ライフサイエンスコーパス: molecular weight

1 ethylene glycol (PEG) molecules of different molecular weight.

2 precise control of polymer architecture and molecular weight.

3 ostly to hydrophobicity and partially to the molecular weight.

4 oxidation and a considerable decrease in the molecular weight.

5 ession in serum is non-steroidal and of high molecular weight.

6 monstrated that EAE extracted NEPs with high molecular weight.

7 ce with a variety of chemical structures and molecular weights.

8 arly PM7) relies on precise control of their molecular weights.

9 terials with low dispersities and targetable molecular weights.

10 made with different PLGA concentrations and molecular weights.

11 to the reporter proteins with corresponding molecular weights.

12 exchange of intracellular molecules with low molecular weights.

13 ed out to fractionate compounds according to molecular weights.

14 oduction of peptide fractions with different molecular weights (10, 30, and 100 KDa) from flaxseed hy

15 ed that our method could detect HCP with low molecular weight (11 kDa and 17 kDa) at a concentration

16 A high molecular weight (148 kDa) PLGA at various concentration

17 ially available linear and cyclic siloxanes (molecular weight 162-410 g/mol) as PISTOL-based oxygen r

18 toward normal cells, together with the small molecular weight (~500 Da), the water solubility, the ea

19 Exopolysaccharide-C47 product (molecular weight: 7.3 x 10(6) Da) was composed of the fo

20 Total adiponectin (T-AN) and high molecular weight adiponectin (H-AN) assays were develope

21 pecific membrane antigen (PSMA)-targeted low-molecular-weight agents for (212)Pb-based TRT of patient

22 lity, a delayed and rapid appearance of high molecular weight aggregates, and an age-dependent transf

23 lipids, lignin, carbohydrates, and some low-molecular-weight aliphatic and aromatic compounds) aggre

24 Molecular weight, almost invariably the defining charact

25 otic chemistries, they can outperform higher molecular weight analogues.

26 estigated the effect of poly(l-lysine) (PLL) molecular weight and concentration on chondrogenesis of

27 Molecular weight and dispersity (D) are known to affect

28 OATP2B1 inhibitors, characterized by higher molecular weight and hydrophobicity compared to poor or

29 Here, we make use of the correlation of molecular weight and ion mobility in a trapped ion mobil

30 f "living" vinyl polymers with predetermined molecular weight and low dispersity.

31 del nuclear proteins in myotubes depended on molecular weight and nuclear import rate, as well as on

32 silk fibroin and peptide seeds, silk fibroin molecular weight and pH allows control over nanofibrils

33 monstrated that NKCC1 has an altered average molecular weight and reduced function.

34 of Tau pathology, and by virtue of their low molecular weight and relative solubility, oligomers may

35 The added molecular weight and structure of such fluorescent tag m

36 eability of PROTACs is limited by their high molecular weight and total polar surface area.

37 dentification of differences in the apparent molecular weight and, hence, the size of the complexes.

38 8 deficiency induced a reduction in apparent molecular weight and/or amount of the other TMC molecule

39 gned artificial IDPs (A-IDPs) with different molecular weights and aromatic content, which exhibit va

40 Ozonation decreases aromaticity, apparent molecular weight, and electron donating capacity (EDC) o

41 y of targets yielded hits with higher clogP, molecular weight, and more basic character than inactive

42 e-shaped protein complexes by using the CCS, molecular weight, and oligomeric states to mine the Prot

43 re predictive of known siderophore activity, molecular weights, and a measure of lipophilicity (log P

44 ontrolled radical polymerizations, identical molecular weights, and by maximizing carbon loads on the

45 Low molecular weight AR species were nuclear localized and c

46 nthetic globular polymers of several million molecular weight are unknown, and, yet, these structures

47 lar hydroarylation reactions to produce high molecular weight aromatic copolymers with 1,1-disubstitu

48 ver 1000 novel lariat peptide scaffolds with molecular weights around 1000.

49 C, possibly for its lower hydrophobicity and molecular weight as compared to DEX.

50 mportant role in their association into high molecular weight assemblies, their dynamics, their persi

51 mosphere for subsequent occurrence of a high-molecular-weight atmosphere using a simple model of atmo

52 Our results imply that in order to find high-molecular-weight atmospheres on warm exoplanets orbiting

53 h thick H(2)-dominated atmospheres lack high-molecular-weight atmospheres today.

54 species usually do not form long-lived high-molecular-weight atmospheres; instead, they are lost to

55 The choice of numerous viscosity grades and molecular weights available from different manufacturers

56 omplex-phosphorylated beta-catenin, but high-molecular-weight beta-catenin is unexpectedly increased

57 modified Flory-Rehner theory to predict the molecular weight between adjacent crosslinks, network me

58 ccess to low molecular weight oligomers, and molecular weights between 1 and 30 kDa can be targeted s

59 tistical differences have been found for low-molecular-weight biocompounds, PEGs, and nonhydrophobic

60 in drug development involves the use of high molecular weight, branched, and functionalized polymers

61 n affords aldehyde end-capped polymers whose molecular weight can be tuned by varying the ratio of ol

62 exhibited perfect regioregularity, and their molecular weights can be regulated by the loading of Gru

63 r-targeted radiopharmaceuticals based on low-molecular-weight carriers offer many clinically advantag

64 aliphatic in nature and contains novel high molecular weight chlorinated DBPs that are detected via

65 anules in Neoditomiya sp, consists of a high molecular weight complex of luciferin and proteins, appa

66 oxidation led to a shift of GRXS17 to a high-molecular-weight complex and thus activated its holdase

67 at uniquely probe weak interactions in large molecular weight complexes, we are able to map the bindi

68 OSY)-based NMR optimized for studies of high-molecular-weight complexes, we evaluate whether the path

69 we synthesized a beta-particle-emitting low-molecular-weight compound, (177)Lu-L1 which demonstrated

70 weight compounds, while the transfer of high molecular weight compounds (>1569 Da) to purees ranged f

71 and decarboxylation, and (ii) releasing low molecular weight compounds and inorganic nutrients from

72 applied as means to restrict access of high molecular weight compounds such as proteins.

73 Our efforts yielded low-molecular weight compounds that bind TAR with low microm

74 juices was five times lower than that of low molecular weight compounds, while the transfer of high m

75 argeting of biological macromolecules by low-molecular weight compounds.

76 In a phenotypic screen seeking low-molecular-weight compounds that protected beta-cells fro

77 This method of molecular weight control was then used to synthesize a f

78 nctional ROCOP system to demonstrate precise molecular-weight control, CTA functional group scope, an

79 with rac-8DL(R) (R=Et, Bu) have yielded high-molecular-weight, crystalline isotactic PHA copolymers t

80 HCPs in antibody drug substance by applying molecular weight cutoff (MWCO) filtration step followed

81 The type of self-healing mechanism is molecular weight dependent.

82 By intravenous injection of fluorescent high-molecular weight dextran, we confirmed leakage of the si

83 t little is known about the influence of the molecular weight distribution (MWD) shape on these prope

84 are known to be intrinsically related to its molecular weight distribution (MWD); however, previous m

85 The estimation of NEPs molecular weight distribution by HPLC-SEC demonstrated t

86 Size exclusion chromatography determines the molecular weight distribution of the PE polymer chains a

87 was developed for the prediction of DH% from molecular weight distributions.

88 :maleic amide molar ratios, chain sizes, and molecular weight distributions.

89 e extraction of microgram quantities of high-molecular-weight DNA from human stool samples that are s

90 es, respectively, enabling the study of high-molecular-weight DNA molecules using TROSY approaches or

91 the function of enzymes that degrade higher molecular weight DOM such as enzymes for aromatic carbon

92 ly included to modulate the transport of low molecular weight drug-like entities through the network.

93 quirement of the different species and their molecular weights, emphasizing the importance of separat

94 stress to support the hypothesis that lower molecular weight entities of disease protein are relevan

95 he actomyosin system and for insoluble, high molecular weight enzyme-protein assemblies in biopsy der

96 Tumours in mice genetically deficient in low-molecular weight FGF2 (FGF2(LMW)) regress dependent on T

97 ionalized norbornene copolymer in a range of molecular weights for specific materials applications.

98 ardiovascular system and binds only the high-molecular-weight form of adiponectin.

99 This is due to accumulation of a novel high-molecular-weight form of phosphorylated beta-catenin tha

100 otoxic activities were found in high and low molecular weight fractions.

101 to identify and map the binding sites of low molecular weight fragments that engage RNA or Chem-CLIP

102 as HYAL-1 resulting in pro-inflammatory low-molecular weight fragments.

103 An increase in molecular weight from 1569 Da to 3740 Da resulted in a f

104 Peptides with molecular weights from 12 to 35 kDa, with possible bioac

105 ure on supramolecular gels, we combine a low-molecular-weight gelator (LMWG) with the polymer gelator

106 ogel in situ based on Schiff base 2 as a low-molecular-weight gelator (LMWG).

107 tein and all categories of gliadins and high molecular weight glutenins.

108 ntracellular [Ca(2+)] ([Ca(2+)](i)) and high-molecular-weight glycoprotein secretion.

109 ds, with diameters on the order of 20 nm and molecular weights greater than 65 kDa, through a combina

110 availability, especially for large proteins (molecular weight > 50 kDa), which exhibit an average bio

111 y of giant pentagonal supramolecular prisms (molecular weight >50 kDa) with tetratopic pyridinyl subu

112 High-molecular weight HA (HMW-HA) is an important component o

113 of extracellular HA and accumulation of low molecular weight HA (LMW-HA) in tumor tissue was associa

114 Fragmentation of homeostatic high molecular weight HA promoted HPASMC proliferation in vit

115 genome editing and DNA detection but with a molecular weight half that of Cas9 and Cas12a genome-edi

116 pounds differing in chemical composition and molecular weight has been investigated.

117 Low molecular weight heparin (LMWH) in therapeutic doses is

118 ants (DOACs) may be good alternatives to low molecular weight heparin (LMWH) or vitamin K antagonists

119 a higher risk of bleeding compared with low-molecular-weight heparin (LMWH) in patients with GI and

120 Anticoagulants, primarily low-molecular-weight heparin and warfarin, are used to treat

121 th hydroxychloroquine, azithromycin, and low-molecular-weight heparin at anticoagulant dose.

122 gulants have been recently compared with low-molecular-weight heparin for the management of acute can

123 Direct oral anticoagulant versus low-molecular-weight heparin for treatment of venous thrombo

124 0 431 participants; 4139 included in the low-molecular-weight heparin group and 4139 in the control g

125 4.0%) of 3958 with available data in the low-molecular-weight heparin group compared with 279 (7.1%)

126 control population and 88 (2.1%) in the low-molecular-weight heparin group, and minor bleeding event

127 and 652 (16.6%) of 3937 patients in the low-molecular-weight heparin group.

128 Low-molecular-weight heparin reduces risk of venous thromboe

129 prefer full-dose oral Xa inhibitors over low-molecular-weight heparin, with gastrointestinal lesions

130 Vitamin K antagonists or low molecular weight heparins are still alternatives to DOAC

131 red the efficacy and safety of DOACs and low-molecular-weight heparins (LMWHs) in these patients.

132 Standard of care (low-molecular-weight heparins, unfractionated heparin, vitam

133 microalbuminuria patient contained both high molecular weight (HMW) (11%) and middle molecular weight

134 ocyst-depleted endothelial cells lacked high-molecular weight (HMW) forms of VWF, demonstrating the i

135 g peptide (P15-1), via interacting with high molecular weight (HMW)HA can enhance the anti-inflammato

136 ular weight (LMW, 126 < MW < 202) and higher molecular weight (HMW, 226 < MW < 302), i.e., smaller an

137 cell culture-derived, disulfide-linked high-molecular-weight (HMW) form of the E2 receptor-binding d

138 A high-molecular-weight (HMW) isoform (110 kDa) that contains a

139 Analysis of the high-molecular-weight (HMW) root exudates of both wheat and m

140 using HESI contained a large number of high molecular weight homologues containing sulfur and nitrog

141 lation of inflammatory and proangiogenic low molecular weight hyaluronan fragments.

142 We evaluated the mechanism by which high-molecular-weight hyaluronan (HMWH) attenuates nociceptor

143 or sensitization.SIGNIFICANCE STATEMENT High-molecular-weight-hyaluronan (HMWH) is used to treat oste

144 It behaves as a highly efficient low-molecular-weight hydrogelator with an extremely low crit

145 Besides, the molecular weight increase was similar for amylose and am

146 donating capacity, and decreased DOM average molecular weight (increased E2/E3 ratios).

147 cessful, structure-guided development of low molecular weight inhibitors specifically and selectively

148 ogically more favorable approaches using low-molecular-weight inhibitors has been hampered by low spe

149 MALDI imaging mass spectrometry (IMS) of low molecular weight ions is particularly challenging as MAL

150 gar-based glycan forms; about 50% of the Env molecular weight is composed of glycans.

151 -2.5) and concomitant increase in their low molecular weight isoforms (mean fold-change 6.4 and 8.3,

152 oteomic analyses revealed a decrease in high molecular weight isoforms of the major storage globulin

153 n overload, and BMSCs implantation with high-molecular-weight keratin hydrogel was selected as the in

154 The iron chelator-loaded low-molecular-weight keratin hydrogel with quick degradation

155 e reduced plasma prekallikrein, cleaved high molecular weight kininogen and elevated plasma bradykini

156 Plasma concentrations of cleaved high-molecular-weight kininogen (cHK), vascular endothelial g

157 -chain precursor form, PK-R371A cleaves high-molecular-weight kininogen (HK) to release bradykinin wi

158 FXII), prekallikrein (PK), and cofactor high-molecular-weight kininogen (HK).

159 inant FXII-W268R spontaneously triggers high-molecular-weight kininogen cleavage.

160 interpenetrated (semi-IPN) with PVA of lower molecular weight (L-PVA).

161 ants progressively yielded smaller-sized low-molecular-weight levans, as the affected subsites that w

162 affecting their ability to synthesized high-molecular-weight levans.

163 Methods: Five rationally designed low-molecular-weight ligands (L1-L5) were synthesized using

164 del allowing us to assemble a library of low-molecular-weight ligands predicted to bind the SAS-6 hea

165 from a UDP-sugar cofactor to relatively low-molecular weight lipophilic compounds.

166 high yields (up to 80 weight percent) to low-molecular-weight liquid/wax products, in the absence of

167 Low molecular weight (LMW) forms and monomers were the major

168 to the periplasm, such that little to no low-molecular weight (LMW) products are externally released

169 associates with an elevated abundance of low molecular weight (LMW) thiols, including glutathione (GS

170 esence and concentrations of PAHs with lower molecular weight (LMW, 126 < MW < 202) and higher molecu

171 s were used to produce breads from which low molecular weight (LMW-) peptides were extracted.

172 ost of the abundant PAHs identified were low molecular weight (LMW-PAH) (liver > muscle) with 2-3 aro

173 he nonconserved Cys-127 reacted with the low-molecular-weight (LMW) thiol mycothiol, protecting it fr

174 Here we identify such a low-molecular-weight (LMW)-dT source as mostly dTDP-glucose

175 btained hydrolysates, peaks corresponding to molecular weight lower than 38 kDa were noticed, while n

176 Furthermore, the inhibitors possess molecular weights <400 Da, log D(7.4) < 2.5, topological

177 l ligand polyinosinic-polycytidylic acid-low-molecular-weight/LyoVec and LPS to evaluate IFN-alpha an

178 function of the reciprocal sixth root of the molecular weight (M(w)(-1/6)), implying cylindrical conf

179 tion of PVP monomer concentration (C(m)) and molecular weight (M(w)) demonstrated end groups of PVP i

180 egree of hydrolysis (DH%) and weight-average molecular weight (M(w)) in milk protein hydrolysates.

181 to nine fractions (MA1-MA9) according to the molecular weight (m/z 200-1000) by modified aminopropyl

182 demonstrate that specific silencing of high-molecular-weight MAP2 in vivo abolished induction of lon

183 Low molecular weight metabolites are essential for defining

184 Here, we use MALDI timsTOF IMS to image low molecular weight metabolites at higher spatial resolutio

185 improved sensitivity, we have found >40 low molecular weight metabolites in human kidney tissue, suc

186 Of the 51 lipids, fatty acids, and low-molecular-weight metabolites, 21 were significantly rela

187 te measures: 51 lipids, fatty acids, and low-molecular-weight metabolites; 98 lipid composition and p

188 high molecular weight (HMW) (11%) and middle molecular weight (MMW) (28%) adiponectin, although the L

189 n of the entire impurity profile of the high molecular weight multifunctionalized PEG-maleimide conju

190 is symptom, possibly due to the loss of high-molecular-weight multimers of von Willebrand factor (VWF

191 rporating linear polymer segments varying in molecular weight (MW) and conformational degrees of free

192 termine the effect of altering the amount or molecular weight (MW) and, hence, viscosity of OBG in a

193 oteins, resulting in the formation of higher molecular weight (MW) complexes.

194 , and were significantly linearly related to molecular weight (MW) for PFASs with MW > 350 g/mol (R(2

195 We previously showed that infusion of high molecular weight (MW) free PEG can safely and effectivel

196 isoprene-derived organosulfates (OSs) with a molecular weight (MW) of 212 (C(5)H(8)SO(7)), which are

197 be serine protease and metalloprotease with molecular weight (MW) of 44 and 108 kDa.

198 pment of oat products often requires altered molecular weight (MW) of beta-glucan, the resulting heal

199 nically bound iodine (org-(129)I) with a low molecular weight (MW) range (0.5-5 kDa) in all soils and

200 (ee) landscape by measuring P(R(ee)) for low molecular weight (MW: 0.22-2.6 kDa) dilute PEO chains.

201 del, batch FO experiments concluded that low molecular weight neutral compound transfer is dependent

202 ne process that can selectively separate low molecular weight neutral compounds such as ammonia from

203 d to determine the transport behavior of low molecular weight neutral nitrogen compounds in order to

204 inants and the insufficient rejection of low-molecular-weight neutral organics by RO calls for the ne

205 ficients by fragmenting the structure of low-molecular-weight neutral organics into small parts that

206 hypertrophy increased the transport of high molecular weight nuclear proteins, while atrophy restric

207 ted complex polypeptide banding ranging from molecular weight of 11-75 kDa.

208 reported polymer channel, having an average molecular weight of 18.2 kDa and 3.6 nm in helical heigh

209 , characteristic of a levan, with an average molecular weight of 2.3 MDa.

210 degrades the polymer to an apparent limiting molecular weight of 28 kDa.

211 angstrom resolution for streptavidin, with a molecular weight of 52 kDa, from 11,000 particles.

212 n B/pH dual-sensitive block copolymer with a molecular weight of 92 kDa was synthesized to conjugate

213 molecules and antibodies by combining a low molecular weight of about 2 kDa with an antibody-like bi

214 has its limitation in terms of polarity and molecular weight of analyte molecules.

215 A Siglec-8-ligand with a molecular weight of approximately 1000 kDa was found in

216 Molecular weight of laccases and effect of OT upon these

217 Estimations based on the recently reported molecular weight of organic matter in urban aerosols (MW

218 harvest glyphosate application decreased the molecular weight of SDS extractable and unextractable pr

219 The results showed an increase of the molecular weight of starch chains.

220 talytic efficiency can be manipulated by the molecular weight of the A-IDP.

221 Irrespective of the temperature and the molecular weight of the conjugated polymer, we witness a

222 The purity and molecular weight of the PSMA ligands were confirmed by h

223 est contribution of the glycans to the total molecular weight of the S trimer (17% for the HEK293 gly

224 erestingly, there was a relation between the molecular weights of aglycone compounds and their antich

225 However, due to the large molecular weights of PROTACs, their cellular uptake rema

226 This method enables access to low molecular weight oligomers, and molecular weights betwee

227 of both monomer and dimer species with high-molecular-weight oligomers.

228 t self-assemble: trimers, hexamers, and high-molecular-weight oligomers.

229 e purification and the identification of low molecular weight oligosaccharides contained in an EtOH/w

230 Compounds which have higher molecular weight or larger K(oa) values tend to equilibr

231 ingdom produces hundreds of thousands of low molecular weight organic compounds.

232 organic matter (DOM) into inorganic and low-molecular-weight organic products, contributing to its c

233 The results allow characterization of high molecular weight PBPs as enzymes and not merely the targ

234 ns between anthocyanins and LF and its small molecular weight peptides, whereas providing insights fo

235 , revealing MPST's potential to generate low-molecular-weight persulfides.

236 DI (RDI) and one sustained (SDI) on the low molecular weight phenolics together with the antioxidant

237 ir cognate histidine kinases but also by low molecular weight phosphodonors such as acetyl phosphate

238 [e.g., B per 10-fold increase in summed low-molecular weight phthalates = - 1.7 (95% CI: - 3.1, - 0.

239 The MDA5/LGP2 agonist high molecular weight poly I:C improved the antitumor effect

240 The synthesis of high-molecular-weight poly(vinyl ethers) under mild condition

241 rticulate matter (PM) and the associated low molecular weight polycyclic aromatic hydrocarbons (PAHs)

242 rved, leading to lightly branched ultra-high molecular weight polyethylene with M(n) values up to 4.1

243 SS-GD) with beta-cyclodextrin-conjugated low-molecular-weight polyethyleneimime (CP) through supramol

244 fficient ROMP of BCH-Naphs yielded ultrahigh molecular weight polymechanophores with controlled MWs a

245 mino acids and nucleobases into a single low molecular weight precision polyamide polymer.

246 cleavages to the protein and retained large molecular weight products.

247 In contrast, the molecular weight protein size ladder ranging from 10 to

248 The temperature-dependent migration of molecular weight protein size standards and several biot

249 istinct protease activities in the LMP2 (low-molecular-weight protein 2), LMP7 (low-molecular-weight

250 (low-molecular-weight protein 2), LMP7 (low-molecular-weight protein 7), and MECL1 (multicatalytic e

251 has facilitated quantitative studies of high-molecular-weight protein complexes.

252 spectroscopy to detect and quantify the low-molecular-weight proteinaceous components of blood serum

253 entrations of amino acids, peptides, and low-molecular-weight proteins present in serum samples.

254 ) dysfunction typically characterized by low molecular weight proteinuria, renal tubular acidosis (RT

255 ate genomes, extraction of DNA of sufficient molecular weight, purity and quantity for metagenomic se

256 fractions of M1000 PrPSc located within the molecular weight range approximating monomeric PrP (mM10

257 to consistently identify HCPs across a broad molecular weight range at 10 ppm or above.

258 acrylate, and methyl methacrylate) in broad molecular weight ranges and compositions, yielding AB di

259 nctional catalysts for the conversion of low-molecular-weight reactants.

260 eractions, but also the wide range of polyol molecular weights readily available, different physicoch

261 e the efficacy and clinical potential of low-molecular-weight, receptor-targeted agents.

262 tein of approximately 80-200 kDa in the high molecular weight region.

263 ounds with respect to elemental composition, molecular weight, retention time, and ionization in posi

264 res similar to those of Earth and Venus-high-molecular-weight (secondary) atmospheres-on rocky exopla

265 different shapes, charges, and sizes (i.e., molecular weights spanning 44-160 kDa).

266 on and environmental behaviors of novel high molecular weight SPAs, toxicity effects of coexposure to

267 The results suggest that low molecular weight species (peak 6), related to the iron a

268 Low molecular weight species (peak 9), related to the phosph

269 f a mutant huntingtin protein-dependent high molecular weight species associated with pathogenesis.

270 nd coincides with the detection of both high molecular weight species of Rnq1 and large visible aggre

271 ring early magma ocean crystallization, high-molecular-weight species usually do not form long-lived

272 hasyn released after Rab27b KD was of higher-molecular-weight species, as determined by size-exclusio

273 ssential elements present in the form of low-molecular weight stable complexes known for their bio-av

274 tivity into the formation of amorphous, high molecular-weight structures that may contribute to the s

275 xygenated transformation products with lower molecular weight, such as n-alcohols in O(1) class and s

276 ation of acrylamide (AA), asparagine and low molecular weight sugars were evaluated during an industr

277 Trehalose polyphleates (TPP) are high-molecular-weight, surface-exposed glycolipids present in

278 Low molecular weight synthetic peptides have been demonstrat

279 and illuminated samples, the weight-average molecular weight, the radii of gyration of the starch po

280 GSH is a low-molecular-weight thiol-containing tripeptide (l-gamma-gl

281 a poly(oligo)amide of approximately similar molecular weight, thus completing a closed loop cycle fo

282 learance.Methods: The effects of a novel low-molecular-weight TMEM16A potentiator (ETX001) were evalu

283 ever, leads to a further 11-fold decrease in molecular weight to 2.5 kDa.

284 nt lactonization slowly (~days) degrades the molecular weight to 4.4 kDa, > 10x smaller than control

285 ectivity for ester formation with increasing molecular weight to favor the aldehyde due to van der Wa

286 ncy and metabolic stability and minimize the molecular weight to provide novel bicyclic next-generati

287 rneneimide) (PONI) homopolymers with varying molecular weights to stabilize and deliver engineered pr

288 ributed to several molecular features (i.e., molecular weight, type and number of amine functional gr

289 s of TAX1BP1 results in accumulation of high molecular weight ubiquitin conjugates and premature lipo

290 to proteasome inhibition and accumulate high-molecular weight, ubiquitylated proteins that are poorly

291 Low molecular weight, uncharged compounds have been the subj

292 lvent, with the latter scaling linearly with molecular weight up to its persistence length (l(p) ~ 0.

293 a range of compositions, monomer pairs, and molecular weights (up to 50000 amu), producing materials

294 f free PAI-1 and complexes of PAI-1 with low-molecular-weight urokinase-type plasminogen activator to

295 e a simple, inexpensive means of controlling molecular weight, using alpha olefins as chain transfer

296 thiols in beverages can be classified aslow molecular weight volatile thiols (e.g. H(2)S, methanethi

297 ndex eta( = B'/A') decreased with increasing molecular weight with values ranged from 4.7 x 10(-3)-11

298 s during reverse osmosis was correlated with molecular weight, with concentrations decreasing by 33%

299 s in DOM composition/optical properties with molecular weight within individual samples.

300 Today, low-molecular-weight Y(4)R ligands are lacking, in particula