ライフサイエンスコーパス: molecular weight

1 ssion moves on to polymer engineering (e.g., molecular weight).

2 branching structure, crosslink density, and molecular weight.

3 and hydrophilicity molecules as well as the molecular weight.

4 semiquantitative values for PAHs with a high molecular weight.

5 y of DOM structural characteristics, notably molecular weight.

6 to a moderate PI3Kalpha inhibitor with a low molecular weight.

7 single microwell with molecules of different molecular weight.

8 gy transfer probes, and (1)O2 decreased with molecular weight.

9 arious non-gelling saccharides of increasing molecular weights.

10 aqSOA mass due to Henry's Law constants and molecular weights.

11 llenge this orthodoxy using a 62-nucleotide (molecular weight = 20,395 Da) RNA-based aptamer, highly

12 res, namely deacetylation degree (5-91%) and molecular weight (24-466kDa) were used for the reduction

13 a steep drop-off in membrane permeability at molecular weights above 1000 Da and it appears likely th

14 Systematic evaluations of peptides with molecular weights above 500 Da are needed to identify pa

15 S100 family genes encode low molecular weight, acidic-Ca(2+) binding proteins implica

16 which showed improved responsivities to low molecular weight alcohols compared to similar sensors ba

17 atmospheric organic nitrogen, including low molecular weight alkyl-amines.

18 led (115 microm) sirolimus-eluting ultrahigh molecular weight amorphous poly-l-lactic acid-based BRS

19 oaches in investigating the mechanism of low-molecular-weight amyloid inhibitors.

20 ons of thrombin (10(-18) m) as well as a low molecular weight anatoxin (165 Da, 10(-14) m) are detect

21 gate for nab-paclitaxel based on its similar molecular weight and albumin driven pharmacokinetics.

22 nds on the structure of the monomer, polymer molecular weight and concentration, and the nature of th

23 ctional polymers with excellent control over molecular weight and copolymer composition.

24 Lower molecular weight and deesterification enhanced the anti-

25 With its high-molecular weight and hydrophilicity, this conjugate is d

26 During this process, TPT could change the molecular weight and isoelectric point of effector prote

27 size and polarity, with estimated ranges of molecular weight and octanol/water partitioning coeffici

28 Compared to free aptamers, the increased molecular weight and size of the overall assembly promot

29 ene media, and observed little difference in molecular weight and specific UV absorbance at 280 nm (S

30 000 m/z) into two scan events, one for lower molecular weight and the other for higher molecular weig

31 ercial PE and iPP together, depending on the molecular weights and architecture of the block copolyme

32 synthesis of polymers with precisely tunable molecular weights and dispersities typically lower than

33 earing a broad range of hydrophobicities and molecular weights and of varied chemical diversity.

34 nic dextran derivatives (DEXxDSy) of various molecular weights and various degrees of substitution wi

35 ber of methyl- and ethyl- functional groups, molecular weight, and number of ring structures, in addi

36 ty amides, gamma- and delta-lactones of high molecular weight, and other aromatic compounds such as s

37 The effect of drying rate, P3HT molecular weight, and thermal annealing are investigated

38 mploying a wide range of analyte polarities, molecular weights, and functionalities.

39 High molecular weights are obtained, showcasing the perfect e

40 ers of beta-glucan in beer wort, such as the molecular weight averages, fraction description, hydrody

41 Despite the known toxicity of some high-molecular-weight azaarenes, their diversity, abundance,

42 Deglycosylation treatment attenuated high molecular weight bands, induced a mobility shift, and in

43 imal DNA delivery activity whereas PEIs with molecular weights below 1.8kDa are ineffective.

44 drolysates, 14.7% increase in molecules with molecular weight between 0.075 and 0.5kDa was detected i

45 attributes of network architecture, such as molecular weight between crosslinks.

46 For instance, PEIs with molecular weights between 10-30kDa provide optimal DNA d

47 e microphase segregation process in ultralow-molecular-weight block copolymers.

48 ther support earlier observations that large molecular weight BrC compounds from biomass burning can

49 so abundant, suggesting a potential for high molecular weight carbon cycling.

50 d, fragmentation produces polyfunctional low molecular weight carboxylic acids after oxidative cleava

51 ferential representation of higher- vs lower-molecular-weight carnitine and phosphatidylcholine famil

52 ut not sham-operated mice, demonstrated high molecular weight CgA bands.

53 s by pepsin and trypsin hydrolyzed all heavy molecular weight chains of collagen but sequential hydro

54 Low-molecular-weight chemicals that likely derive from bacte

55 Low molecular weight chitosan exerted a potent inhibitory ef

56 un-supplemented state is associated with low molecular weight circulating metabolites.

57 lyase that cleaved HS, reflecting its higher molecular weight compared with Hep.

58 Hereby, failure to assemble higher molecular weight complexes of PORB with its twin isoenzy

59 mRNA and interacts with Cox1 protein in high-molecular-weight complexes (COA complexes) to form the C

60 r data revealed that MF6p/FhHDM-1 forms high-molecular-weight complexes when associated with heme and

61 ses was used to determine changes in the low-molecular-weight compound composition of peanuts due to

62 tional activity, we identified a novel small-molecular-weight compound, T63, as an efficient up-regul

63 le to detect low submicrogram amounts of low molecular weight compounds (<500 Da).

64 BAs may be precursors to higher molecular weight compounds identified by others in Swedi

65 2 was formed from thermal reactions of lower molecular weight compounds that represent approximately

66 mentation, with a concurrent increase in low-molecular-weight compounds (hydroxybenzoic and hydroxyci

67 ficant impact on the levels and types of low-molecular-weight compounds present.

68 CH3CN)(+) complexes 4a,b/B(C6F5)3 yield high molecular weight copolymers exhibiting highly branched t

69 methacrylates and styrene furnishing higher molecular weight copolymers with minimal termination.

70 oor selectivity, especially in the 0-1000 Da molecular weight cut-off range.

71 on characteristics of membranes with nominal molecular weight cut-offs (NMWCO) ranging from 30kD down

72 mall mean pore diameter of 1.0-1.3 nm with a molecular weight cutoff (MWCO) of 1000-2000 Da but also

73 porous regenerated-cellulose membrane with a molecular-weight cutoff of approximately 3500 Da.

74 y choosing membranes of various material and molecular-weight cutoff values.

75 Inflammasomes are high-molecular-weight cytosolic complexes that mediate the ac

76 ies revealed that immune sera raised to high-molecular-weight Delta123 was poly specific, given that

77 pCL were further investigated with regard to molecular weight dependence, and it was found that the m

78 take kinetics of an intact IgG and its small-molecular-weight derivative Mb.

79 ge state deconvolution, monoisotopic/average molecular weight determination and quantitation of prote

80 nt of active catalyst and observation of the molecular weight distribution (MWD) of Hf-bound polymers

81 pose to optimize a method to determine their molecular weight distribution by HPLC-SEC for industrial

82 s present during polymerization, however the molecular weight distribution is broadened compared to A

83 s of starch granules were evaluated based on molecular weight distribution, gelatinisation, crystalli

84 ar poly-(o-phenylene ethynylene) with narrow molecular weight distribution.

85 onds (1-12 s), yielding polymers with narrow molecular weight distributions (D = 1.06 to 1.14).

86 to various forms of PE, displaying different molecular weight distributions and oxidation levels, lea

87 ing was responsible for a shift in ethoxymer molecular weight distributions and the accumulation of t

88 polymers synthesized by ATRP exhibit bimodal molecular weight distributions indicating the occurrence

89 By modeling the molecular weight distributions obtained under various re

90 The flow instabilities of solutions of high molecular weight DNA in the entangled semi-dilute concen

91 ngle library from approximately 1 ng of high molecular weight DNA, using the 10x Genomics microfluidi

92 ular therapeutics that avoids the use of low molecular weight drugs.

93 e of Tr-A from microspheres made of a higher molecular weight, ester end-capped PLGA displayed an osm

94 Here we demonstrate that the molecular weight form of a reporter K15P molecule and it

95 We speculate that expression of different molecular weight forms of K15P in distinct cellular loca

96 We speculate that expression of different molecular weight forms of K15P in distinct cellular loca

97 The relationships between the various molecular weight forms of K15P, their subcellular distri

98 The protein exists in multiple molecular weight forms, and its intracellular traffickin

99 We show that high-molecular-weight forms of Delta123 elicit distinct antib

100 K15P is approximately 45 kDa, numerous lower-molecular-weight forms of the protein exist as a result

101 This suggests that the smallest molecular weight fraction is more susceptible to process

102 ion chromatography, and the response of each molecular weight fraction to aging is studied.

103 characterize the metal binding properties of molecular weight-fractionated dissolved organic matter (

104 ular weight in both fulvic acids, while PLFA molecular weight fractions are shown to be structurally

105 wn to derive from elevated quenching in high molecular weight fractions, rather than increased (3)DOM

106 ges in the light absorptivity of BrC for all molecular weight fractions; secondary BrC was rapidly ph

107 etics, but only one of the formulations (low molecular weight, free acid terminated) exhibited the sa

108 affect the properties of a solution of a low-molecular-weight gelator at high pH.

109 Hydrogels formed by the self-assembly of low-molecular-weight gelators (LMWGs) are promising scaffold

110 CshA binds the high-molecular-weight glycoprotein fibronectin (Fn) via an N-

111 our method could detect 0.5 ppm of HCP with molecular weight >60 kDa, such as rPLBL2.

112 f proteins, high-fidelity MS imaging of high molecular weight (>30 kDa) proteins, and the rapid analy

113 While low molecular weight HA increases sensitivity to mechanical

114 sensitivity to mechanical stimulation, high molecular weight HA reduces sensitization, attenuating i

115 We hypothesized that low molecular weight heparin (LMWH) is superior to unfractio

116 ents included substitution of heparin or low-molecular weight heparin for warfarin (n = 13 [72%]), in

117 id not differ from that with warfarin or low-molecular-weight heparin (factor Xa vs warfarin IRR 0.78

118 to receive either a prophylactic dose of low-molecular-weight heparin (for the 8 days after arthrosco

119 We have shown previously that the GAG low-molecular-weight heparin (LMWH) binds to Abeta40 fibrils

120 um period is not above a threshold where low-molecular-weight heparin (LMWH) prophylaxis is clearly i

121 ntagonist (VKA) throughout pregnancy; 2) low-molecular-weight heparin (LMWH) throughout pregnancy; 3)

122 abigatran 0.88 [0.59-1.36]; factor Xa vs low-molecular-weight heparin 1.02 [0.42-2.70]; and low-molec

123 venous thromboembolism to receive either low-molecular-weight heparin for at least 5 days followed by

124 our trials showed that prophylaxis with low-molecular-weight heparin for the 8 days after knee arthr

125 Low-molecular-weight heparin is the standard treatment for c

126 lirudin monotherapy vs unfractionated or low-molecular-weight heparin plus optional GPIs (control gro

127 otherapy compared with unfractionated or low-molecular-weight heparin plus optional GPIs on 1-year mo

128 lar-weight heparin 1.02 [0.42-2.70]; and low-molecular-weight heparin vs dabigatran 0.67 [0.20-1.82])

129 irect oral anticoagulants, warfarin, and low-molecular-weight heparin.

130 anticoagulants compared with warfarin or low-molecular-weight heparin.

131 inding of various glycosaminoglycans and low molecular weight heparins by microscale thermophoresis a

132 Previous work has suggested that high-molecular-weight (high-MW) DON exists only in two closel

133 eta in aqueous extracts of AD brain are high molecular weight (HMW) and relatively inactive.

134 megabases along the human genome using high molecular weight (HMW) DNA.

135 were discovered and characterized from high-molecular weight (HMW) fractions of an IgG1 monoclonal a

136 ans who died with confirmed AD elute at high molecular weight (HMW) on nondenaturing size-exclusion c

137 inly occurred through the conversion of high molecular weight (HMW) physiological alpha-syn conformer

138 Low-molecular-weight (LMW) and high-molecular-weight (HMW) agents have been recognized as ca

139 Activated platelets released high-molecular-weight (HMW)-EGF, produced by a single cleavag

140 ling in the antihyperalgesia induced by high molecular weight hyaluronan (HMWH).

141 Low molecular weight hyaluronan (LMWH) acts at both peptider

142 le measurements of aromaticity increase with molecular weight in both fulvic acids, while PLFA molecu

143 tingly, VE-cadherin shifted toward a smaller molecular weight in endothelial monolayers on softer sub

144 y detects a membrane protein of the expected molecular weight in western blot analysis.

145 ld be due to the combined effects of reduced molecular weight, increased amount of hydroxyl terminal

146 ce and by targeting the interface with a low molecular weight inhibitor, we show that TNFalpha retain

147 ed as alternate matrices to minimize the low molecular weight interferences observed in typical MALDI

148 Purpose To synthesize two low-molecular-weight iron chelates and compare their T1 cont

149 Decreasing [(3)DOM]ss with molecular weight is shown to derive from elevated quench

150 intact G1/S transition (Rb-positive and low-molecular-weight isoform of cyclin E (cytoplasmic)-negat

151 When the prekallikrein-high molecular weight kininogen complex is bound to endotheli

152 Cleavage of high-molecular-weight kininogen (HK), a marker for activation

153 nhibitor deficiency reduced cleavage of high-molecular-weight kininogen and attacks of angioedema.

154 of 300 mg or 400 mg reduced cleavage of high-molecular-weight kininogen in plasma from patients with

155 measurement of plasma levels of cleaved high-molecular-weight kininogen, and efficacy was assessed by

156 inin release resulting from cleavage of high-molecular-weight kininogen.

157 ystal dispersions of disentangled, ultrahigh-molecular-weight linear polyethylene.

158 ultimetallic active sites, and produces high-molecular-weight linear polyethylene.

159 The effect of addition of the low-molecular weight (LMW) organic compounds, easily ionized

160 Maillard reaction (MR), induced between low molecular weight (LMW) peptides and sucrose, was studied

161 Mycothiol (MSH) is the major low molecular weight (LMW) thiol in Actinomycetes.

162 Low-molecular-weight (LMW) and high-molecular-weight (HMW) a

163 We have created the pPSU1 & pPSU2 pair of molecular weight marker plasmids which produce both 100

164 chniques in molecular biology, and reference molecular weight markers or ladders are commonly used fo

165 e comonomer to afford a highly soluble, high molecular weight material.

166 Molecular weight measurements made with a newer generati

167 e changes suggest improved accuracy of HPSEC molecular weight measurements that we attribute to impro

168 atural isotopic species, especially for high molecular weight metabolites ( approximately 20% under-m

169 er molecular weight and the other for higher molecular weight metabolites.

170 ic acid based polyesters (the number-average molecular weights (Mn) 1770 to 10000 g/mol and semi crys

171 CBS, substances comprising a broad range of molecular weights, moieties, protein binding, and polari

172 dical polymerization of water-insoluble, low-molecular-weight monomers that show a large change in de

173 LysRS is normally sequestered in a high-molecular-weight multi-aminoacyl-tRNA synthetase complex

174 Hagfish Vwf formed high-molecular-weight multimers in hagfish plasma and in stab

175 ed a greater proportion of hydrolysates with molecular weight (MW) <2kDa (79.8-82.7%).

176 ionated by membrane ultrafiltration (UF, F1: molecular weight (MW) <3kDa, F2: MW 3-5kDa, and F3: MW 5

177 n of these molecules affords highly accurate molecular weight (MW) and drug-to-antibody ratio (DAR) d

178 ocess by shifting Akita proinsulin from high-molecular weight (MW) complexes toward smaller oligomeri

179 Many researchers have focused on high molecular weight (Mw) exopolysaccharides (EPS) as a sour

180 l, the biomass produced is defined to have a molecular weight (MW) of 1 g mmol-1.

181 However, top-down MS analysis of high molecular weight (MW) proteins remains challenging mainl

182 e from Padina pavonica (APP) had the highest molecular weight (Mw) with 147,000g/mol while it was 85,

183 Our results indicated that lower molecular weight (MW), labile, phytoplankton-derived com

184 Thereby, three parameters dominate: (i) PEI molecular weight (MW); (ii) RepRNA:PEI (weight:weight) r

185 Ligand identification relies on the molecular weights (MWs), ion mobility separation arrival

186 re polysulfates and polysulfonates with high molecular weight, narrow polydispersity and excellent fu

187 These results establish the advantage of low molecular weight, narrow polydispersity, and amorphous,

188 Beer wort beta-glucans are high-molecular-weight non-starch polysaccharides of that are

189 and bioavailability are analyzed, including molecular weight, octanol-water partitioning, hydrogen b

190 The presence of dimer with a molecular weight of 33.38+/-0.34kDa, and pI of 6.30+/-0.

191 The Pt16L8 complex has a molecular weight of more than 23 kDa and a diameter of 4

192 c) Higher molecular weight of P-(MORF2)x induced higher levels of

193 ence, the valence of P-(MORF2)x (varying x), molecular weight of P-(MORF2)x, incorporation of a miniP

194 In this study, we showed that the molecular weight of polyethylene glycol (PEG), 20kDa or

195 ee [psi(-) ] cells present, no change in the molecular weight of Sup35-containing SDS-resistant polym

196 The X-ray-structure-based molecular weight of the 2D polymers and their degree of

197 gelation, the gel behavior was dependent on molecular weight of the added CH.

198 The molecular weight of the complex was calculated from smal

199 diffusion rates correlated closely with the molecular weight of the individual compound in aqueous s

200 exclusion chromatography analyses, the peak molecular weight of the PAM was reduced by 2 orders of m

201 the prepolymer composition and the type and molecular weight of the polymeric porogen components, a

202 and-based methods is the independence of the molecular weight of the protein under study.

203 Changes in the relative crystallinity and molecular weight of the proteins extracted with a sodium

204 We show that the molecular weight of the reaction products is nearly mono

205 The molecular weight of the soluble compounds decreased with

206 s of 10-nm diameter were limited by the high molecular weight of these particles, which caused unfavo

207 The E1 and E2 had molecular weights of 620,000 and 470,000Da with arabinos

208 -, penta-, hexa-, and hepta-saccharides with molecular weights of 689, 851, 1013 and 1151Da, respecti

209 aracterization of large protein systems with molecular weights of hundreds of kDa.

210 to their quantitative dissociation into low molecular weight oligomers ( approximately 8-70 kDa), an

211 low molecular weight species, and these low molecular weight oligomers are significantly more bioact

212 Low molecular weight oligomers of amyloid-beta (Abeta) have

213 ates, which result from the formation of low molecular weight oligomers, high molecular weight oligom

214 tion of low molecular weight oligomers, high molecular weight oligomers, protofibrils, and fibrils.

215 This results in soluble low-molecular-weight oligomers that can act as a therapeutic

216 The dimers assemble into high-molecular-weight oligomers with an apparent two-fold sym

217 In view of the importance of the molecular weight on the functional properties of agave f

218 In order to relate DOM molecular weight, optical properties, and reactive speci

219 hereby primarily the accessibility of higher molecular weight PAHs (log Kow > 6) was affected.

220 to evaluate the chemical degradation of high molecular weight PAM, including the effects of shale, ox

221 e report a functionally unique family of low-molecular-weight PBPs that act as transpeptidases rather

222 se proteins are classified by mass into high-molecular-weight PBPs, which are transpeptidases that fo

223 that form peptidoglycan cross-links, and low-molecular-weight PBPs, which are typically hydrolases.

224 nd convenient approach to generate ultra-low molecular weight pectin with high efficiency and higher

225 lue source to produce highly digestible, low molecular weight peptide powders that could be used as a

226 However, as opposed to conventional low molecular weight pesticides, the environmental fate of m

227 fermentation showed a degradation of higher-molecular-weight phenolics over 48hours of faecal fermen

228 on revealed differential accumulation of low-molecular-weight phenolics, including (glycosylated) oli

229 udy aims to investigate the stability of low molecular weight phlorotannin fractions from Fucus vesic

230 The concentrations of low- and high-molecular weight phthalate metabolites (SigmaLMWP <250 D

231 erature and pH) to reduce gallic acid, a low molecular weight pigment (MW 170gmol(-1)) widely found i

232 efficient method to reduce the potential low molecular weight pigment present in the sugarcane.

233 end our previous work on phosphorescent, low molecular weight platinum(II) complex as an oxygen sensi

234 here as PEO+) which primarily contains high-molecular-weight polyethylene oxide (HMW PEO).

235 ameters were obtained that best produce high molecular weight polymers using this chemistry.

236 olymers reacted with diamines to afford high-molecular-weight polymers with triazole- and urea-type i

237 rically tunable focus made of non-ionic high-molecular-weight polyvinyl chloride (PVC) gel.

238 o major macromolecular populations; the high molecular weight population showed a clear trend of redu

239 ins are synthesized in the cytosol as higher molecular weight preproteins and imported via the transl

240 onstrate that hyaluronan (HA) with different molecular weights produces opposing nociceptive effects.

241 n products, this method also produces higher molecular weight products consisting of multiple repeate

242 formation of cross-linked oligomers and high molecular weight protein complexes (HMWC) that are hypot

243 ted human erythrocyte contains numerous high molecular weight protein complexes, which may potentiall

244 both of these proteins are contained in high molecular weight protein complexes.

245 patients but not controls recognized a high molecular weight protein in renal tubular protein extrac

246 size exclusion chromatography, and one high molecular weight protein was detected relative to the he

247 late with the urinary concentrations of high molecular weight proteins and correlated only weakly wit

248 proteins and correlated only weakly with low molecular weight proteins, suggestive of tubular product

249 ble with the irreversible adsorption of high-molecular-weight proteins to surfaces, mediated by multi

250 glucosuria, phosphaturia, aminoaciduria, low molecular weight proteinuria, and albuminuria.

251 rl-knockout mouse background resulted in low molecular weight proteinuria, phosphaturia, and acidemia

252 ve overview of the current literature on low-molecular-weight PSMA ligands for both PET imaging and t

253 nd donors and 10 acceptors), with a moderate molecular weight ranging from 350 to 450g.mol(-1).

254 n profiles were generated for molecules with molecular weights ranging from 560 Da to 150 kDa.

255 die did not have a measurable impact on the molecular weight reduction of waxy flour.

256 d content had the most significant impact on molecular weight reduction, reducing intrinsic viscosity

257 This study demonstrates that very-large-molecular-weight RNA aptamers can permeate across the in

258 ne-string domain cause CSPalpha to form high molecular weight SDS-resistant aggregates, which are als

259 ditions (RH = 3%) the reaction produces high-molecular-weight secondary ozonides (SOZ), which are kno

260 ve groups results in the formation of higher-molecular-weight sequence-defined ladder polymers.

261 d evaluation of the first, high-affinity low molecular weight Siglec-7 ligands to interfere with canc

262 cEP) for the template-free synthesis of high-molecular-weight, single-stranded DNA (ssDNA) and demons

263 pretreatments to extract and concentrate low molecular weight SMPs (MW< 580 Da) from effluents were o

264 abundant HMW oAbeta can dissociate into low molecular weight species, and these low molecular weight

265 We calculate that these large-molecular-weight species are composed of more than 20 ca

266 ad to reduced light absorption, while larger-molecular-weight species may represent recalcitrant brow

267 ding freely available high-quality, low-cost molecular weight standards for molecular biology applica

268 are rationally designed from relatively low-molecular-weight starting materials, with the degree of

269 ngineered treatment processes that alter DOM molecular weight, such as photooxidation and biological

270 exhibited a strong relationship with average molecular weight, suggesting that FI might be a better i

271 te and polymer diffusion were independent of molecular weight, suggesting that ion pairing density is

272 cture, reported for the self-assembly of low molecular weight surfactants, for example, lipids, but r

273 ve largely focused on the development of low-molecular-weight, synthetic BH3 mimetics ("magic bullets

274 APP/PS1-rTg4510 mice and an increase in high-molecular-weight tau.

275 ther reactive intermediates, often of higher molecular weight than the Amadori rearrangement product,

276 The vapour pressure, the molecular weight, the Odor Activity Value (OAV) and the

277 ween a protein cysteine and an attacking low molecular-weight thiol have a dramatic effect on the pro

278 e examined the reactions of NO2-CLA with low molecular weight thiols (glutathione, cysteine, homocyst

279 ulfide can transfer allyl side chains to low molecular weight thiols.

280 bioavailability to Hg(II) complexes with low-molecular-weight thiols.

281 High molecular weight, thus sufficient chain entanglement, co

282 erally recognized that only relatively small molecular weight (typically < approximately 500 Da) drug

283 ligomers/macromolecules on a gram scale with molecular weights up to 27.4 kDa (128mer, 7.9 g) using a

284 with over 99 % tail-to-head content and high molecular weight (up to 92.5 kg mol(-1) ).

285 from racemic propylene oxide with control of molecular weight using enantioselective and isoselective

286 its chemical complexity, BrC is separated by molecular weight using size exclusion chromatography, an

287 sates were then separated according to their molecular weight, using the ultra-filtration membrane sy

288 (-9+/-1%, P<0.0001) and accumulation of low-molecular-weight vWF multimers (+40+/-5%, P<0.0001) and

289 pport caused significant degradation of high-molecular-weight vWF multimers (-9+/-1%, P<0.0001) and a

290 weight dependence, and it was found that the molecular weight was minimally important for stabilizati

291 e-depolymerization products (EDP) varying in molecular weight were recovered from fermentative depoly

292 r that had been brought to a sudden stop and molecular weights were determined by intrinsic viscosity

293 e serum albumin (BSA) and dextran varying in molecular weights were first conjugated through Maillard

294 ts), typically higher conversions and higher molecular weights were reached.

295 Digestion of higher molecular weight whey proteins increased with decreased

296 molecules to approximately 1/10 the original molecular weight while native gliadin was nearly elimina

297 t population showed a clear trend of reduced molecular weight with increasing extraction temperature.

298 yield well-defined materials over a range of molecular weights with low dispersities ( approximately

299 low for polymerization of ethylene to higher molecular weights with reduced branching due to signific

300 idized sulfur in PPR DOM that would increase molecular weight without affecting SUVA280.