Высокоэффективные лактатные биосенсоры на основе инженерии иммобилизованной лактатоксидазы (1105559), страница 26
Текст из файла (страница 26)
1991. T. 3. C. 485-491.131. Quinto M., Losito I., Palmisano F., Zambonin C. G. Disposable interference-freeglucose sensor based on electropolymerized poly(pyrrole) permselective film // Anal.Chim. Acta. 2000. T. 420. C. 9-17.132. Quinto M., Losito I., Palmisano F., Zambonin C. G. Disposable interference-freeglucose biosensor based on an electropolymerised poly (pyrrole) permselective film //Anal. Chim. Acta. 2000. T. 420, № 1. C. 9-17.133. Sullivan P. A., Soon C. Y., Schreurs W. J., Cutfield J. F., Shepherd M. G. Structureof L-lactate oxidase from mycobacterium-smegmatis // Biochem. J.
1977. T. 165, № 2.C. 375-389..134. Li S. J., Umena Y., Yorita K., Matsuoka T., Kita A., Fukui K., Morimoto Y.Crystallographic study on the interaction of l-lactate oxidase with pyruvate at 1.9 Åresolution // Biochem. Biophys. Res. Comm. 2007. T. 358, № 4. C.
1002-1007.135. Umena Y., Yorita K., Matsuoka T., Kita A., Fukui K., Morimoto Y. The crystalstructure of l-lactate oxidase from Aerococcus viridans at 2.1Å resolution reveals themechanism of strict substrate recognition // Biochem. Biophys. Res. Comm. 2006.
T.350, № 2. C. 249-256.136. Yorita K., Misaki H., Matsumoto M., Massey V. Function of two arginine residuesof l-lactate oxidase // Intern. Cong. Ser. 2002. T. 1233. C. 69-75.137. Rahman M. M., Shiddiky M. J. A., Rahman M. A., Shim Y.-B. A lactate biosensorbased on lactate dehydrogenase/nictotinamide adenine dinucleotide (oxidized form)immobilized on a conducting polymer/multiwall carbon nanotube composite film // Anal.Biochem. 2009.
T. 384, № 1. C. 159-165.138. Al-Jawadi E., Pöller S., Haddad R., Schuhmann W. NADH oxidation usingmodified electrodes based on lactate and glucose dehydrogenase entrapped between anelectrocatalyst film and redox catalyst-modified polymers // Microchim.
Acta. 2012. T.177, № 3-4. C. 405-410.139. Tsuchiya M., Matsuhisa H., Hasebe Y. Selective amperometric response tohydrogen peroxide at a protein-incorporated sol-gel hybrid film-modified platinumelectrode // Buns. Kagaku/Japan Analyst. 2012. T. 61, № 5. C. 1-5.140. Zanini V. P., de Mishima B. L., Labbé P., Solís V. An L‐Lactate amperometricenzyme electrode based on L‐lactate oxidase immobilized in a laponite gel on a glassycarbon electrode.
Application to dairy products and red wine // Electroanalysis. 2010. T.22, № 9. C. 946-954.141. Zanini V. P., de Mishima B. L., Solís V. An amperometric biosensor based onlactate oxidase immobilized in laponite–chitosan hydrogel on a glassy carbon electrode.Application to the analysis of l-lactate in food samples // Sens. Actuators B. 2011. T. 155,№ 1.
C. 75-80.142. Palmisano F., Rizzi R., Centonze D., Zambonin P. G. Simultaneous monitoring ofglucose and lactate by an interference and cross-talk free dual electrode amperometric159biosensor based on electropolymerized thin films // Biosens. Bioelectron. 2000. T. 15, №9. C. 531-539.143. Palmisano F., De Benedetto G. E., Zambonin C. G. Lactate amperometric biosensorbased on an electrosynthesized bilayer film with covalently immobilized enzyme //Analyst.
1997. T. 122, № 4. C. 365-369.144. Ito N., Miyamoto S., Kimura J., Karube I. The detection of lactate using the repeatedapplication of stepped potentials to a micro-planar gold electrode // Biosens. Bioelectron.1996. T. 11, № 1. C. 119-126.145. Minagawa H., Nakayama N., Matsumoto T., Ito N. Development of long life lactatesensor using thermostable mutant lactate oxidase // Biosens. Bioelectron. 1998. T.
13, №3. C. 313-318.146. Ito N., Miyamoto S., Kimura J., Karube I. The detection of lactate using the repeatedapplication of stepped potentials to a micro-planar gold electrode // Biosens. Bioelectron.1996. T. 11, № 1-2. C. 119-126.147. Minagawa H., Nakayama N., Matsumoto T., Ito N. Development of long life lactatesensor using thermostable mutant lactate oxidase // Biosens. Bioelectron. 1998. T. 13, №3-4. C. 313-318.148.
Hart A. L., Turner A. P. F., Hopcroft D. On the use of screen- and ink-jet printing toproduce amperometric enzyme electrodes for lactate // Biosens. Bioelectron. 1996. T. 11,№ 3. C. 263-270.149. Hart A. L., Cox H., Janssen D. Stabilization of lactate oxidase in screen-printedenzyme electrodes // Biosens. Bioelectron. 1996. T. 11, № 8. C. 833-837.150. Guiseppi-Elie A., Brahim S., Slaughter G., Ward K. R. Design of a subcutaneousimplantable biochip for monitoring of glucose and lactate // Sens. J., IEEE. 2005. T.
5, №3. C. 345-355.151. Hirano K., Yamato H., Kunimoto K., Ohwa M. Novel electron transfer mediators,indoaniline derivatives for amperometric lactate sensor // Sens. Actuators B. 2002. T. 86,№ 1. C. 88-93.152. Gomes S. P., Odložilíková M., Gabriela Almeida M., Araújo A. N., Couto C. M. C.M., Montenegro M. C. B. S. M. Application of lactate amperometric sol–gel biosensor tosequential injection determination of l-lactate // J. Pharmac. Biomed. Anal. 2007.
T. 43,№ 4. C. 1376-1381.153. Karyakin A. A., Karyakina E. E., Gorton L., Bobrova O. A., Lukachova L. V.,Gladilin A. K., Levashov A. V. Improvement of electrochemical biosensors usingenzyme immobilization from water−organic mixtures with a high content of organicsolvent // Anal. Chem. 1996. T.
68, № 24. C. 4335-4341.154. Karyakin A. A., Kotel'nikova E. A., Lukachova L. V., Karyakina E. E., Wang J.Optimal environment for glucose oxidase in perfluorosulfonated ionomer membranes: improvement of first-generation biosensors // Anal. Chem. 2002. T. 74, № 7. C. 15971603.155. Braun S., Rappoport S., Zusman R., Avnir D., Ottolenghi M. Biochemically activesol-gel glasses: the trapping of enzymes // Mater.
Lett. 1990. T. 10, № 1. C. 1-5.160156. Pandey P. C., Upadhyay S., Pathak H. C. A New glucose biosensor based onsandwich configuration of organically modified sol‐gel glass // Electroanalysis. 1999. T.11, № 1. C. 59-64.157. Collinson M. M. Recent trends in analytical applications of organically modifiedsilicate materials // TrAC Trends in Anal. Chem. 2002.
T. 21, № 1. C. 31-39.158. Lev O., Wu Z., Bharathi S., Glezer V., Modestov A., Gun J., Rabinovich L.,Sampath S. Sol-gel materials in electrochemistry // Chem. Mater. 1997. T. 9, № 11. C.2354-2375.159. Walcarius A. Electrochemical applications of silica-based organic-inorganic hybridmaterials // Chem. Mater. 2001. T. 13, № 10. C.
3351-3372.160. Tripathi V. S., Kandimalla V. B., Ju H. Preparation of ormosil and its applications inthe immobilizing biomolecules // Sens. Actuators B. 2006. T. 114, № 2. C. 1071-1082.161. Wang B., Li B., Deng Q., Dong S. Amperometric glucose biosensor based on solgel organic-inorganic hybrid material // Anal. Chem. 1998. T. 70, № 15. C. 3170-3174.162. Электрохимия полимеров.
/ Тарасевич М. Р.: Наука. 1990. C. 97-112.163. Schwake A., Ross B., Cammann K. Chrono amperometric determination ofhydrogen peroxide in swimming pool water using an ultramicroelectrode array // Sens.Actuators B. 1998. T. 46, № 3. C. 242-248.164. Тимонов А. М. Твердые полимерные электролиты: структура, свойства иприменение // Сорос. Образов. Журн. 2000. T. 6, № 8. C. 69-75.165. Rubinstein I., Bard A.
J. Polymer films on electrodes. 4. Nafion-coated electrodesand electrogenerated chemiluminescence of surface-attached tris (2, 2'-bipyridine)ruthenium (2+) // J. Am. Chem. Soc. 1980. T. 102, № 21. C. 6641-6642.166. Olah G. A., Prakash G. K. S., Arvanaghi M. Stable carbocations. 232. Significantmesomeric nitrenium ion character of the cyanodiphenylmethyl cation. The first longlived cyanocarbenium ion // J. Am. Chem. Soc.
1980. T. 102, № 21. C. 6640-6641.167. Wang J., Dempsey E., Ozsoz M., Smyth M. R. Amperometric enzyme electrode fortheophylline // Analyst. 1991. T. 116, № 10. C. 997-999.168. Chen C.-Y., Tamiya E., Ishihara K., Kosugi Y., Su Y.-C., Nakabayashi N., KarubeI. A biocompatible needle-type glucose sensor based on platinum-electroplated carbonelectrode // Appl. Biochem.
Biotechnol. 1992. T. 36, № 3. C. 211-226.169. Yao T. Enzyme electrode for the successive detection of hypoxanthine and inosine //Anal. Chim. Acta. 1993. T. 281, № 2. C. 323-326.170. Turner R. F. B., Harrison D. J., Rajotte R. V., Baltes H. P. A biocompatible enzymeelectrode for continuous in vivo glucose monitoring in whole blood // Sens. Actuators B.1990.
T. 1, № 1. C. 561-564.171. Binnig G., Rohrer H., Gerber C., Weibel E. Surface studies by scanning tunnelingmicroscopy // Phys. review lett. 1982. T. 49, № 1. C. 57-62.172. Bard A. J., Fan F. R. F., Kwak J., Lev O. Scanning electrochemical microscopy introduction and principles // Anal. Chem. 1989. T. 61, № 2. C.
![](https://s.studizba.com/z.php?f=/templates/si/i/noavatar.png&w=100&h=100&t=1"){kind=avatar}
