Bisensors for amino acids

Jinlan Xia; Yexiang Liu; J M Levert

doi:10.1007/BF02652085

Journal of Central South University ›› 1994, Vol. 1 ›› Issue (1) : 51 -58. DOI: 10.1007/BF02652085

Article

Bisensors for amino acids

Author information +

History +

PDF

Abstract

Two kinds of biosensors for amino acids (one with nonspecific enzyme as bioelement, the other with specific enzyme(s) as bioelement), including their principles, applications, recent researches and future trends were discussed in detail. 61 references were given.

Keywords

biosensors / amino acids / enzymes enzyme electrodes

Cite this article

Download citation ▾

Jinlan Xia, Yexiang Liu, J M Levert. Bisensors for amino acids. Journal of Central South University, 1994, 1(1): 51-58 DOI:10.1007/BF02652085

登录浏览全文

4963

注册一个新账户忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within

[1]	Beijing Medical Science CollegeBiochemistry, 1978, Beijing, People’s Health Press: 192-230(in Chinese)

[2]	ItoM. Long-term depression. Ann Rev Neurosci, 1989, 12: 85-102

[3]	HoffmanR. M.. Altered methionine metabolism, DNA methylation and oncogene expression in carcinogenesis. Biochim Biophys Acta, 1984, 738: 49-87

[4]	McClungG, FrankenbergerW T. Comparison of reverse-phase high performance liquid chromatographic methods for pre-column derivatized amino acids. J Liq Chromatogr, 1988, 11: 613-646

[5]	MaljoyM, ReynaudJ A. Electrochemical investigations of amino at solid electrods: Part I. Amino acids containing no sulfur atoms: tryptophan, tyrosine, histidine and derivatives. J Electroanal Chem, 1980, 114: 213-223

[6]	LunteS M. Pre-and post-column derevitization reaction for liquied chromatography-electrochemistry. Trends Anal Chem, 1991, 10(3): 97-102

[7]	VillartaR L, PalleschiG, SuleimanA, et al.. Determination of glutamine in serum using an amperometric enzyme electrode. Electroanalysis (N Y), 1992, 4(1): 27-32

[8]	TamiyaE, KaubeI. Micro-biosensors for clinical analses. Sens Actuators, 1988, 15(2): 199-207

[9]	MaleK B, LuongJ H T, MulchandaniA. Determination of aspartame in dietary food products by a FIA biosensor. Biosens Bioelectronics, 1991, 6(2): 117-123

[10]	LavagniniM G, MosconeD, PalleschiG, et al.. Amperometric lysine bioprobe analysis in feeds. Talanta, 1993, 40(8): 1301-1306

[11]	CattaneoM V, LuongJ H T, MercilleS. Monitoring glutamine in mammalian cell cultures using an amperometric biosensor. Biosens Bioelectronics, 1992, 7(5): 329-334

[12]	RennebergR, Trott-KriegeskorteG, LietzM, et al.. Enzyme sensor-FIA system for on-line monitoring of glucose, lactate and glutamine in animal cell cultures. J Biotechnol, 1991, 21: 173-186

[13]	SimonianA L, KhachatrianG E, TatikianS Sh, et al.. Flow-through enzyme analyzer for determination of L-lysine concentration. Biosens Bioelectronics, 1991, 6(2): 93-99

[14]	KissR D, StephanopoulosG, FollettieM T. Quantitative assay for low levels of L-threonine in amino acid fermentation broths. Biotechnol Bioeng, 1990, 35(11): 1169-1173

[15]	GuilbaultG G, LubranoG T. Amperometric enzyme electrodes. Anal Chim Acta, 1974, 69: 183-188

[16]	GuibaultG G, HrabankovaE. New enzyme probes forD-amino acids and asparagine. Anal Chim Acta, 1971, 56: 285-290

[17]	SchellerF, SchubertFTechnique and instrumentation in analytical chemistry: Vol 11. Biosensors, 1992, Amsterdam, Elsevier: 158-158

[18]	RaduG L, CouletP R. Characteristics and performance of a novel L-amino acids enzyme electrode. Analysis, 1993, 21: 101-105

[19]	KauffmanJ M, GuilbaultG GClarenceH S, LarryK. Enzyme electrode biosensors. Theory and Application in Bioanalytical Applications of Enzyme: Vol 36. Bioanalytical Application of Enzyme, 1992, New York, John Willey & Sons: 87-87

[20]	PaulW S, AlexanderM Y. Mediated amperometric biosensors. Bull Electrochem, 1992, 8(4): 181-185

[21]	VillartaR L, CunninghamD D, GuibaultG G. Amperometric enzyme electrodes for the determination of L-glutamate. Talanta, 1991, 38(1): 49-55

[22]	NikolelisD, HadjiioannouT P. Construction of an arginine enzyme electrode and determination of arginine in biological materials. Anal Chim Acta, 1983, 147: 33-39

[23]	SchubertF, KirsteinD, SchellerF, et al.. Enzyme electrodes for L-glutamate using chemical redox mediators and enzymic substrate amplification. Anal Lett, 1986, 19: 1273-1288

[24]	HuchH, Schelter-grafA, DanzerJ, et al.. Bioelectrochemical detection systems for substrates of dehydrogenases. Analyst, 1984, 109: 147-150

[25]	Fatibello-FilhoO, SuleimanA A, GuibaultG G, et al.. Bienzymic electrode for the determination of aspartame in dietary products. Anal Chem, 1988, 60: 2397-2399

[26]	VillartaR L, PalleschiG, LubranoG J, et al.. Amperometric aspartate electrode. Anal Chim Acta, 1991, 245: 63-69

[27]	YuBaoming, ChenWenhui, GuoMinliang. Development and application of L-lysine dienzyme electrodes. Analytical Chemistry, 1992, 20(1): 75-75(in Chinese)

[28]	KauffmannJ M, GuilbaultG GClarenceH S, LarryK. Enzyme electrode biosensors. Theory and Applications in Bioanalytical Applications of Enzyme: Vol 36. Bioanalytical Applications of Enzyme, 1992, New York, John Willey & Sons: 71-71

[29]	CouletP R. Polymeric membranes and coupled enzymes in the design of biosensors. J Membrans Sci, 1992, 68(3): 217-228

[30]	DurliatH, MontagneM, ComtatM. Electrochemical biosensors—some recent developments. Bull Electrochem, 1992, 8(4): 160-164

[31]	JanataJ. Chemical sensors. Anal Chem, 1992, 64: 196R-219R

[32]	YaoT, WasaT. High-performance liquid chromatographic detection of L-and D-amino acids by use of immobilized-enzyme electrodes as detectors. Anal Chim Acta, 1988, 209: 259-264

[33]	BoguslavskyL, HaleP D, GengL, et al.. Applications of redox polymers in biosensors. Solid State Ionics, 1993, 60(1–3): 189-197

[34]	CooperJ C, HammerleM, SchuhmannW, et al.. Selectivity of conducting polymer electrodes and their application in flow injection analysis of amino acids. Biosens Bioelectronics, 1993, 8: 65-74

[35]	SataY, TetsuyaM, KoichiK. Amino acids and urea sensors using parsly seeds as biocatalyst. Bioelectrochem Bioenerg, 1992, 27: 199-205

[36]	Fatibello-filhoO, SuleimanA A, GuilbaultG G. Enzyme electrode for the determination of aspartate. Biosensors, 1989, 4(5): 313-321

[37]	MacholanL. Rapid determination of L-lysine and L-arginine [in forage] by oxygen-electrode with membrane-attached amino-acid decarboxylase-diamine oxidase system. Collect Czech Chem Commun, 1987, 43: 1811-1817

[38]	HavasJ, GuibaultG G. Tyrosine-selective enzyme probe and its applications. Anal Chem, 1982, 54: 1991-1997

[39]	ToyotaT, KuanS S, GuilbaultG G. Determination of total protein in serum using a tyrosinase [monophenol monoxygenase] enzyme electrodes. Anal Chem, 1985, 57: 1925-19928

[40]	IidaT, MachidaS, IijimaN, et al.. L-threonine deaminase from thermophilic bacterium bacillus stearothermophilus in ammonia sensor for L-threonine determination. Anal Chem Symp Ser, 1983, 17: 631-636

[41]	NikolelisD P. Kinetic determination of L-alanine dehydrogenase with an ammonia gas-sensing electrode. Anal Chim Acta, 1985, 167: 381-386

[42]	PauC P, RechnitzG A. Bound cofactor-dual enzyme electrode system for L-alanine. Anal Chim Acta, 1984, 160: 141-147

[43]	PalleschG, VolpeG, CompagnoneD, et al.. Amperometric alanine electrode. Anal Lett, 1993, 26: 1301-1319

[44]	KovachP M, MeyerhoffM E. Development and application of a histidine selectrive biomembrane electrode. Anal Chem, 1982, 54: 217-220

[45]	WalterR R, JohnP A, BuchR P. Histidine ammonia-lyase enzyme electrode for determination of L-histidine. Anal Chem, 1980, 52: 1684-1690

[46]	GuibaultG G, LubranoG J, KauffmannJ M, et al.. Enzyme electrodes for the sugar substitute aspartame. Anal Chim Acta, 1988, 206: 369-374

[47]	WhiteW C, GuibaultG G. Lysine specific enzyme electrode for determination of lysine in grains and food stuffs. Anal. Chem, 1978, 50: 1481-1486

[48]	WangA J, ArnaldM A. Dual-enzyme fibre optic biosensor for glutamate based on reduced nicotinamide adenine dinucleotide luminescence. Anal Chem, 1992, 64(9): 1051-1055

[49]	CattaneoM V, MaleK B, LuongJ H T. Chemiluminescence fibre optic biosensor system for the determination of glutamine in mammalian cell cultures. Biosens Bioelectronics, 1992, 7(8): 569-574

[50]	GirottiS, FerriE, GhiniS, et al.. Bioluminescence flow sensor for L-phenylalanine determination in serum. Talanta, 1993, 40(3): 425-430

[51]	YabakS, MizutaniF, AsaiM. Preparation and technique for an electroconductive membrane containing glutamate dehydrogenase, NADP and mediator. Biosens Bioelectronics, 1991, 6(4): 311-315

[52]	MulchandaniA, MuleK B, LuongJ H T, et al.. Enzymic assay technique for the determination of aspartame. Anal Chim Acta, 1990, 234: 465-469

[53]	ArgoudelisC J. Isocratic liquid-chromatography method for simultaneous determination of aspartame and other additives in soft drinks. J Chromatogr, 1984, 303: 256-262

[54]	RennebergR, RiedelK, SchellerF. Microbial sensor for aspartame. Appl Microbial Biotechnol, 1985, 21: 180-181

[55]	KongJilie, HeHong, DengJiaqi. Comparision study of glutamate decarboxylase electrodes and colibacillus membrane elect rodes. Analytical Chemistry, 1993, 21(3): 251-251(in Chinese)

[56]	ArnoldM A, RechnitzG A. Comparison of bacterial, tissue and enzyme biocatalysis for glutamine selective membrane electrode. Anal Chim Acta, 1980, 52: 1170-1174

[57]	KarubeITurnerP F A, KarubeI, WilsonG SBiosensors based on plant and animal tissue, 1987, London: Oxford, Biosensors-Fundamentals and Applications: 30-59

[58]	SchellerF, SchubertFTechnique and instrumentation in analytical chemistry: Vol 11. Biosensors, 1992, Amsterdom, Elsevier: 236-252

[59]	DengJiaqi. Electrode of the animal tissue. Chemicosensor, 1991, 11(4): 1-1

[60]	GirottiS, FerriE, GhiniS, et al.. L-glutamate determination by a bioluminescent flow sensor. Fresenius’J Anal Chem, 1992, 343(1): 176-177

[61]	LiH, HeH, WolfbeisO S. Optical biosensor for lysine based on the use of lysine decarboxylase and cadaverine-selective membrane. Biosens Bioelectronics, 1992, 7(10): 725-732