ライフサイエンスコーパス: turnover number

1 sticizer syntheses, with high yield and TON (turnover number).

2 for erythrose and their catalytic capacity (turnover number).

3 dependent ATPase activity, albeit with a low turnover number.

4 ot catalysis (E111F), exhibits a decrease in turnover number.

5 ydroxychalcones and dienes in high yield and turnover number.

6 position 512 critically affects transporter turnover number.

7 ), combine to yield the overall observed low turnover number.

8 , still more than a 100-fold slower than the turnover number.

9 in high yield at rates that exceed the BZDOS turnover number.

10 more fully reduce the enzyme do not slow its turnover number.

11 oxidation reactions, in some cases with high turnover numbers.

12 rbon monoxide from CO2 selectively with high turnover numbers.

13 defluorinated with high conversions and high turnover numbers.

14 s giving a longer-lived catalyst with higher turnover numbers.

15 es C, which agree well with the experimental turnover numbers.

16 cular sieves, manifested by higher catalytic turnover numbers.

17 is kinetically competent with the enzymatic turnover numbers.

18 detection window ranging from single to high turnover numbers.

19 age to the protein, and produce higher total turnover numbers.

20 ciency hydroxychlorination with thousands of turnover numbers.

21 ees C, and at room temperature it exhibits a turnover number (0.07 s(-1)) comparable to bacterial DHN

22 These processes yield an apparent turnover number (0.5 s(-1) in atmospheric dioxygen) that

23 d loops that may explain the relatively high turnover number (280 s(-1) at pH 7.0) toward CDNB.

24 merization of acetylenes and exhibits a high turnover number (4371), activity (1.05 x 10(6) g(PPA) mo

25 activity in propene self-metathesis at mild (turnover number = 90000 after 25 h).

26 lipoyl protein domain had a 2-3-fold higher turnover number, a lower K(I) for NADH, and a higher K(I

27 The highest turnover number achieved by the mutants created for this

28 Turnover numbers, also known as kcat values, are fundame

29 al properties of D454C, i.e., a reduction in turnover number and a loss of voltage sensitivity, altho

30 C) in a single, scalable step with excellent turnover number and diastereoselectivity.

31 reductase (Frd) is notable both for its high turnover number and for its production of substantial O2

32 rve, is established between oxygen-reduction turnover number and the Lewis basicity of graphitic carb

33 o the wildtype (WT) Km value but had a lower turnover number and transfructosylation/hydrolysis ratio

34 Defining turnover number and turnover frequency (TOF) as reflecti

35 methylstyrene (20 bar H2, 40 degrees C) with turnover number and turnover frequency of ca. 540 and 1.

36 hol substrates and the immobilized catalyst, turnover numbers and frequencies approach 2 000 and 4 00

37 ate and camphorsulfonic acid, gives the best turnover numbers and reactivity with the broadest range

38 h high selectivity and activity and achieves turnover numbers and turnover frequencies reaching 98,00

39 formation of CH3OBR2 or (CH3OBO)3 with TON (turnover numbers) and TOF (turnover frequencies) reachin

40 The activation energy, turnover number, and equilibrium constant were 16.5 kcal

41 s of P450BM-3 due to its high affinity, high turnover number, and increased solubility as compared to

42 trafficking to and from the plasma membrane, turnover number, and protein phosphorylation.

43 O(2) yields, turnover numbers, and extensive kinetics data reveal sev

44 With these catalysts, turnover numbers approaching 1000 were possible for a va

45 ned their ability to mediate enzymatic total turnover numbers approaching or exceeding that of the na

46 with O(2) is decreased >or=100-fold and the turnover number approximately 1000-fold thus verifying t

47 utA(Hh) and PutA(Hp) exhibit 100-fold-higher turnover numbers (approximately 30 min(-1)) than PutA(Ec

48 ratio and an order of magnitude increase in turnover number are achieved by simply altering the fram

49 The obtained turnover numbers are orders of magnitude higher than tho

50 the relative k(cat)/K(m) values, the maximum turnover numbers are similar, suggesting that the 2'-pho

51 It introduces the notion of the limiting turnover number as a second key element of catalyst benc

52 nge depending on the source of the IgMs, and turnover numbers as great as 2.1/min were observed, sugg

53 , and a high catalyst stability has provided turnover numbers as high as 10,000.

54 riven hydrogen evolution reaction (HER) with turnover numbers as high as 1476.

55 essive decreases in the maximum steady-state turnover number, as well as lower apparent rate constant

56 hylidene species and provide good yields and turnover numbers at relatively low catalyst loading (<50

57 o alkynes and cycloisomerizations, with high turnover numbers at room temperature or slightly elevate

58 (NAD(+) by 50-fold, NADH by 75-fold) and the turnover numbers by 3-7-fold.

59 High turnover numbers (ca. 54,000) and turnover frequencies (

60 um in absence of substrate and, in turn, the turnover number can be modulated with mutational- and os

61 creased coupling efficiency and higher total turnover numbers compared with TxtE.

62 r) or greater, a number that agrees with the turnover number derived from steady-state kinetic method

63 240 h with a Faradaic efficiency of 90% and turnover numbers exceeding 100,000.

64 complexes of Ir has been demonstrated, with turnover numbers exceeding 10000 in some cases.

65 omplete conversion was low (<0.2 mol %), and turnover numbers exceeding 4000 were recorded.

66 rbonylation, a side reaction that limits the turnover number for catalytic hydroacylation.

67 generated CO with high selectivity, and its turnover number for CO formation reached 32 based on the

68 thiol-modified AuNPs by the enzyme, (iii) a turnover number for CtCDH immobilised on thiol-modified

69 The off-rate of GSDNB is similar to the turnover number for its enzymatic formation, suggesting

70 The turnover number for LAM from E. coli is 5.0 min(-1), 0.1

71 Kinetic analysis revealed a larger turnover number for ribosomes in comparison to eEF3, ind

72 The calculated turnover number for the catalyst during a 20-h period is

73 Most importantly, the turnover number for the hepatitis C NS5B(Delta21) is com

74 tion is 20-fold slower than the steady-state turnover number for the overall reaction, implying that

75 The turnover number for the single-stranded DNA-stimulated d

76 The turnover number for this steady-state reaction, however,

77 elatively stable GS-CH(2)F intermediate, the turnover numbers for a series of dihalomethanes fall in

78 Explicit turnover numbers for apparent PfCRT-mediated transport w

79 The turnover numbers for CH(3)CH(2)Cl, CH(3)CH(2)Br, and CH(

80 Even under non-optimised conditions, high turnover numbers for coupled FOx/peroxygenase catalysis

81 iments, in conjunction with the steady-state turnover numbers for dCDP formation of 2-14 s(-1) at RNR

82 The pD-rate profiles for k(cat) give turnover numbers for deuterium exchange into enzyme-boun

83 ecule levels demonstrate increased substrate turnover numbers for DNA nanocage-encapsulated enzymes.

84 When BGTP was the substrate, maximum turnover numbers for Galpha and Galpha(i1) were 8.3 +/-

85 erial enzymes, the diiron hydrogenases, have turnover numbers for hydrogen production from water as l

86 , are found to give extremely high rates and turnover numbers for n-alkane dehydrogenation, and yield

87 In contrast, turnover numbers for T5FEN decrease as the size of the D

88 The catalytic turnover numbers for the dealkylation of methylcobalamin

89 up to 92% ee and a 4-fold increase in total turnover number) for the production of (S)-salsolidine.

90 gue, fac-Re(1,10-phenanthroline)(CO)3Cl, and turnover numbers greater than 12,000.

91 on was sustained for more than one week with turnover numbers greater than 6x10(5) and 3x10(6), respe

92 e runs without significant loss of activity (turnover number > 2000).

93 Turnover numbers >800 have been demonstrated, with catal

94 iting reagent) and selectivity combined with turnover numbers >800.

95 In addition, a high turnover number (>3000) can be achieved.

96 boxylic acids has been developed with a high turnover number (>99 000) and turnover frequency (>2000

97 Catalyst efficiency, as measured by turnover number, has a strong inverse correlation with t

98 The turnover number in the forward direction (47 s(-1) at 25

99 ed the catalytic nature of the process, with turnover numbers in excess of 5 and essentially quantita

100 The turnover number increased approximately 38-fold at a mor

101 While the turnover number is low (0.5 s(-1)), Npl3p is rapidly pho

102 The apparent turnover number k(cat)(app) in these systems ranged from

103 n rate ( k dac = 13.95 +/- 0.013 s (-1)) and turnover number ( k cat = 13.92 +/- 0.001 s (-1)).

104 dingly, we establish the following trend for turnover number (k(cat)) and catalytic efficiency (k(cat

105 It had a similar turnover number (k(cat)) as the full-length enzyme but c

106 Average turnover number (k(cat)) at 1.1 s(-1) was calculated fro

107 The turnover number (k(cat)) for methylation was 88 and 32 h

108 protein, however, due to an increase in the turnover number (k(cat)) for the reaction.

109 ilar catalytic efficiency but a reduction in turnover number (k(cat)) from 78 to 58 h(-)(1).

110 respectively, values that corresponded to a turnover number (k(cat)) of 0.66 min(-1) and a catalytic

111 The calculated turnover number (K(cat)) of 43.2 pmol of GDP released pe

112 mM, with a V(max) of 7.9 +/- 0.3 mM min(-1), turnover number (k(cat)) of 6.7 x 10(-2) s(-1), and a ca

113 The Michaelis-Menten constant (k(m)) and turnover number (k(cat)) of purified total GSTs toward p

114 uces a substantial increase in the catalytic turnover number (k(cat)) of the RAG complex.

115 GCPII turnover number (k(cat)) was 4s(-1) and the binding cons

116 ization exchange, revealed that the enzyme's turnover number (k(cat)) was strongly correlated with pr

117 For all three enzymes, the turnover number (k(cat)) with glucuronate as a substrate

118 in the (+) half-site primarily decrease the turnover number (k(cat)*).

119 Enzyme turnover numbers (k (cat)s) are essential for a quantita

120 The turnover numbers (k(cat)) for the alpha, beta, and gamma

121 The turnover numbers (k(cat)) for the H3 tail peptide and rH

122 nary complex (thereby influencing the enzyme turnover number, k(cat)).

123 beta-alanine, and ATP, respectively, and the turnover number, k(cat), was 3.4 s(-1).

124 excellent transport substrate with apparent turnover number, K(m) and K(i) values of 5.8 s(-1), 4 mi

125 he key kinetic constants of these proteases, turnover number kcat and catalytic efficiency kcat/KM, a

126 Michaelis constant (Km = 3.3 mm) but a poor turnover number (kcat approximately 10 h(-1)).

127 Recombinant TbMTAP exhibited higher turnover number (kcat) and Km values for deoxyadenosine

128 schii AdoMetDC has a Km of 95 microm and the turnover number (kcat) of 0.0075 s(-1) at pH 7.5 and 22

129 outside-out orientation yielded a catalytic turnover number (kcat) of about 1 s(-1), a value that is

130 l findings that the impact is largely on the turnover number (kcat), with less substantial effects on

131 Our results indicate that low turnover numbers may be a general feature of I-CLiPs.

132 e compared these with the observed catalytic turnover numbers measured under steady-state conditions.

133 CaMKII inhibits NHE3 by an effect on its turnover number, not changing surface expression.

134 The smaller turnover numbers obtained in this experiment (k(cat) app

135 oxidized to triphenylphosphine oxide with a turnover number of >2000 mol.P/mol.cat.

136 dendrimer with 12 phenylseleno groups has a turnover number of >60 000 mol of H2O2 consumed per mole

137 conversion to hydrogen gas of ~4.0% (with a turnover number of >7,000 over 5 h, a frequency of >1,40

138 ty of 1muAcm(-2) with 10mM NAD(+) leads to a turnover number of 0.09electron/s/molRcFDH.

139 ture of UDP-d-apiose and UDP-d-xylose with a turnover number of 0.3 min-1.

140 H(2) by methanolysis of phenylsilane, with a turnover number of 10(5) and a turnover frequency surpas

141 f H(2) production for up to 4 h with a total turnover number of 10(6) before photocatalytic activity

142 rk lifetime of more than 5 days and a record turnover number of 1094+/-61 molH2 (molNi )(-1) for a de

143 A benchmark turnover number of 112+/-17 was attained with these TiO2

144 We demonstrated that syngas with a benchmark turnover number of 1330 and a desirable CO/H2 ratio of 1

145 0.001 mol% can be used, leading to a record turnover number of 18209.

146 10 min at an overpotential of 852 mV, and a turnover number of 2.5 x 10(4).

147 Tn oligomers, NTP hydrolysis occurred with a turnover number of 20-25 min(-1) and the observed S0.5 v

148 length, NTP hydrolysis still occurred with a turnover number of 20-25 min(-1), but the observed S0.5

149 e active in vitro, with the fastest having a turnover number of 22 +/- 1 s(-1) -sixfold faster than t

150 lly, allylation proceeded efficiently with a turnover number of 2200 at room temperature, which is un

151 lpha-silyl esters at room temperature with a turnover number of 2200.

152 M) catalyzed 5% degradation over 10 h with a turnover number of 40.

153 The results revealed an enzyme turnover number of 51.1 +/- 3.2 s(-1) for this heterogen

154 ndolyl-ethane, with a K(m) of 3 microM and a turnover number of 53 min(-1).

155 An exceptional turnover number of 570 000 for CH(4) production via a ph

156 E. coli pyrophosphatase was found to have a turnover number of 570 s(-1) under the same conditions.

157 Pt@2 gave a turnover number of 7000, approximately five times the va

158 NADH consumption was assessed at a turnover number of 720 electrons per second.

159 ction proceeds at a low driving force with a turnover number of 9 x 10(9) cell(-1) and turnover frequ

160 cm(-2) , lambda>300 nm) with a cobalt-based turnover number of 90 for CO after 60 h.

161 For endogenous hCTR1, we estimated a turnover number of about 10 ions/trimer/s.

162 from Pseudomonas aeruginosa has the highest turnover number of all characterized IGPS enzymes, provi

163 t room temperature, representing the highest turnover number of any Fe-based N2 silylation catalyst t

164 lates, but not trans-3-haloacrylates, with a turnover number of approximately 10 s(-1).

165 rate of 1 N(TMS)3/min, ultimately reaching a turnover number of approximately 200.

166 d equivalent in FeEnt uptake, with a maximum turnover number of approximately 5/min.

167 While TPX2 binding has no effect on the turnover number of AurA and does not change the reaction

168 We determined a turnover number of eight peptides per minute, which is t

169 or phenylalanine considerably increases the turnover number of neuronal NOS (nNOS).

170 state and is predicted to enhance the kinase turnover number of PKCalpha during a single membrane doc

171 time scale that is >10-fold slower than the turnover number of PutA.

172 ith this method, we can measure directly the turnover number of SHV-1 and tazobactam.

173 We quantify the turnover number of the catalytic reaction at the single

174 The turnover number of the catalytic RNA was found to depend

175 gh level of expression and a relatively high turnover number of the efflux pumps in gram-negative bac

176 The logarithm of the turnover number of the enzyme increases steeply with pH

177 Since the turnover number of the enzyme under the same conditions

178 barrier that is consistent with the observed turnover number of the enzyme.

179 resent in excess is a key determinant of the turnover number of the G-quadruplex DNAzyme; decompositi

180 The turnover number of the immobilized enzyme was estimated

181 s of the hydride economy and measured by the turnover number of the nicotinamide cofactor(s).

182 Mutations at position 179 also affected the turnover number of the ornithine carrier severely, imply

183 ily due to their differential effects on the turnover number of the reaction.

184 of the hydroxyl group of A621 inhibited the turnover number of the ribozyme significantly, this acti

185 The turnover number of this enzyme was found to be in the or

186 ze the HDF of C(6)F(5)H with Et(3)SiH with a turnover number of up to 200 and a turnover frequency of

187 A turnover number of up to 5700 could be achieved in a sin

188 ng the catalyst-substrate interaction times, turnover numbers of (0.6-1.2) x 10(4) and (3.0-5.0) x 10

189 With turnover numbers of 0.16-13 s(-1), these enzymes pose a

190 strate (S), and allosteric effector (E) with turnover numbers of 0.2-0.7 s(-1).

191 Assays with BGTPgammaS yielded maximum turnover numbers of 1.6 +/- 0.1 x 10(-4) and 5.5 +/- 0.3

192 sterol 14alpha-demethylation with respective turnover numbers of 1.7 min(-1), 5.6 min(-1) and 3.4 min

193 scal pressure led to yields as high as ~52%, turnover numbers of 100, and improved chemoselectivity f

194 - 2 microM, respectively, with corresponding turnover numbers of 2.08, 1.65, and 1.32 s(-1), respecti

195 ohexene as the H2 acceptor) with cooperative turnover numbers of 22/3 (Ir/Ta).

196 xtremely low Km for acrylyl-CoA (<3 muM) and turnover numbers of 45 to 80 s(-1).

197 Turnover numbers of 5 min-1 are observed for Zn-CmaC, ac

198 e 6 h experiment, MOF-1992/CB cathodes reach turnover numbers of 5800 with turnover frequencies of 0.

199 Enzyme-based turnover numbers of 6000 mol succinate (mol FccA)(-1) an

200 e screening of the catalytic system, maximum turnover numbers of 786 for dimethoxymethane and 1290 fo

201 ethers, amines, and unactivated alkanes with turnover numbers of 930, 790, and 950, respectively.

202 iven hydroxylation of lauric acid with total turnover numbers of 935 and initial reaction rate of 125

203 Notably, this system demonstrated turnover numbers of 940 000 (for beta-alkylation of seco

204 al groups and displayed unprecedentedly high turnover numbers of approximately 2.5 x 10(6) and turnov

205 After optimization, turnover numbers of approximately 50 were achieved with

206 st activity, generating approximately 40,000 turnover numbers of H2 over 12 d (with respect to dye).

207 the bottleneck for determining the specific turnover numbers of individual whole-cell biocatalysts.

208 Turnover numbers of MBP-G9aDelta634 for various substrat

209 ng determination of the remarkable intrinsic turnover numbers of O2 (*-) to O2 by PEG-HCCs at >20,000

210 The turnover numbers of SULTs did not change, except for SUL

211 The turnover numbers of the enzyme with CH(3)CH(2)Br and CH(

212 ns revealed a 15-20-fold decrease in overall turnover numbers of the hybrid modules as compared to th

213 e kinetic data were employed to simulate the turnover numbers of the various CBS-catalyzed reactions

214 completed within shorter reaction times, and turnover numbers of up to 100 could be achieved.

215 Impressively, sal-Fe-MOF displayed very high turnover numbers of up to 145000 and was recycled and re

216 Turnover numbers of up to 200 were routinely obtained.

217 etoxifying a chlorinated model compound with turnover numbers of up to 200, but it can also be employ

218 Q240A variant biocatalysts displaying total turnover numbers of up to 32,000 and space time yields u

219 catalyst loadings as low as 0.002 mol %, and turnover numbers of up to 43,000 were achieved without r

220 d 3-alkylindoles and bisindolylmethanes with turnover numbers of up to 500 and 460, respectively, ill

221 he Mg-functionalized MOF displayed very high turnover numbers of up to 8.4 x 10(4) for ketone hydrobo

222 tivity of >99%, yields up to 95%, and a TON (turnover number) of 4750 in 15 h.

223 bstrates with low micromolar K(m) values and turnover numbers on the order of hundreds per second.

224 The sensitization efficiency (turnover number per absorbed unit of photon energy) of t

225 ding nor catalysis (H112Q) exhibits the same turnover number per active subunit as wild-type IDE.

226 oduction of PPC polyols, outstanding yields (turnover numbers), quantitative carbon dioxide uptake (>

227 nt enzymes exhibit a decrease in V/E(t) (the turnover number), ranging from 7- to 67-fold.

228 ction of hydrogen from neutral water, with a turnover number reaching 5.5 x 10(4) mol of H(2) per mol

229 High turnover numbers reflect the enhanced stability of the e

230 often feature high catalyst loading and low turnover numbers relative to non-oxidative cross-couplin

231 To date, this is the highest turnover number reported for a first-row transition meta

232 7-fold increases in ATP binding affinity and turnover number, respectively.

233 M was determined to be 0.94 mm, and it has a turnover number similar to BHMT.

234 E showed comparable kinetic parameters, with turnover number similar to that of carboxypeptidase and

235 dissociation constants of less than 8 nM and turnover numbers similar to palmitic acid and N-palmitoy

236 (>5 days) than the protein-film (<6 h), with turnover numbers surpassing those of the protein-film af

237 her known substrate and reacts with a higher turnover number than palmitic acid but with unaltered re

238 ith blue light produces oxygen with a higher turnover number than the analogous intermolecular compon

239 a 3-fold higher Km value and a 4-fold higher turnover number than WT.

240 Carriers are characterized by turnover numbers that are typically 1,000-fold lower tha

241 igh tolerance of functional groups, and with turnover numbers that exceed those of previous catalysts

242 ein, but the FhuA constructs functioned with turnover numbers that were equivalent to wild type.

243 capable of carrying out more than a million turnover numbers (TNs) at pH 7 with an Eapp =1.45 V vs.

244 ith a maximum rate of 941 mumol h(-1) g(-1), turnover number TON(Ni) > 103, and total projected TON(N

245 demonstrates a more-than-3-fold increase in turnover number (TON(CO) = 100 +/- 4) and quantum yield

246 and aerobic conditions, with a cobalt-based turnover number (TON(Co)) of up to 420.

247 of saturated N-heterocycles with the highest turnover number (TON) (1 mol% of 1, 12 h, TON = 62; 0.1

248 xtends catalyst lifetime to increase the Met turnover number (TON) 3-fold compared with H2O2, highlig

249 t loadings down to 500 ppm and the catalytic turnover number (TON) and turnover frequency (TOF) regis

250 The turnover number (TON) and turnover frequency (TOF) value

251 and stereoselectivities and with a catalyst turnover number (TON) as high as 1000.

252 f 76% and stability over 7 h with a per-site turnover number (TON) of 1400.

253 SHE) for 20 hours with a turnover number (TON) of 266 300, and photolytic HER for

254 perior catalysis is observed in water with a turnover number (TON) of 5700 over 18 h.

255 The bimetallic precatalyst 4, with a turnover number (TON) of 9784, proved to be significantl

256 of continuous reaction, achieving a maximum turnover number (TON) of 9900.

257 zes H2 production over 1 week and achieves a turnover number (TON) of as high as 6500 with almost no

258 nstrate alpha-alkylation of aldehydes with a turnover number (TON) of over 52,000 under visible light

259 g(-1) under full arc), which leads to a high turnover number (TON) of over 641 after 6 h.

260 nduced air-water-CO(2) reduction with a high turnover number (TON) of ~10(6)-10(8) (mols of product p

261 electively oxidized to glyceraldehyde with a turnover number (TON) of ~1000 and Faradaic efficiency (

262 egrees C for oxidation of NH(3), the highest turnover number (TON) reported to date for a molecular c

263 and at catalyst loadings down to 0.1 mol % (turnover number (TON)=740).

264 alladacycles have been used to generate high turnover numbers (TON's) and turnover frequencies (TOF's

265 Turnover numbers (TON) up to 10 000 are observed for ali

266 onate) formed was in the range of 92-99% and turnover numbers (TON) were close to 500; in the case of

267 degrees C, 1 bar N(2)O), together with high turnover numbers (TON, up to 6700) and turnover frequenc

268 ong-lived and remarkably efficient with high turnover numbers (TONs) and turnover frequencies (TOFs)

269 s used to catalyze alkene hydrogenation with turnover numbers (TONs) as high as 700,000.

270 ting S or Se for O in the xanthene ring give turnover numbers (TONs) as high as 9000 for the generati

271 3030COA:3030TBE:1p-XPCPIrHCl (4):1.1NaOtBu, turnover numbers (TONs) between 1400 and 2200 (up to 72%

272 In many cases, catalyst turnover numbers (TONs) of more than 100,000 were achiev

273 activity during solar light irradiation with turnover numbers (TONs) of more than 50,000 mol H2(mol H

274 enorhodamine dye generate more hydrogen [181 turnover numbers (TONs) with respect to chromophore] tha

275 These homogeneous systems exhibited low turnover numbers (TONs).

276 f the distal disulfide does not increase the turnover number toward DTT.

277 binding affinities and steady-state kinetic turnover numbers toward native (K(d)(S6K1) = 1.2 microm

278 ethers with excellent mass balance and high turnover numbers under 1 atm of O2 with no need for any

279 hloroperbenzoic acid (mCPBA) occur with high turnover numbers under mild conditions, but the mechanis

280 dine-free complex, enabling higher catalytic turnover numbers under milder conditions.

281 faradaic efficiency of 96 %, an exceptional turnover number up to 320 000, and a long-term turnover

282 catalysing acid addition to alkynes, with a turnover number up to 99,000.

283 ve olefin metathesis catalysts, allowing for turnover numbers up to 10,000 in various olefin metathes

284 lay highly efficient catalase activity, with turnover numbers up to 10,000.

285 ender the system catalytic, with cooperative turnover numbers up to 48 and yields up to 83%.

286 en production rates up to 286 s(-1) and high turnover numbers up to 55,400.

287 The catalysts have turnover numbers up to 6000 and turnover frequencies of

288 reaction of ethanol to 1-butanol, providing turnover numbers up to 725 000 Ru(-1).

289 gh product yields (88-99%) and high catalyst turnover numbers (up to 10,000 TON).

290 beta-lactones, catalyst 1 exhibits excellent turnover numbers (up to 10,000) and turnover frequencies

291 High turnover numbers (up to 2000 for homocoupling of 1-octen

292 s exhibit high Faradaic efficiency (90%) and turnover numbers (up to 290,000, with initial turnover f

293 igh selectivity toward methanol and catalyst turnover numbers (up to 3170) was achieved.

294 At 37 degrees C, the enzyme shows a maximal turnover number (V(max)) of 670 s(-1) and K(m) values fo

295 The B-isozyme has a turnover number (V/Et) 12.5-fold higher than the A-isozy

296 t loss of activity and selectivity, and high turnover number was obtained.

297 Biocatalyst turnover numbers were analyzed using rationally designed

298 The turnover number with CH(2)I(2) is also dependent on visc

299 CrPGK1 oxidation was found to affect the turnover number without altering the affinity for substr

300 racter of the solid catalyst (at least 30000 turnover numbers without any loss of activity).