ライフサイエンスコーパス: antibacterial activity

1 fluids did not affect short-term release or antibacterial activity.

2 ver the molecular process that underlies its antibacterial activity.

3 anoparticle (NP) system based on silver-free antibacterial activity.

4 membranes and delivery into target cells for antibacterial activity.

5 phenylmethane dye with potent antifungal and antibacterial activity.

6 or decreasing the ring size deteriorated the antibacterial activity.

7 that provide intrinsic and highly effective antibacterial activity.

8 to hydroxylamine intermediate for exhibiting antibacterial activity.

9 clic guanidine library that displayed strong antibacterial activity.

10 gyrase and topoisomerase IV inhibitors with antibacterial activity.

11 . coli indicated that some compounds exhibit antibacterial activity.

12 bitors as lead compounds with broad-spectrum antibacterial activity.

13 t, more often than not, precluded whole cell antibacterial activity.

14 mplement concepts to improve the spectrum of antibacterial activity.

15 emolytic activity with minimal impact on the antibacterial activity.

16 ic amino acid drastically improves selective antibacterial activity.

17 upport wound healing are typically devoid of antibacterial activity.

18 ry activity for bacterial ribosomes and show antibacterial activity.

19 renylated phenolics found in pools with high antibacterial activity.

20 op translation complexes have broad-spectrum antibacterial activity.

21 enhanced proliferation of A549 cells and had antibacterial activity.

22 s arenimycins C (2) and D (3) display potent antibacterial activity.

23 periplasm of prokaryotic cells and exerts an antibacterial activity.

24 non-antibiotic compounds with broad-spectrum antibacterial activity.

25 in the phenolic skeleton also influenced the antibacterial activity.

26 t Mtb-FtsZ is the molecular target for their antibacterial activity.

27 enzyme inhibition, and leading to measurable antibacterial activity.

28 was responsible for the selective and potent antibacterial activity.

29 aimed at increasing both enzyme potency and antibacterial activity.

30 the natural products which exhibit improved antibacterial activity.

31 development candidates (2, 3) and improving antibacterial activity.

32 farnesol, which is commonly known to exhibit antibacterial activity.

33 omplex lanthipeptide that has broad spectrum antibacterial activity.

34 t the effects of MW thermal heating on honey antibacterial activity.

35 mpounds significantly contribute towards its antibacterial activity.

36 ific ligand combinations affects in vivo SCN antibacterial activity.

37 gyrase and topoisomerase IV inhibitors with antibacterial activity.

38 ma-AApeptide (AA1), which has broad-spectrum antibacterial activities.

39 tective, antidiabetic, anti-inflammatory and antibacterial activities.

40 ivileged cells showing innate phagocytic and antibacterial activities.

41 a mechanism by which EPEC evades IFN-induced antibacterial activities.

42 derivatives were pharmacophoric elements for antibacterial activities.

43 exes such as gallium citrate have shown good antibacterial activities.

44 e ring substituents on antiproliferative and antibacterial activities.

45 es by actively evading macrophage-associated antibacterial activities.

46 porated into various biomaterials possessing antibacterial activities.

47 rtunity to develop derivatives with improved antibacterial activities.

48 ssess among other properties antioxidant and antibacterial activities.

49 in and exhibited significant antioxidant and antibacterial activities.

50 important structural features necessary for antibacterial activity (a nitrogenous and a lipophilic c

51 erestingly, OVAX, unlike ovalbumin, displays antibacterial activities against both Listeria monocytog

52 e find the TA-nHP66 scaffolds exhibit potent antibacterial activities against E. coli and S. aureus,

53 DNA gyrase and topoisomerase IV, displaying antibacterial activities against Gram-positive and Gram-

54 All extracts exhibited antibacterial activities against gram-positive bacteria,

55 of the synthesized compounds exhibited good antibacterial activities against Gram-positive pathogens

56 6-substituted analogues, demonstrate potent antibacterial activities against MRSA, MRSE and VRE (MIC

57 These fluorocyclines possess potent antibacterial activities against multidrug resistant (MD

58 Evaluation of antibacterial activity against a panel of Gram-positive

59 We demonstrate that lactocillin has potent antibacterial activity against a range of Gram-positive

60 was designed, synthesized, and evaluated for antibacterial activity against a wide range of clinicall

61 e reported previously as a new scaffold with antibacterial activity against an array of multidrug-res

62 onjugated monobactam analogues with in vitro antibacterial activity against clinically relevant Gram-

63 bacterial RNA polymerase (RNAP) and exhibits antibacterial activity against drug-resistant bacterial

64 btained by hydrodistillation showed stronger antibacterial activity against E. coli, Salmonella and K

65 -a]pyrimidines that had good narrow-spectrum antibacterial activity against E. faecium and exhibited

66 lin-binding proteins, resulting in intrinsic antibacterial activity against Enterobacteriaceae and re

67 An in vivo study also revealed the antibacterial activity against enterococci-infected Wist

68 SCN ligands were sufficient to activate SCN antibacterial activity against Escherichia coli In the p

69 ophore-modified antibiotics provide enhanced antibacterial activity against Escherichia coli strains,

70 Compound 1 also showed broad spectrum antibacterial activity against Escherichia coli, Mycobac

71 The active biofilms exhibited strong antibacterial activity against food-borne pathogens with

72 lgal extracts or cyanobacterial isolates had antibacterial activity against Gram negative bacteria (E

73 Some of the compounds possessed modest antibacterial activity against Gram positive bacterial s

74 somerase IV inhibitors and display excellent antibacterial activity against Gram positive pathogens,

75 ee cationic charge centres can elicit potent antibacterial activity against Gram-positive and Gram-ne

76 ion, the honey from B. pilosa showed greater antibacterial activity against gram-positive and gram-ne

77 Bacaucin shows broad antibacterial activity against Gram-positive bacteria, b

78 Only some compounds possessed weak antibacterial activity against Gram-positive bacteria.

79 hyperlipidemic drug exhibited broad-spectrum antibacterial activity against important Gram-positive (

80 l-sn-glycero-3-phosphocholine exhibited good antibacterial activity against Klebsiella planticola wit

81 isoflavonoids and stilbenoids showed potent antibacterial activity against Listeria monocytogenes an

82 Pools showed high antibacterial activity against Listeria monocytogenes: c

83 films while 11 and 12 demonstrated excellent antibacterial activity against M. tuberculosis (MIC = 3.

84 Additional testing revealed antibacterial activity against methicillin-resistant Sta

85 Antibacterial activity against model Gram negative and G

86 ng power and lipid peroxidation inhibition), antibacterial activity against MRSA and MSSA and cytotox

87 red ring-opened heptapeptide, shows specific antibacterial activity against MRSA by a membrane-disrup

88 In vitro, both peptides exhibited good antibacterial activity against MRSA, vancomycin-resistan

89 signed, synthesized, and evaluated for their antibacterial activity against multidrug resistant (MDR)

90 ural lipodepsipeptide antibiotic with potent antibacterial activity against multiresistant Gram-posit

91 ant activity was evaluated by DPPH assay and antibacterial activity against Pseudomonas aeruginosa an

92 One compound demonstrated the best antibacterial activity against Pseudomonas aeruginosa bo

93 /RT inhibitors are characterized by a potent antibacterial activity against S. aureus and in cellulo

94 chemokines with OPN strongly inhibited their antibacterial activity against S. pneumoniae but did not

95 ic vancomycin analogues possessing excellent antibacterial activity against several drug-resistant st

96 -desmethylrifampicin, which showed excellent antibacterial activity against several rifampicin-resist

97 HP 13 displayed potent antibacterial activity against slow-growing M. tuberculo

98 At the same time this extract showed strong antibacterial activity against staphylococci, including

99 The compounds exhibited antibacterial activity against Staphylococcus aureus , i

100 protein and the subsequent demonstration of antibacterial activity against Staphylococcus aureus.

101 1 mo), surface roughness, in vitro wear, and antibacterial activity against Streptococcus mutans and

102 library to screen 37 different libraries for antibacterial activity against the ESKAPE pathogens.

103 ad remarkably selective and extremely potent antibacterial activity against the Gram-negative pathoge

104 Although CRAMP exhibits in vitro antibacterial activity against UPEC, it may enhance UPEC

105 ules were developed that displayed excellent antibacterial activity against various wild-type bacteri

106 a facile methodology not only displayed good antibacterial activity against wild-type bacteria but al

107 The two fully processed PTM analogues showed antibacterial activities, albeit lower than that of PTM,

108 However, compounds with good antibacterial activities also showed cytotoxicity agains

109 tly inhibited gram negative bacteria and the antibacterial activity also increased significantly agai

110 oterpenoid natural products with significant antibacterial activities and are produced by the marine

111 osan and its derivatives showed also similar antibacterial activities and more precisely bactericidal

112 ffiliated bacterial flora had a wide-ranging antibacterial activities and potential natural product d

113 hannel block while retaining potent in vitro antibacterial activity and acceptable frequency for resi

114 modified PRO membranes possess much enhanced antibacterial activity and antibiofouling propensity.

115 These compounds possess antibacterial activity and are produced by fruit trees a

116 l, cationic AMPs, which offer broad-spectrum antibacterial activity and better therapeutic potential

117 added as a second binary element to enhance antibacterial activity and biocompatibility.

118 cin is a natural product with broad-spectrum antibacterial activity and efficacy in animal models of

119 e examined, providing copolymers with potent antibacterial activity and excellent prokaryote vs eukar

120 gyrase and topoisomerase IV) display potent antibacterial activity and exhibit no target-mediated cr

121 ecome such drugs because they display potent antibacterial activity and exhibit no target-mediated cr

122 ed with compounds that possessed both potent antibacterial activity and high aqueous solubility.

123 absorbance, pH, color, antioxidant capacity, antibacterial activity and kinematic viscosity.

124 yrase-topoisomerase IV inhibitor, with broad antibacterial activity and low propensity for spontaneou

125 Improved antibacterial activity and lower in vivo clearances were

126 spectroscopy as a predictive tool for honey antibacterial activity and methylglyoxal content was ass

127 gning polar compounds was not sufficient for antibacterial activity and pointed to a lack of understa

128 Overall, the Ze-GA fibre mats demonstrated antibacterial activity and properties consistent with th

129 nearization of the peptide sequence improves antibacterial activity and reduces hemolysis of mouse bl

130 Copper, long known for its antibacterial activity and relatively low cost, is an at

131 trolled by host peptides, many of which have antibacterial activity and require the bacterial functio

132 t the properties of the linker are vital for antibacterial activity and show how inhibiting two diffe

133 n is studied, indicating a broad spectrum of antibacterial activity and showing selective killing abi

134 e demonstrate that bile salts increase SPI-6 antibacterial activity and that S Typhimurium kills comm

135 in-vitro and in-vivo evidence of eosinophil antibacterial activity and the biology of eosinophils fo

136 toxicity of HNP-1, but partially retains its antibacterial activity and thus may have clinical applic

137 ion, but its replacement resulted in loss of antibacterial activity and/or oral exposure due to poor

138 Herein, the antioxidant and antibacterial activities, and phenolic compounds of the

139 tibacterioribosomal activity correlates with antibacterial activity, and the ribosomally more active

140 HRG has antibacterial activity, and when challenged by HRG, sHIP

141 a that compounds with strong antioxidant and antibacterial activities are also water-soluble.

142 s suggest that the levels of antioxidant and antibacterial activities are attributable to the total p

143 fied through this strategy, exhibits similar antibacterial activity as that of 3 and did not label li

144 h a 7-carbon linker displayed broad-spectrum antibacterial activity as well as a decreased susceptibi

145 position exhibit substantial effects on the antibacterial activity as well.

146 theranostic nanodrugs that display enhanced antibacterial activities, as well as aggregation-induced

147 Nevertheless, antibacterial activity assays employing human CP mutants

148 In vitro antibacterial activity assays indicate that the metal-bi

149 doxycycline) showed some intermediates with antibacterial activity at low treatment doses.

150 subunit leads to relatively small changes in antibacterial activity but causes significant changes in

151 rophobicity between two centers show similar antibacterial activity but significantly less toxicity t

152 opeptides and beta-lactams exert synergistic antibacterial activity, but the evolutionary mechanisms

153 TiO2 exhibited significant antibacterial activity, but the protein expression profi

154 Vancomycin exerts its antibacterial activity by binding to d-Ala-d-Ala in bact

155 ore, we find that this effector achieves its antibacterial activity by degrading phosphatidylethanola

156 Our results demonstrate potent antibacterial activity by human NK cells against B. anth

157 broad-spectrum antibiotics that exert their antibacterial activity by selectively targeting the deco

158 es of these mixtures revealed that selective antibacterial activity can be achieved with heterochiral

159 d antioxidant activities, and therefore, the antibacterial activity cannot be attributed (only) to ph

160 On the other hand, ZnO exhibited lower antibacterial activity compared to TiO2, and the bacteri

161 s with vertical orientation exhibit enhanced antibacterial activity compared with random and horizont

162 nt P. tigrinus and P. ostreatus cultures the antibacterial activities corresponded to the residual co

163 y and is stable in human serum; (c) displays antibacterial activity; (d) binds to CD98, which mediate

164 In addition to exerting direct antibacterial activities, defensins inactivate several c

165 The highest antibacterial activity detected was against the fish far

166 However, the contribution of T6SS antibacterial activity during pathogen invasion of the g

167 All extracts possessed antibacterial activity especially methanolic extracts fr

168 Studies on the antibacterial activity established that azazerumbone 2 h

169 e I inhibition, binding to B-DNA duplex, and antibacterial activity has been evaluated.

170 Antibacterial activity has demonstrated (by using Staphy

171 These compounds were then screened for antibacterial activity, illustrating the utility of the

172 rheumatic agent, which also possesses potent antibacterial activity in a clinically achievable range.

173 In serum, however, C10OOc12O induced antibacterial activity in a manner suppressible by antic

174 evealed that these alterations abolished the antibacterial activity in all of the analogues, revealin

175 oreover, compounds within this class possess antibacterial activity in the absence of a rapid cytotox

176 esent a human health risk due to the rise of antibacterial activity in the downstream environments.

177 the first time, full in situ photocontrol of antibacterial activity in the presence of bacteria was a

178 niae, but only CCL26 and CCL28 retained high antibacterial activity in the presence of sodium chlorid

179 Mesenchymal stem cells (MSC) exert antibacterial activity in vitro and in acute bacterial i

180 ded by structure-based design and focused on antibacterial activity in vitro and in vivo, culminating

181 obial peptide family, it exhibits negligible antibacterial activity in vitro.

182 infected mouse model and exhibited superior antibacterial activity in whole blood with no observed t

183 binations is sulbactam-ETX2514, whose potent antibacterial activity, in vivo efficacy against MDR A.

184 eral host defense proteins and peptides with antibacterial activities including beta-defensins, ELR-n

185 12-epi-pleuromutilins with extended-spectrum antibacterial activity, including activity against Gram-

186 exacyclines displayed potent, broad spectrum antibacterial activity, including promising anti-Pseudom

187 The present study demonstrates auranofin's antibacterial activity is a complex process that involve

188 Our data show etoposide's antibacterial activity is due to DNA gyrase inhibition a

189 n an Hcp1-dependent manner and that the T6SS antibacterial activity is essential for Salmonella to es

190 Its antibacterial activity is limited to gram positive bacte

191 Our results indicate that antibacterial activity is sensitive to Cu and Ag while e

192 de compositional range by co-sputtering, and antibacterial activity is strongly dependent on alloy co

193 unctionalized membrane exhibited significant antibacterial activity, leading to an 80-95% reduction i

194 In addition, these nanodrugs showed enhanced antibacterial activities, lowering the minimum inhibitor

195 resulted in a pronounced improvement in the antibacterial activity observed against Listeria monocyt

196 erobactin transport reveal that the enhanced antibacterial activity observed for this strain requires

197 The antioxidant and antibacterial activities of commercial rice wine extract

198 Comparison of the antibacterial activities of multiple S. salivarius strai

199 oxidant, antiproliferative, proapoptotic and antibacterial activities of raspberry pomace and favour

200 275 EPS) were sulphated, and antioxidant and antibacterial activities of sulphated and crude polysacc

201 Antibacterial activities of the chemokines were investig

202 Antibacterial activities of the eotaxins were investigat

203 We assayed the in vitro antibacterial activities of the hCLD, LL-37, and the pre

204 Antibacterial activities of the most potent compounds of

205 4 and 24h of hydrolysis, the antioxidant and antibacterial activities of the peptide hydrolysates obt

206 to their neuromodulatory functions, display antibacterial activities of unclear significance.

207 ro enzymatic assays, we confirmed the potent antibacterial activity of 6-OH-BDE-47 occurs via direct

208 ne (Biobrane-Ag) and determined the in vitro antibacterial activity of Biobrane-Ag with Staphylococcu

209 Studying the antibacterial activity of Ce-TiO2 nanocrystals against E

210 ility as well as the preservation of initial antibacterial activity of chitosan.

211 The antibacterial activity of ciprofloxacin, when used in co

212 A microdilution assay was used to determine antibacterial activity of collinin.

213 pectrum for V. odorata cyclotides, including antibacterial activity of cycloviolacin O2 against A. ba

214 Here, the antibacterial activity of dextran-coated nanoceria was e

215 on and physicochemical characterization, the antibacterial activity of EDP on food spoilage and food

216 The nanoemulsion appeared to amplify the antibacterial activity of essential oils against E. coli

217 nt at 45 and 55 degrees C did not affect the antibacterial activity of honey samples.

218 h subvert the host response by targeting the antibacterial activity of infiltrating neutrophils.

219 s on the benzisoxazole that improve upon the antibacterial activity of initially described compounds

220 ing capacity, enhanced shelf life and strong antibacterial activity of linalool.

221 In addition, the antibacterial activity of LL-37 was not inhibited by the

222 Antibacterial activity of lysozyme-functionalized microt

223 The potent antibacterial activity of lysozyme-loaded silica nanopol

224 eviously been proposed to play a role in the antibacterial activity of magainin 2 and related peptide

225 The antibacterial activity of methanolic extracts against fo

226 The goal of this report is to evaluate the antibacterial activity of monoclonal antibodies (MAbs) t

227 The demonstrated antibacterial activity of MXene coated membranes against

228 Antibacterial activity of PRF, tested against certain me

229 The antibacterial activity of Prunus persica varieties studi

230 This work demonstrates that the antibacterial activity of PU-AuNPs-CV samples and the sy

231 The antibacterial activity of PU-AuNPs-CV samples was tested

232 o determine the effects of MW heating on the antibacterial activity of raw rapeseed honeys against Ps

233 Recent evidence links the antibacterial activity of SCN in human urine to iron seq

234 Here we present the antibacterial activity of self-assembled diphenylalanine

235 f the AgNPs on these supports increasing the antibacterial activity of the AgNPs through diminution i

236 ed subsequent investment in social immunity (antibacterial activity of the anal exudates).

237 The antibacterial activity of the beta-lactam sideromycin wa

238 The antibacterial activity of the essential oil against E. c

239 The antibacterial activity of the essential oil in both pure

240 ization is performed to explain the enhanced antibacterial activity of the film with vertically align

241 cell membrane, suggesting that the enhanced antibacterial activity of the film with vertically align

242 Residual antibacterial activity of the metabolite mixtures was te

243 sent mini-review we show: (1) that the broad antibacterial activity of the natural antibody repertoir

244 lipid II was found to effectively block the antibacterial activity of the nisin-derived lipopeptides

245 Zeta potential analysis supports that antibacterial activity of the PDA solution originates fr

246 Antibacterial activity of the pools and membrane permeab

247 w that mites: 1) cause beetles to reduce the antibacterial activity of their exudates but 2) there ar

248 has been elucidated to fully account for the antibacterial activity of this class of compounds.

249 may be essential for the cellular uptake and antibacterial activity of this class of compounds.

250 ions eventually confirmed the broad-spectrum antibacterial activity of this new family of molecules.

251 structure is not essential for the observed antibacterial activity of this novel lipopeptide.

252 Here, we investigate the spectrum of antibacterial activity of three phenylthiazole-substitut

253 Herein, we investigated the antibacterial activity of two short novel peptides (WR12

254 Similarly, antibacterial activity of zein-THY/gamma-CD-IC-NF (2:1)

255 ave been reported to exhibit antioxidant and antibacterial activity; often touted as being beneficial

256 or use as an antimicrobial agent with potent antibacterial activity, particularly against Bacillus sp

257 rmone hepcidin, which, in addition to having antibacterial activity, regulates the functions of FPN.

258 he chemical structure and were evaluated for antibacterial activity relative to 1.

259 is a designed variant that displays enhanced antibacterial activity relative to the natural peptide.

260 l concentrations of flumequine, a remarkable antibacterial activity remained in the D. squalens cultu

261 azole urea with broad-spectrum Gram-positive antibacterial activity resulting from dual inhibition of

262 Characterization of the antibacterial activity revealed that copsin bound specif

263 In relation to the antibacterial activity, samples CAD3, CAD4 and SAD3 pres

264 Antibacterial activity studies integrated with the outco

265 turally occurring nucleoside inhibitors with antibacterial activity target this enzyme.

266 phylum Cnidaria) secrete neuropeptides with antibacterial activity that may shape the microbiome on

267 ydroxy groups at 5- and 7-positions enhanced antibacterial activities; the 2',4'-dihydroxylated A rin

268 ntact AS-48 resists digestion guarantees its antibacterial activity throughout the gastrointestinal t

269 series of 31 honeys of varying non-peroxide antibacterial activity to clarify discrepancies between

270 It imparted antibacterial activity to the membranes; the number of l

271 odified peptide (RiPP) that possesses potent antibacterial activity towards multidrug-resistant bacte

272 mple, we demonstrate how glass formation and antibacterial activity, two unrelated properties, can be

273 d exhibits antiviral, antiproliferative, and antibacterial activities typical of type I IFNs, albeit

274 s was investigated for their antioxidant and antibacterial activity using nine Gram-positive and Gram

275 Significant antibacterial activity was achieved after 48 hours of tr

276 The discovered antibacterial activity was confirmed and specified by a

277 Antibacterial activity was determined by measuring the m

278 This antibacterial activity was due to growth inhibition, as

279 leic acid and lipid peroxidation assays; the antibacterial activity was evaluated by the hole plate a

280 However, their promising antibacterial activity was hampered in large part by the

281 The mechanism of antibacterial activity was investigated by measuring pot

282 Antibacterial activity was mainly exerted by the QDs rat

283 However, antibacterial activity was observed against S. mutans at

284 against Escherichia coli, but no additional antibacterial activity was observed against the other Gr

285 The highest antibacterial activity was obtained at a DH of 30% (enzy

286 Although antibacterial activity was partially compromised, a sing

287 Promising antibacterial activity was seen versus the Gram-positive

288 was weakly correlated with the non-peroxide antibacterial activity, was isolated from the flavonoid

289 Several compounds with antibacterial activities were identified in honey howeve

290 Antibacterial activities were tested against 4 bacteria

291 HPLC/ITMS, and the corresponding changes in antibacterial activity were measured using bacterial inh

292 PUM exhibits additive antibacterial activity when co-administered with Rif, ex

293 hese compounds have up to 1200-fold enhanced antibacterial activity when compared to those with the p

294 W thermal heating completely abolished honey antibacterial activity whereas conventional thermal trea

295 The COOH-terminal fragment retained antibacterial activity while the NH2 -terminal had poten

296 with a 15-carbon linker did not exhibit any antibacterial activity, while the dual-ligand with a 7-c

297 nate HPs 24 and 25 were found to have potent antibacterial activities with significantly improved wat

298 cytosolic ribosomes, which is predictive of antibacterial activity with reduced ototoxicity and syst

299 NPSC couple an innate antibacterial activity with the capacity to embody drug

300 s found to exert a considerable influence on antibacterial activity, with a significant increase in t