitrance of biofilms to killing by bactericidal ant

80 of antibiotics by affecting the MICs and the recalcitrance of biofilms to killing by microbicidal ant

81 The recalcitrance of biofilms to typical antibiotic and anti

82 the tolerance of clinical infections and the recalcitrance of biofilms.

83 estibility of forage crops and increases the recalcitrance of biofuel crops.

84 The recalcitrance of biomass is affected by the amount of li

85 that it is the principal determinant of the recalcitrance of biomass to enzymatic digestion for biof

86 in costly primarily because of the intrinsic recalcitrance of biomass.

87 The recalcitrance of C. difficile spores to currently availa

88 s to strongly reduced lignin levels, reduced recalcitrance of cell walls to sugar release, but severe

89 stymied by the inherent biocompatibility and recalcitrance of cellulose fibers.

90 mber of different approaches to overcome the recalcitrance of cellulose in plant cell walls.

91 ndings suggest a link between persisters and recalcitrance of CF infection and identify an overlooked

92 Despite their prominent role in the recalcitrance of chronic infections to antibiotic therap

93 may be the main culprit responsible for the recalcitrance of chronic infectious disease to antimicro

94 bute to the persistence of pathogens and the recalcitrance of COM to antibiotic treatment.

95 decisions and risk assessments based on the recalcitrance of DDE in marine and estuarine sediments s

96 One reason for this is the recalcitrance of grapevine to genetic modifications.

97 n and are promising targets to alleviate the recalcitrance of grass lignocelluloses.

98 hlight the context-sensitivity and long-term recalcitrance of implicit evaluations as well as variati

99 biosynthesis has been adopted to reduce the recalcitrance of lignified cell walls to improve biofuel

100 , low oil yields from crop plants as well as recalcitrance of lignocellulose to chemical and enzymati

101 The recalcitrance of many bacterial infections to antibiotic

102 to be, at least partly, responsible for the recalcitrance of many bacterial infections.

103 One major drawback of this technology is the recalcitrance of many plant species/varieties to Agrobac

104 renewable organic carbon (C) source, yet the recalcitrance of organic C in lignocellulosic biomass ca

105 ene activity is responsible for the apparent recalcitrance of organized cells to ectopic Myc, as aden

106 rs may play a similarly critical role in the recalcitrance of other chronic infections.

107 The subsurface recalcitrance of perfluoroalkyl acids (PFAAs) derived fr

108 The recalcitrance of petroleum-based plastics to recycling h

109 Considering the recalcitrance of PFAS molecules in the environment, inad

110 The recalcitrance of plant biomass to convert cellulose into

111 it one of the most important factors in the recalcitrance of plant cell walls against polysaccharide

112 The recalcitrance of prions to inactivation may lead to a pe

113 what is currently known about the antibiotic recalcitrance of Salmonella during infection and highlig

114 s can remain malodorous and dingy due to the recalcitrance of soils.

115 water because of its extensive usage and the recalcitrance of stable metal-EDTA complexes.

116 ing recognition of their contribution to the recalcitrance of TB infections.

117 It is necessary to overcome recalcitrance of the biomass to saccharification (sugar

118 This DOC removal increases the overall DOC recalcitrance of the deep Pacific DOC pool, and is poten

119 on ethanol production because it confers the recalcitrance of the lignocellulosic material.

120 lignocellulose, particularly in relation to recalcitrance of the residues.

121 Thus, theory explains both the recalcitrance of the unsubstituted 1,3,5,7-octatetraene

122 dominated community, in part due to chemical recalcitrance of their non-living biomass, particularly

123 Despite the recalcitrance of these minerals, new biominerals resulte

124 reus biofilm formation and the basis for the recalcitrance of these multicellular structures to antib

125 ctal adenocarcinoma (PDAC) contribute to the recalcitrance of this lethal disease to treatment.

126 d by adherence to traditional varieties, the recalcitrance of this plant to genetic modifications, an

127 However, due to the recalcitrance of TM7 cultivation, causal research to inv

128 Therefore, this apparent reduction in the recalcitrance of transgenic switchgrass has the potentia

129 n bottleneck for using wall materials is the recalcitrance of walls to efficient degradation into fer

130 ion and cold alkaline extraction reduced the recalcitrance of wheat bran, thus improving the total yi

131 The recalcitrance of woody biomass, particularly its lignin

132 ve growth in citizen science combined with a recalcitrance on the part of mainstream science to fully

133 ructure and mechanisms of plant development, recalcitrance, or degradation in situ.

134 cryoadenitis was a risk factor for treatment recalcitrance (P = .02).

135 mic heterogeneity that underlies therapeutic recalcitrance remains understudied, particularly in a sp

136 ce and tolerance, which we collectively term recalcitrance, represent transient phenotypic changes in

137 ng lignin content or composition to overcome recalcitrance, the intrinsic resistance of cell walls to

138 of organic matter from a state of functional recalcitrance to a state of depletion by microbial consu

139 ten debilitating due to their chronicity and recalcitrance to antibiotic therapy.

140 ccus aureus, which is problematic because of recalcitrance to antibiotic therapy.

141 olvement of biofilm-like clusters that cause recalcitrance to antibiotic treatment.

142 ns in cystic fibrosis patients which display recalcitrance to antibiotic treatments, leading to exace

143 lic and transcriptional diversity along with recalcitrance to antibiotics and host immune defenses.

144 e to culture NTHi from middle-ear effusions, recalcitrance to antibiotics and its pathogenic behaviou

145 The slow growth was sufficient to explain recalcitrance to antibiotics treatment.

146 ficant morbidity due to their chronicity and recalcitrance to antibiotics.

147 ic substances (EPS), which enhance bacterial recalcitrance to antimicrobial treatment and mechanical

148 mplexes in surface waters, partly due to its recalcitrance to biodegradation.

149 in each of six lignin biosynthetic enzymes, recalcitrance to both acid pretreatment and enzymatic di

150 l source of valuable aromatic chemicals, its recalcitrance to chemical or biological digestion presen

151 Recalcitrance to chemical synthesis has hindered their u

152 y of bacterial diseases due to their notable recalcitrance to clearance.

153 al of unnecessary genetic elements, and less recalcitrance to complete characterisation.

154 However, due to their recalcitrance to conventional cultivation, TM7's physiol

155 Because of their recalcitrance to cultivation, most previous studies of M

156 otes, but their delicate cell structures and recalcitrance to culturing hinder exploration of marine

157 lignocellulosic energy crops, but cell wall recalcitrance to deconstruction still hinders their wide

158 has raised concern owing to its toxicity and recalcitrance to degradation.

159 ique challenge due to its human toxicity and recalcitrance to degradation.

160 ting plant cell wall components give rise to recalcitrance to digestion; thus, understanding the wall

161 olecular interactions that contribute to its recalcitrance to enzymatic digestion.

162 Lignin causes lignocellulosic biomass recalcitrance to enzymatic hydrolysis.

163 ignin is one of the main factors determining recalcitrance to enzymatic processing of lignocellulosic

164 lties in working with Wnt proteins and their recalcitrance to epitope tagging.

165 components remains unknown because of their recalcitrance to experimental manipulation.

166 n genotype-dependent, are limited by plants' recalcitrance to gene delivery and low regeneration capa

167 entific research into bifidobacteria, though recalcitrance to genetic manipulation and scarcity of mo

168 However, recalcitrance to genetic manipulation barred their use a

169 r pretreatment in overcoming lignocellulosic recalcitrance to improve substrate enzymatic digestibili

170 ed brlR expression, DNA binding by BrlR, and recalcitrance to killing by antimicrobial agents of Delt

171 asagS mutant restored biofilm resistance and recalcitrance to killing by bactericidal antibiotics to

172 BrlR-dependent manner which affects MIC and recalcitrance to killing by microbicidal antimicrobial a

173 ers recapitulated mutant KRAS dependency and recalcitrance to MEK inhibition.

174 Cross-beta's recalcitrance to protein engineering and conspicuous abs

175 ls from lignocellulosic biomass is a plant's recalcitrance to releasing sugars bound in the cell wall

176 Recalcitrance to saccharification is a major limitation

177 s, such as improved digestibility or reduced recalcitrance to saccharification, some of the engineere

178 actors beyond lignin and S/G ratio influence recalcitrance to sugar release and point to a critical n

179 Continuing recalcitrance to therapy cements pancreatic cancer (PC)

180 mark of small cell lung cancer (SCLC) is its recalcitrance to therapy.

181 e molecular basis of this community-specific recalcitrance to tobramycin for the P. aeruginosa lasR m

182 ion of multiple nitrosamines, their relative recalcitrance to transformation, and potential for abiot

183 bility to coexist, their virulence and their recalcitrance to treatment.

184 In several ecotypes, recalcitrance to tumorigenesis results from decreased bi

185 applications, widespread contamination, and recalcitrance toward abiotic dechlorination, 1,2-DCA rem

186 Cell wall recalcitrance varies among plant species and even phenot

187 he molecular genetic basis of lignocellulose recalcitrance, we have screened a mutagenized population

188 s one of the key factors influencing biomass recalcitrance which is a key technical and economic barr

189 Important crop cultivars show regenerative recalcitrance, which is a major obstacle for the applica

190 oper time, have an impact on plant cell wall recalcitrance without negative effects on overall plant

191 ngineer plants with highly reduced cell-wall recalcitrance without negatively impacting growth.