红曲霉发酵及某些生理活性物质的研究
|
摘要
红曲霉所代谢的生理活性物质除Monacolins外,尚含有麦角甾醇(Ergosterol)、γ-氨基丁酸(GABA)、多糖等,均以引起国内外学者的极大兴趣。本论文的主要目的是优化红曲霉发酵产Ergosterol、GABA的工艺,并初步探讨Monascus pilosus GM100规模化生产。
本研究分别筛选了高产Ergosterol及GABA的菌株Monascus ruber GM088及Monascus pilosus GM100作为试验对象。对红曲霉发酵样品中Ergosterol的测定进行了紫外分光光度法和HPLC法探讨,亦对GABA测定进行了HPLC-ELSD法及氨基酸自动分析仪法的研究。
分别优化了试验红曲霉菌株固体和液体发酵产Ergosterol及GABA的条件。在本试验较优工艺条件下,液体发酵Ergosterol单位含量达3.24g/100g干菌体,GABA的含量为38.5μg/ml;固体发酵Ergosterol单位含量为3.86mg/g,GABA的含量为330mg/kg。
采用100L发酵罐及通风曲池对Monascus pilosus GM100菌株产GABA进行扩大培养,实验表明发酵滤液的GABA含量达180μg/ml,发酵液菌体中GABA含量为710μg/g;通风曲池生产的红曲米GABA的含量达390μg/g,经CO_248h厌氧处理,提高到470μg/g。
Many researchers at home and abroad have being highly interesting in some physiological active substances such as γ-aminobutyric acid(GABA) , ergosterol , polysaccharide and so on except for Moncolins. The main purpose of this thesis is to study the fermentation technology of ergosterol and GABA by Monascus spp. and research large scale production by Monascus pilosus GM100 strain.
We screened Monascus ruber GM088 and Monascus pilosus GM100 strains which had respectively higher yield of ergosterol and GABA to be the object strains for our study. The UV spectrophtometric and HPLC methods which determine the content of ergosterol in the fermentation sample of Monascus are studied. We also study the HPLC-ELSD and amio acid analyzer methods which determine the content of GABA in the fermentation sample ofmonascus are studied.
The optimal conditions for liquid and solid-state fermentation of ergosterol production by Monascus ruber GM088 and GABA production by Monascus GM100 strain. Furthermore we study GABA large scale production by fermentation of Monascus pilosus GMlOO.In the optimal conditions the content of ergosterol is 3.24g/100g dry mycelium by liquid fermentation and 3.86mg/g by solid-state fermentation. The content of GABA is 38.5μg/ml in the fermentation filtrate by liquid fermentation and 330mg/kg in red koji rice by solid-state fermentation.
GABA production by liquid fermentation in 100L fermentor and koji-making through ventilation of Monascus pilosus GM100 are studied.The content of GABA is 180μg/ml in the fermentation filtrate and 710μg/g in the mycelium by liquid
fermentation, 390μg/g in the red koji rice by fermentation of koji-making through ventilation and 470μg/g through 48h anaerobic treatment of CO_(2).
本研究分别筛选了高产Ergosterol及GABA的菌株Monascus ruber GM088及Monascus pilosus GM100作为试验对象。对红曲霉发酵样品中Ergosterol的测定进行了紫外分光光度法和HPLC法探讨,亦对GABA测定进行了HPLC-ELSD法及氨基酸自动分析仪法的研究。
分别优化了试验红曲霉菌株固体和液体发酵产Ergosterol及GABA的条件。在本试验较优工艺条件下,液体发酵Ergosterol单位含量达3.24g/100g干菌体,GABA的含量为38.5μg/ml;固体发酵Ergosterol单位含量为3.86mg/g,GABA的含量为330mg/kg。
采用100L发酵罐及通风曲池对Monascus pilosus GM100菌株产GABA进行扩大培养,实验表明发酵滤液的GABA含量达180μg/ml,发酵液菌体中GABA含量为710μg/g;通风曲池生产的红曲米GABA的含量达390μg/g,经CO_248h厌氧处理,提高到470μg/g。
Many researchers at home and abroad have being highly interesting in some physiological active substances such as γ-aminobutyric acid(GABA) , ergosterol , polysaccharide and so on except for Moncolins. The main purpose of this thesis is to study the fermentation technology of ergosterol and GABA by Monascus spp. and research large scale production by Monascus pilosus GM100 strain.
We screened Monascus ruber GM088 and Monascus pilosus GM100 strains which had respectively higher yield of ergosterol and GABA to be the object strains for our study. The UV spectrophtometric and HPLC methods which determine the content of ergosterol in the fermentation sample of Monascus are studied. We also study the HPLC-ELSD and amio acid analyzer methods which determine the content of GABA in the fermentation sample ofmonascus are studied.
The optimal conditions for liquid and solid-state fermentation of ergosterol production by Monascus ruber GM088 and GABA production by Monascus GM100 strain. Furthermore we study GABA large scale production by fermentation of Monascus pilosus GMlOO.In the optimal conditions the content of ergosterol is 3.24g/100g dry mycelium by liquid fermentation and 3.86mg/g by solid-state fermentation. The content of GABA is 38.5μg/ml in the fermentation filtrate by liquid fermentation and 330mg/kg in red koji rice by solid-state fermentation.
GABA production by liquid fermentation in 100L fermentor and koji-making through ventilation of Monascus pilosus GM100 are studied.The content of GABA is 180μg/ml in the fermentation filtrate and 710μg/g in the mycelium by liquid
fermentation, 390μg/g in the red koji rice by fermentation of koji-making through ventilation and 470μg/g through 48h anaerobic treatment of CO_(2).
引文
[1] 李钟庆,郭芳.红曲菌的形态与分类冲国轻工业出版社,2003.2。
[2] 李钟庆,郭芳,红曲菌属的分类。’2000东方红曲国际学术研讨会论文集,8~14。
[3] 陈彦霖,李昭蓉,陈建州等,红曲菌种的研究开发与应用。食品工业月刊(台),1998,30(7):1~10。
[4] 周立平,中国的米曲——乌衣红曲与红曲。94国际酒文化学术研讨会论文集,24-32。刑旺兴等,红曲考证。中药材,2000(3):175~177。
[5] 广井忠夫,红曲菌形态红曲色素精制。’2000东方红曲国际学术研讨会论文集,27~35。
[6] 章克第,红曲霉及红曲色素。中国调味品,1989(2):1~5。
[7] 沈士秀,红曲的研究、生产及应用。食品工业科技,2001,22(1):85~87。
[8] Hawsworth, D.L. and Pitt, J.L. A new taxonomy for Monascus species based on culture and microscopical characters. Aust. J. Bot. 1983, 31: 51~61。
[9] Barnard, E.L. A new species of Monascus from pine tissues in floride. Mycologia, 1987, 79(3): 479~484。
[10] Cannon, P.F., Abdullah, S.K. and Abbas, B.A. Two new species of Monascus from Iraq., with a key to know, species of the genus. Mycol. Res. 1999(6): 659~662。
[11] Lakrod, K.etc. Genome analysis of red rice mold (Monascus spp. using RAPD markers and molecular karyotyping).法国图卢兹红曲生产及应用研讨会论文集,1997,7。
[12] H.J.Montgomery, C.M. Monrealb, J.C.Young, K.A.Seifert. Determinination of soil fungal biomass from soil ergosterol analyses, Soil Biology & Biochemistry, 2000 (32): 1207~1217。
[13] 莫湘君,黄玲,万宁.产麦角固醇酵母的选育及其发酵条件优化的研究[J].食品与发酵工业,1990,6:20~23。
[14] 张博润,何秀萍等.麦角固醇高产菌株的构建及其培养条件优化的研究[J].生物工程学报,1999,15(1):46~51。
[15] 孙启玲等.高产麦角甾醇酵母菌种的选育研究[J].四川大学学报(自然科学版),1995,32(2):583~586。
[16] 王纪等.离子注入麦角甾醇酵母选育及发酵工艺[J].微生物学杂志,1998,18(4):25~28。
[17] Bills C E, Massengate O N, Pricker P S.Factors Determining the Ergosterol Content of Yeast
1 Species. J Biol Chem, 1930, 87: 259~264。
[18] Dulaney E L. Preparation of Ergosterol Containing of Yeast.US Pantent 2817624, 1957。
[19] Novotny C, Behalova B, Dolezalova L et al. Regulation of Sterol Synthesis by Glucose in Baker's Yeast.Acta Bioteehnol, 1987, 7(4): 347~351。
[20] Arnezeder C, Hampel W A. Influence of Growth Rate on the Accumulation of Ergosterol in Yeast Cells in a Phosphate Limited Continuous Culture. Biotechnol Lett, 1991, 13(2): 97~100。
[21] Park J W, Lee W G. The Production of Ergosterol by Saccharomyces Sake KBA No.6. Han'guk Nonghwa Hakhoechi, 1990, 33(1): 87~92。
[22] Paskova J Spacek B. Increased Production of Ergosterol by Cultivation of Saccharomyces in Fats. Int C1: C12P33/00.Czeeh CS 247992,1988-02-15。
[23] Wenck P R, Peterson W, Fred E B.Z Bakteriol Parasitenk, 1935, 92: 330~335。
[24] Savard K, Grant G A.Scince, 1946, 104: 459~460。
[25] Eugene L D, Stapley E O, Katherine S. App Microbiol, 1954, 2: 371~379。
[26] Pruess L M, Peterson W H, Steenhock et al. J Biol Chem, 1931, 90: 369~384.
[27] Avram D, Peteu I, Radu M et al. Romania J Basic Microbiol, 1992, 32(6): 369~372。
[28] 陈松生,毛宁,陈哲超,吴松刚.红曲霉的麦角固醇研究.食品与发酵工业,1995,6:18~23。
[29] 陈松生,毛宁,陈哲超,吴松刚.红曲霉产生的生理活性物质的研究Ⅱ.红曲霉菌株产生的麦角固醇的研究.福建师范大学学报(自然科学版),1995,11(1):79~84。
[30] Haria M, Bryson H M, Amorolfine a review of its pharmacological properties and therapeutic potential in the treatment of onychomycosis and other superficial fungal infections.Drugs, 1995, 49(1): 103~120。
[31] Hata S et al. Biochem Biophys Res Commun, 1981, 103: 272~277。
[32] Thomas K et al. Biochem Biophys Res Commun, 1992, 189: 85~91。
[33] Komblatt J A, Rudney H. J Biol Chem, 1971, 246: 4417~4423。
[34] Thomas G Turi, John C Loper. J Biological Chemistry, 1992, 267: 2046~2056。
[35] Lees N D, Shaggs B, Kirsch D R, Bard M, Kaggs B, Kirsch D R, and Bard M. Cloning of the Late Genes in the Ergosterol Biosynthetic Pathway of Saccharomyces cerevisiae. Lipids, 1995, 30(3): 221~226。
[36] Jabdrositz A, Turnowsky F, and Hogenauer G. The gene encoding squalene epoxidase from Saccharomyces cerevisiae: cloning and characterization. Gene, 1991, 107: 155~160。
[37] Covey E J, Matsuda S P T, and Bartel B. Molecular cloning, characterization, and overexpression of ERG7, the Saccharomyces cerevisiae gene encoding ianosterol synthase. Proc. Natl. Acad. Sci. USA, 1994, 91: 2211~2215。
[38] Kalb V F, Loper J C, Dey C R, Wood C W, and Sutter T R. Isolation of a cytochrome P-450 structural gene from Saccharomyces cerevisiae. Gene, 1986, 45: 237~245。
[39] Hitoshi, Tainaka, Hioeaki Hashimoto, Yuri Aoyama et al. J Fermen Bioeng, 1995, 79(1): 64~66。
[40] Hata S, Nishino T, Katsuki H et al.Agric Biol Chem, 1987, 51: 1349~1354。
[41] Margaret H, Charles A P, John F A et al. The identification of a gene family in the Saccharomyces cerevisiae ergosterol biosynthesis pathyway. Gene, 1994,140:41~49。
[42] Cabello-Hurtado F B, Zimmerlin A et al. Cloning and functional expression in yeast of a cDNA coding for an obtusifoliol 14-demethylase(CYP51) in wheat. Biochem. Biophys. Res. Commun., 1997,230(2): 381~385。
[43] Bard M, Bruner D A, and Barbuch R. Cloning and characterization of ERG25, the Saccharomyces cerevisiae gene encoding C-4 sterol methyl oxidase. Proc. Natl. Aead. Sci. USA, 1996,93(1): 186~190。
[44] Gaber R F, Copple D M, Kennedy B K, Vidal M and Bard M. The yeast gene ERG6 is required for normal membrane function but is not essential for biosynthesis of the cell-cycle-sparking sterol. Mol. Cell. Biol., 1989, 9: 3447~3456。
[45] Ashman W H, Barbuch R J, Ulbright C E, Jarrett H W. Cloning and disruption of the yeast C-8 sterol isomerase gene. Lipid, 1991, 26: 628~632。
[46] Arthington B A, Bennett L G, Skatrud P L, Guyra C J, Barbueh R J. Cloning disruption, and sequence of the gene encoding yeast C-5 sterol desaturase. Gene, 1991,102: 39~44。
[47] Skaggsa B A, Alexander C A, Piersona K S et al. Cloning and characterization of the S. cerevisiae C-22 sterol desaturase gene encoding a second cytochrome P450 involved in ergosterol biosynthesis. Gene, 1996, 169: 105~109。
[48] Cabello-Hurtado F B, Zimmerlin A et al. Cloning and functional expression in yeast of a cDNA coding for an obtusifolioi 14-demethylase(CYP51) in wheat. Biochem. Biophys. Res. Commun., 1997,230(2): 381~385。
[49] Tillakratne, N.J.K., Mediana-Kauwe, K., Gibson, K.M..4-aminobutyric acid(GABA)
metabolish in mammalian neural and non-neural tissues. Coparative Biochemistry and Physiology, 1995, 112A: 247~263。
[50] K.Tsuji, T.Ichikawa, M.Kawamura and Y.Nakagawa, Abstracts of Papers, The Annual Meeting of the Agrieultural Chemical Society of Japan, 1986, 4: 216。
[51] Kohama, K., Matsumoto, S., Mimura, T., Tanabe, N., Inada, A. and Nakanishi, A. Isolation and identification of hypotensive principles in red-mold rice.Chem.Pharm.Bull,1987, 35:2484~2489。
[52] A.L Laskin and H.A. Leehevalier(ed.), "Handbook of microbiology", Vol.Ⅲ,CRC Press,Inc., Cleveland, 1973, pp.289~310,593~690。
[53] R.F. Furchgott and J. V. Zawadgki, Nature(London), 1980: 288、373。
[54] Tsuji,K., Ichikawa, T., Tanable, N., Abe,S. and Nakagawa, Y. Antihypertensive activities of beni-koji extracts and γ-aminobutyric acid in spontaneously hypertensive rats. Jpn. J. Nutr. 1992, 50: 285~291.
[55] Tsuji,K., Ichikawa, T., Tanable, N., Abe,S. and Nakagawa, Y. Effects of beni-koji foods on blood pressure in spontaneously hypertensive rats. Nippon Shokuhin Kogyo Gakkalshi, 1992, 39: 919~924。
[56] Tarui, S.and Tanable,N.,Japan Tokkyo Koho,Hei 3-31170(1991.5.2)。
[57] Tsuji,K., Ichikawa, T., Tanable,N., Abe,S., Tarui, S. and Nakagawa, Y. Effects of two kinds of koji on blood pressure in spontaneously hypertensive rats. Nippon Nogeikagaku Kaishi, 1992, 66: 1241~1246。
[58] Tarui, S.and Tanable,N.and Yoshida, A.,Japan Koho,Hei 5-75758(1993.10.21)。
[59] 包启安,红曲的生理机能性。中国酿造,1996,2:11-20。
[60] Tsuji, K., Ichikawa, T., Tanable, N., Obata, H., Abe, S., Tarui, S.and Nakagawa,Y. Effects of mycelial weight on hypertensive activity of beni-koji in spontaneously hypertensive rats. Nippon Shokuhin Kogyo Gakkaishi, 1992, 39: 790~795。
[61] Narahara, H.. Koji-mold and its ProductKoji. J. Brew. Soc., Japan, 1994, 89: 873~881。
[62] Inoue, K., Mukaiyama, Y., Tsuji, K., Tanable,N., Tarui, S., Abe, S. and Takahashi,M.. Effect of beni-koji extracts on blood pressure in primary hypertensive volunteers. Jpn. J. Nutr., 1995, 53: 263~271。
[63] 毛宁,黄谚谚,陈松生,红曲霉营养价值的研究。营养学报,1999(3),358-361。
[64] Kirk-Othmer.Eneyclopedia of chemical technology, (3rd edition).WILEY-NTERSCIENCE, 1981: 766~767。
[65] 章思规主编.精细有机化学品技术手册.科学出版社,1992,92
[66] 赵长琦,李广民,王军.中药红芪中降压有效成分γ-氨基丁酸的薄层扫描测定.西北大学学报(自然科学版),1995,25(3):277~278。
[67] 特開2000-014256.GABA含有饮食品制造法。
[68] 爱宕世高,户田 登志也,奥平 武则.乳酸菌·酵母发酵法开发.食品开发,2001,36(6):12-14。
[69] 编辑部.注目GABA富化素材开发.食品开发,2001,36(6):17-18。
[70] 杉下,朋子.The Research and Development of rice Germ Enriched with GABA[J].食品与开发(日),2001,36(6):10~11。
[71] Bown AW, Shelp BJ. Plant Physiol 1997, 115: 1~5。
[72] 顾振新,蒋振晖.食品原料中γ-氨基丁酸形成机理及富集技术.食品与发酵工业,2002(10):65-69。
[73] Martin DL, Rimvall K.Regulation of gamma-aminobutyrie acid synthesis in brain. J Neuroehem, 1993, 60: 395~407。
[74] Streeter J G, Thomson J F. Plant Physiol., 1972, 49: 579~584。
[75] Shelp B J, Walton C S, Snedden WA, et al. Physiol Plant, 1995, 94: 219~228。
[76] Robent, E. γ-aminobutyrie acid in brain: Its formation from glutamie.J. Biol. Chem, 1950, 187: 55~63。
[77] Awapara, J. freeγ-aminobutyric acid in brain. J. Biol. Chem, 1950, 187: 35~39。
[78] 北京医学基础部.中枢神经介质概论[J].北京:科学出版社,1997,210~215。
[79] 杨立川.高γ-氨基丁酸与癫痫[J].国内外医学神经病学科科学分册,1993,16(3):19~20。
[80] 茅原紘,杉浦友美.近年GABA生理机能研究—脑机能改善作用、高血压作用中心.食品开发,2001,36(6):4~6
[81] 徐叔云主编,陈敏章、王振刚主审.临床药物指南(修订版).安徽科学出版社,1997。
[82] Tadashi OKADA, Tomoko SUGISHTA. Effect of the Defatted Rice Germ Enriched with GABA for Sleepness, Depression, Autonomic Discorder by Oral Administration[J]. Nippon Shokuhin Kagaku Kogaku Kaishi, 2000, 47(8): 596~603。
[83] Wigge B, Kore S, Gardestroem P. Physiol. Plant, 1993, 88: 10~18.
[84] Kinnersley A M. Critical Reviews in Plant Science, 2000, 19: 479~509。
[85] Stojanov T, O'neill C. Biol Repord, 1999, 60(3): 674~682。
[86] Shelp B J, Walton C S, Snedden WA, et al. Physiol Plant, 1995, 94: 219~228。
[87] 顾振新,蒋振晖.食品原料中γ-氨基丁酸形成机理及富集技术.食品与发酵工业,2002(10):65-69。
[88] 安藤干夫.食科学,2001,4:66~73。
[89] 横田哲治.食品科学(日),2000,10:34~37。
[90] 茅原.周刊农林,2001,6:4~6。
[91] 伊藤汛.食品工业(日),2000,5:61~64。
[92] 杵渊美倭子,关谷美由纪,山琦彬等.日本食品科学工学会志,1999,46(5):323~328。
[93] 高桥敬一,宗田奈保子,内藤成弘等.食品综合研究报告(日),2001,3:33~37。
[94] 大久长范,阿部雪子.秋田县综合食品研究所报告(日),1999,85~86。
[95] 大久长范,菅原真理,阿部雪子等.日本食品科学工学会志,2000,47(6):452~454。
[96] 重本良辅.现代农业(日),2001,3:66~67。
[97] 大平贞视.北陆农业新技术,2000,10:66~68。
[98] Tsudhida, T., Murai, T., Omori, M. and Okamoto, J: Production ofa new type of high level of γ-aminobutyrie acid. Nippon Nogeikagaku Kaishi, 1987, 61(7): 817~882。
[99] 竹内敦子,泽井裕典,深津修一.条件酪酸增加组织熟度依存[J].茶叶研究报告,1994,80:17~21。
[100] 根角厚司.酸添加茶叶中酪酸生成影响[J].茶叶研究报告,1997,85(增刊):76~77。
[101] Method for accumulation of γ-aminobutyrie acid in tea: JP09205989. Kanagana Preteclure. Japan(Yoshiga S.), 1997, 8.12, Int. CI.A23F3106。
[102] 泽井裕典,许裴键一,小高保喜等.日本食品工业会志,1999,46(7):462~466。
[103] 泽井裕典,许裴键一,小高保喜等.日本食品工业会志,1999,46(4):274~277。
[104] Omori, M., Kato M, Tamura T, et al. Production of CTC gabaron black tea by modifying withingconditions[J].Tea, 1998, 19(2): 92~96。
[105] Streeter J G, Thomson J F. Plant Phsiol., 1972, 49: 572~578。
[106] 松本恭郎,大野一仁,别所康守等.爱爰工技研究报告(日),1998,36:73~77。
[107] 片桐充昭,清水纯夫.日本食品工业学会志,1989,36(11):916~919。
[108]Hayakawa, K., Ueno, Y., Kawamura, S., Taniguchi, R. andOda, K.: Production of γ-aminobutyric acid by lactic acid bacteria. Seibutsu Kogaku, 1997, 75(4): 239~244。
[109]爱宕 世高,户田 登志也,奥平 武则.乳酸菌·酵母发酵法开发.食品开发,2001,36(6):12~14。
[110]田军,李兆兰,沈晓云,魏光.红曲多糖的化学结构分析.南京中医药大学学报,1998,14(4):217~219。
[111]赵振锋,方惠英,诸葛健.红曲霉发酵产胞外多糖工艺的优化,无锡轻工大学学报,2002,21(3):292~295。
[112]P.Juziova, T.Rezanka, L.Martinkova and V.Kren.Long-chan fatty acid from Monascus purpureus.Phytochemistry, 1996, 43(1): 151~153。
[113]Nishikawa, Jiro. Cellular fatty acids composition of the genus Monascus. J.Basic Microbiol, 1989,29(6): 369~374。
[114]宋洪涛,郭涛,张跃新冲药红曲中氨基酸和脂肪酸的分析。中国药房,1999,10(5):230~231。
[115]Kranz, Christiane. Biotransformation of fatty acids in mixtures to methyl ketones by Monascus purpurues. Appl. Microbiol. Biotechnol, 1992, 36(4): 436~439。
[116]董明盛,沈昌,沈爱光等,红曲霉抑菌作用的探讨。中国调味品,1991(1):11~12。
[117]丁前盛,郭永红,红曲珍珠保健酒的研制。酿酒科技,1994(6):87~89。
[118]王柏琴,杨洁彬,刘克,红曲色素、乳酸链球菌素、山梨酸钾对肉毒梭状芽孢杆菌的抑制研究。食品与发酵工业,1995,21(6):29~32。
[119]Ankalactone, a new α, β-unsaturated γ-lactone from Monascus anka. Agric. Biol. Chem. 1991,55(3):899~900。
[120]Juzlova, P.etc. Secondary metabolitcs of the fungus Monascus: a review. J.Ind.Micro., 1996,16: 163~170。
[121]河野勇人.静菌作用食品工业微生物制御关研究.2000,14。
[122]Endo A et al, Monacolon K, a new hypocholesterolemic agent produced by Monascus species.The journal of antibiotics,1979,32(8): 852~854。
[123]Endo A, K. Hasumi, T. Nakamura et al. Dihydromonacolin L and monacolin X, new metabolites those inhibit cholesterol biosynthesis. J. Antibiotics, 1985,38: 321~327。
[124]Endo A, K. Hasumi, S.Negishi. Monacolin J and L, new inhibitors of cholesterol
biosynthesis produced by Monascus ruber. J. Antibiotics, 1985,38: 420~422.
[125] Endo A.etc. Monacolin M, a new inhibitor of cholesterol biosynthesis. J. Antibiotics, 1986,12: 1670~1673。
[126] 林赞峰,利用红曲菌的传统工艺及其最新发展。94国际酒文化学术研讨会论文集,杭州,浙江大学出版社,1994,33~39。
[127] 高红,红曲在我国传统食品和食疗保健中的作用。中国酿造,1997(6):11~13。
[128] 玉田英明,食品科学。1988,7:96。
[129] 黄谚谚,毛宁,陈松生.红曲霉发酵产物抗疲劳作用的研究.食品科学,1998,19(9):9~11。
[130] 刘毅,宁正祥.红曲霉发酵产物的保健作用及应用。广州食品工业科技,1999,15(2):1~4。
[131] 钱寿根.用紫外分光光度法测定酵母中麦角固醇含量.食品与发酵工业,1988,6:48~51。
[132] Amezeder C, Koliander W, Hampel W A. Rapid Determination of Ergosterol in Yeast Cells. Anal Chim Acta, 1989, 225(1): 129~136。
[133] R.J. Rodriguez. High-Performance Liquid Chromatograph of sterols yeast sterols. Method Enzymd,1985, 200~204,
[134] John V.Headley, Kerry M.Peru,Brij Verma, Richard D.Robarts.Mass spectrometric determination of ergosterol in a prairie natural wetlang. Journal of Chromatography A. 2002,958: 149~156。
[135] 莫海涛,王立新,石虹,欧阳藩.红曲霉在大米培养基中生长的电镜观察。
[136] Mo HT. Wang LX. Shi H. In: Biochemical Engineering: Marching Toward the Century of Biotechnology(Proeeeding ofAPBIOCHEC'97). 1997: 423-426。
[137] Buzzigoli A, Lanzone L, Ciociaro D, et al.J Chromatogr., 1990, 507: 85; Bidlingreyer B A, et al. J Assoc Off Anal Chem, 1987, 70: 241。
[138] Thio A P, Tompkins MJ. J Chromatogra., 1989, 487: 167。
[139] Teerlink T, van Leeuwen P A M and Houdijk A. Clin Chem, 1994, 40(2): 245。
[140] Jones B N, Gilligan J P, Chromatogra, 1983, 266: 247。
[141] Haynes P A, Sheumack D, Kibby J, et al. J Chromatogr, 1991, 540: 177。
[142] Einarasson S, et al. J Chromatogra, 1998, 286: 609。
[143] Cheng Y F and Dovichi NJ. Science, 1989, 242: 562。
[144] Rubenstein M, Chem KS, Stein S, et al.Anal Biochem, 1979, 95: 117。
[145] Cohen SA, Michanl D P, Anal Biochem, 1988, 170: 20。
[146] Cohen SA, DeAntonis K M, J Chromatogra A, 1994, 661: 25。
[147] Cladrowa-Runge S, Rizz A. J Chromatogra A, 1997, 759: 157。
[148] Li G D, Krull I S, Cohen SA. J Chromatogra A, 1996, 724: 147。
[149] Cladrowa-Runge S, Rizz A. J Chromatogra A, 1997, 759: 167。
[150] Nahorski S R. Aradioreceptor assay using H-muscimol for GABA in human CFS. Br J Pharmaeal, 1981, 72: 16。
[151] 胡红焱,杨树德.细菌荧光酶生物发光分析法测定血清中抑制性神经递质GABA.武警医学,1998,9(4):190~193。
[152] S. Blackburn, Amio Acid Determination. Marcel Dekker Inc. New York, 1968.
[153] Bongiovabnni R.高高效液相色谱法蒸发——光散射检测器定量分析未衍生化的氨基酸.药物分析杂志.1994,14(5):62~63。
[154] Chaves das Neves HJ, Braga Morais Z.HPLC assay of underivatized amino acid with column switching and evaporative light-scattering detection. J High Res Chromatogr, 1997, 20: 115~118。
[155] Application note E0040.Deerfieid, IL: Alltech Associates, 1997; W. E. Artz and S. L. Hansen. The Evaporative Light Scattering Detector.Inforrn.Vol.6,No.2。
[156] Iizuka, H. and C. F. Lin. 1980. One the genus Monascus of Asia and its specific characteristics. Advances in Bioteehnol, 2: 555~561。
[157] 苏远志.红曲色素之生产研究。食品科学,1978,5(2):4A~17A。
[158] Yoshimura, M., S. Yamanka, K. Mitsugi and Y. Hirose. Production of Monascus-pigment in a submerged culture.Agr. Biol. Chem, 1975, 39(9): 1789~1795。
[159] Sakurai Y,Lee T H,Shiota H.Agric.Biol.Chem.,1977,41:619~624;小崎道雄,北原觉雄.日本食品工业学会志,1974,21(1):38~41。
[160] 刘生连、黄荣贞、陈炯明、周清水.自动制曲机制曲与手工制曲之比较.中国农业化学会志,1966,4(1,2):34~37。
[161] Nelson, N.A photometric adaptation of the Somogyi method for the determination of glucose. J. Biol. Chem. 1944, 153: 375~380。
[162] Somogyi, M. Notes on sugar determination. J. Biol. Chem. 1952, 195:19~23。
[163] Narahara, H., Y. Kopyama, T. Yoshida, S. Pichangkura, R. Ueda and H. Taguchi. Growth and enzyme production in a solid-state culture of Aspergillus oryzae. 1982,60(4): 311~319。
[164] Hull, M. E.Studies on milk protein Ⅱ. Colorimetric determination of partial hydrolysis of the proteins in milk. J. Dairy Sci. 1947, 30(1): 881~884。
[165] 刑来君,李春明.普通真菌学.北京:高等教育出版社,1999,26~29。
[2] 李钟庆,郭芳,红曲菌属的分类。’2000东方红曲国际学术研讨会论文集,8~14。
[3] 陈彦霖,李昭蓉,陈建州等,红曲菌种的研究开发与应用。食品工业月刊(台),1998,30(7):1~10。
[4] 周立平,中国的米曲——乌衣红曲与红曲。94国际酒文化学术研讨会论文集,24-32。刑旺兴等,红曲考证。中药材,2000(3):175~177。
[5] 广井忠夫,红曲菌形态红曲色素精制。’2000东方红曲国际学术研讨会论文集,27~35。
[6] 章克第,红曲霉及红曲色素。中国调味品,1989(2):1~5。
[7] 沈士秀,红曲的研究、生产及应用。食品工业科技,2001,22(1):85~87。
[8] Hawsworth, D.L. and Pitt, J.L. A new taxonomy for Monascus species based on culture and microscopical characters. Aust. J. Bot. 1983, 31: 51~61。
[9] Barnard, E.L. A new species of Monascus from pine tissues in floride. Mycologia, 1987, 79(3): 479~484。
[10] Cannon, P.F., Abdullah, S.K. and Abbas, B.A. Two new species of Monascus from Iraq., with a key to know, species of the genus. Mycol. Res. 1999(6): 659~662。
[11] Lakrod, K.etc. Genome analysis of red rice mold (Monascus spp. using RAPD markers and molecular karyotyping).法国图卢兹红曲生产及应用研讨会论文集,1997,7。
[12] H.J.Montgomery, C.M. Monrealb, J.C.Young, K.A.Seifert. Determinination of soil fungal biomass from soil ergosterol analyses, Soil Biology & Biochemistry, 2000 (32): 1207~1217。
[13] 莫湘君,黄玲,万宁.产麦角固醇酵母的选育及其发酵条件优化的研究[J].食品与发酵工业,1990,6:20~23。
[14] 张博润,何秀萍等.麦角固醇高产菌株的构建及其培养条件优化的研究[J].生物工程学报,1999,15(1):46~51。
[15] 孙启玲等.高产麦角甾醇酵母菌种的选育研究[J].四川大学学报(自然科学版),1995,32(2):583~586。
[16] 王纪等.离子注入麦角甾醇酵母选育及发酵工艺[J].微生物学杂志,1998,18(4):25~28。
[17] Bills C E, Massengate O N, Pricker P S.Factors Determining the Ergosterol Content of Yeast
1 Species. J Biol Chem, 1930, 87: 259~264。
[18] Dulaney E L. Preparation of Ergosterol Containing of Yeast.US Pantent 2817624, 1957。
[19] Novotny C, Behalova B, Dolezalova L et al. Regulation of Sterol Synthesis by Glucose in Baker's Yeast.Acta Bioteehnol, 1987, 7(4): 347~351。
[20] Arnezeder C, Hampel W A. Influence of Growth Rate on the Accumulation of Ergosterol in Yeast Cells in a Phosphate Limited Continuous Culture. Biotechnol Lett, 1991, 13(2): 97~100。
[21] Park J W, Lee W G. The Production of Ergosterol by Saccharomyces Sake KBA No.6. Han'guk Nonghwa Hakhoechi, 1990, 33(1): 87~92。
[22] Paskova J Spacek B. Increased Production of Ergosterol by Cultivation of Saccharomyces in Fats. Int C1: C12P33/00.Czeeh CS 247992,1988-02-15。
[23] Wenck P R, Peterson W, Fred E B.Z Bakteriol Parasitenk, 1935, 92: 330~335。
[24] Savard K, Grant G A.Scince, 1946, 104: 459~460。
[25] Eugene L D, Stapley E O, Katherine S. App Microbiol, 1954, 2: 371~379。
[26] Pruess L M, Peterson W H, Steenhock et al. J Biol Chem, 1931, 90: 369~384.
[27] Avram D, Peteu I, Radu M et al. Romania J Basic Microbiol, 1992, 32(6): 369~372。
[28] 陈松生,毛宁,陈哲超,吴松刚.红曲霉的麦角固醇研究.食品与发酵工业,1995,6:18~23。
[29] 陈松生,毛宁,陈哲超,吴松刚.红曲霉产生的生理活性物质的研究Ⅱ.红曲霉菌株产生的麦角固醇的研究.福建师范大学学报(自然科学版),1995,11(1):79~84。
[30] Haria M, Bryson H M, Amorolfine a review of its pharmacological properties and therapeutic potential in the treatment of onychomycosis and other superficial fungal infections.Drugs, 1995, 49(1): 103~120。
[31] Hata S et al. Biochem Biophys Res Commun, 1981, 103: 272~277。
[32] Thomas K et al. Biochem Biophys Res Commun, 1992, 189: 85~91。
[33] Komblatt J A, Rudney H. J Biol Chem, 1971, 246: 4417~4423。
[34] Thomas G Turi, John C Loper. J Biological Chemistry, 1992, 267: 2046~2056。
[35] Lees N D, Shaggs B, Kirsch D R, Bard M, Kaggs B, Kirsch D R, and Bard M. Cloning of the Late Genes in the Ergosterol Biosynthetic Pathway of Saccharomyces cerevisiae. Lipids, 1995, 30(3): 221~226。
[36] Jabdrositz A, Turnowsky F, and Hogenauer G. The gene encoding squalene epoxidase from Saccharomyces cerevisiae: cloning and characterization. Gene, 1991, 107: 155~160。
[37] Covey E J, Matsuda S P T, and Bartel B. Molecular cloning, characterization, and overexpression of ERG7, the Saccharomyces cerevisiae gene encoding ianosterol synthase. Proc. Natl. Acad. Sci. USA, 1994, 91: 2211~2215。
[38] Kalb V F, Loper J C, Dey C R, Wood C W, and Sutter T R. Isolation of a cytochrome P-450 structural gene from Saccharomyces cerevisiae. Gene, 1986, 45: 237~245。
[39] Hitoshi, Tainaka, Hioeaki Hashimoto, Yuri Aoyama et al. J Fermen Bioeng, 1995, 79(1): 64~66。
[40] Hata S, Nishino T, Katsuki H et al.Agric Biol Chem, 1987, 51: 1349~1354。
[41] Margaret H, Charles A P, John F A et al. The identification of a gene family in the Saccharomyces cerevisiae ergosterol biosynthesis pathyway. Gene, 1994,140:41~49。
[42] Cabello-Hurtado F B, Zimmerlin A et al. Cloning and functional expression in yeast of a cDNA coding for an obtusifoliol 14-demethylase(CYP51) in wheat. Biochem. Biophys. Res. Commun., 1997,230(2): 381~385。
[43] Bard M, Bruner D A, and Barbuch R. Cloning and characterization of ERG25, the Saccharomyces cerevisiae gene encoding C-4 sterol methyl oxidase. Proc. Natl. Aead. Sci. USA, 1996,93(1): 186~190。
[44] Gaber R F, Copple D M, Kennedy B K, Vidal M and Bard M. The yeast gene ERG6 is required for normal membrane function but is not essential for biosynthesis of the cell-cycle-sparking sterol. Mol. Cell. Biol., 1989, 9: 3447~3456。
[45] Ashman W H, Barbuch R J, Ulbright C E, Jarrett H W. Cloning and disruption of the yeast C-8 sterol isomerase gene. Lipid, 1991, 26: 628~632。
[46] Arthington B A, Bennett L G, Skatrud P L, Guyra C J, Barbueh R J. Cloning disruption, and sequence of the gene encoding yeast C-5 sterol desaturase. Gene, 1991,102: 39~44。
[47] Skaggsa B A, Alexander C A, Piersona K S et al. Cloning and characterization of the S. cerevisiae C-22 sterol desaturase gene encoding a second cytochrome P450 involved in ergosterol biosynthesis. Gene, 1996, 169: 105~109。
[48] Cabello-Hurtado F B, Zimmerlin A et al. Cloning and functional expression in yeast of a cDNA coding for an obtusifolioi 14-demethylase(CYP51) in wheat. Biochem. Biophys. Res. Commun., 1997,230(2): 381~385。
[49] Tillakratne, N.J.K., Mediana-Kauwe, K., Gibson, K.M..4-aminobutyric acid(GABA)
metabolish in mammalian neural and non-neural tissues. Coparative Biochemistry and Physiology, 1995, 112A: 247~263。
[50] K.Tsuji, T.Ichikawa, M.Kawamura and Y.Nakagawa, Abstracts of Papers, The Annual Meeting of the Agrieultural Chemical Society of Japan, 1986, 4: 216。
[51] Kohama, K., Matsumoto, S., Mimura, T., Tanabe, N., Inada, A. and Nakanishi, A. Isolation and identification of hypotensive principles in red-mold rice.Chem.Pharm.Bull,1987, 35:2484~2489。
[52] A.L Laskin and H.A. Leehevalier(ed.), "Handbook of microbiology", Vol.Ⅲ,CRC Press,Inc., Cleveland, 1973, pp.289~310,593~690。
[53] R.F. Furchgott and J. V. Zawadgki, Nature(London), 1980: 288、373。
[54] Tsuji,K., Ichikawa, T., Tanable, N., Abe,S. and Nakagawa, Y. Antihypertensive activities of beni-koji extracts and γ-aminobutyric acid in spontaneously hypertensive rats. Jpn. J. Nutr. 1992, 50: 285~291.
[55] Tsuji,K., Ichikawa, T., Tanable, N., Abe,S. and Nakagawa, Y. Effects of beni-koji foods on blood pressure in spontaneously hypertensive rats. Nippon Shokuhin Kogyo Gakkalshi, 1992, 39: 919~924。
[56] Tarui, S.and Tanable,N.,Japan Tokkyo Koho,Hei 3-31170(1991.5.2)。
[57] Tsuji,K., Ichikawa, T., Tanable,N., Abe,S., Tarui, S. and Nakagawa, Y. Effects of two kinds of koji on blood pressure in spontaneously hypertensive rats. Nippon Nogeikagaku Kaishi, 1992, 66: 1241~1246。
[58] Tarui, S.and Tanable,N.and Yoshida, A.,Japan Koho,Hei 5-75758(1993.10.21)。
[59] 包启安,红曲的生理机能性。中国酿造,1996,2:11-20。
[60] Tsuji, K., Ichikawa, T., Tanable, N., Obata, H., Abe, S., Tarui, S.and Nakagawa,Y. Effects of mycelial weight on hypertensive activity of beni-koji in spontaneously hypertensive rats. Nippon Shokuhin Kogyo Gakkaishi, 1992, 39: 790~795。
[61] Narahara, H.. Koji-mold and its ProductKoji. J. Brew. Soc., Japan, 1994, 89: 873~881。
[62] Inoue, K., Mukaiyama, Y., Tsuji, K., Tanable,N., Tarui, S., Abe, S. and Takahashi,M.. Effect of beni-koji extracts on blood pressure in primary hypertensive volunteers. Jpn. J. Nutr., 1995, 53: 263~271。
[63] 毛宁,黄谚谚,陈松生,红曲霉营养价值的研究。营养学报,1999(3),358-361。
[64] Kirk-Othmer.Eneyclopedia of chemical technology, (3rd edition).WILEY-NTERSCIENCE, 1981: 766~767。
[65] 章思规主编.精细有机化学品技术手册.科学出版社,1992,92
[66] 赵长琦,李广民,王军.中药红芪中降压有效成分γ-氨基丁酸的薄层扫描测定.西北大学学报(自然科学版),1995,25(3):277~278。
[67] 特開2000-014256.GABA含有饮食品制造法。
[68] 爱宕世高,户田 登志也,奥平 武则.乳酸菌·酵母发酵法开发.食品开发,2001,36(6):12-14。
[69] 编辑部.注目GABA富化素材开发.食品开发,2001,36(6):17-18。
[70] 杉下,朋子.The Research and Development of rice Germ Enriched with GABA[J].食品与开发(日),2001,36(6):10~11。
[71] Bown AW, Shelp BJ. Plant Physiol 1997, 115: 1~5。
[72] 顾振新,蒋振晖.食品原料中γ-氨基丁酸形成机理及富集技术.食品与发酵工业,2002(10):65-69。
[73] Martin DL, Rimvall K.Regulation of gamma-aminobutyrie acid synthesis in brain. J Neuroehem, 1993, 60: 395~407。
[74] Streeter J G, Thomson J F. Plant Physiol., 1972, 49: 579~584。
[75] Shelp B J, Walton C S, Snedden WA, et al. Physiol Plant, 1995, 94: 219~228。
[76] Robent, E. γ-aminobutyrie acid in brain: Its formation from glutamie.J. Biol. Chem, 1950, 187: 55~63。
[77] Awapara, J. freeγ-aminobutyric acid in brain. J. Biol. Chem, 1950, 187: 35~39。
[78] 北京医学基础部.中枢神经介质概论[J].北京:科学出版社,1997,210~215。
[79] 杨立川.高γ-氨基丁酸与癫痫[J].国内外医学神经病学科科学分册,1993,16(3):19~20。
[80] 茅原紘,杉浦友美.近年GABA生理机能研究—脑机能改善作用、高血压作用中心.食品开发,2001,36(6):4~6
[81] 徐叔云主编,陈敏章、王振刚主审.临床药物指南(修订版).安徽科学出版社,1997。
[82] Tadashi OKADA, Tomoko SUGISHTA. Effect of the Defatted Rice Germ Enriched with GABA for Sleepness, Depression, Autonomic Discorder by Oral Administration[J]. Nippon Shokuhin Kagaku Kogaku Kaishi, 2000, 47(8): 596~603。
[83] Wigge B, Kore S, Gardestroem P. Physiol. Plant, 1993, 88: 10~18.
[84] Kinnersley A M. Critical Reviews in Plant Science, 2000, 19: 479~509。
[85] Stojanov T, O'neill C. Biol Repord, 1999, 60(3): 674~682。
[86] Shelp B J, Walton C S, Snedden WA, et al. Physiol Plant, 1995, 94: 219~228。
[87] 顾振新,蒋振晖.食品原料中γ-氨基丁酸形成机理及富集技术.食品与发酵工业,2002(10):65-69。
[88] 安藤干夫.食科学,2001,4:66~73。
[89] 横田哲治.食品科学(日),2000,10:34~37。
[90] 茅原.周刊农林,2001,6:4~6。
[91] 伊藤汛.食品工业(日),2000,5:61~64。
[92] 杵渊美倭子,关谷美由纪,山琦彬等.日本食品科学工学会志,1999,46(5):323~328。
[93] 高桥敬一,宗田奈保子,内藤成弘等.食品综合研究报告(日),2001,3:33~37。
[94] 大久长范,阿部雪子.秋田县综合食品研究所报告(日),1999,85~86。
[95] 大久长范,菅原真理,阿部雪子等.日本食品科学工学会志,2000,47(6):452~454。
[96] 重本良辅.现代农业(日),2001,3:66~67。
[97] 大平贞视.北陆农业新技术,2000,10:66~68。
[98] Tsudhida, T., Murai, T., Omori, M. and Okamoto, J: Production ofa new type of high level of γ-aminobutyrie acid. Nippon Nogeikagaku Kaishi, 1987, 61(7): 817~882。
[99] 竹内敦子,泽井裕典,深津修一.条件酪酸增加组织熟度依存[J].茶叶研究报告,1994,80:17~21。
[100] 根角厚司.酸添加茶叶中酪酸生成影响[J].茶叶研究报告,1997,85(增刊):76~77。
[101] Method for accumulation of γ-aminobutyrie acid in tea: JP09205989. Kanagana Preteclure. Japan(Yoshiga S.), 1997, 8.12, Int. CI.A23F3106。
[102] 泽井裕典,许裴键一,小高保喜等.日本食品工业会志,1999,46(7):462~466。
[103] 泽井裕典,许裴键一,小高保喜等.日本食品工业会志,1999,46(4):274~277。
[104] Omori, M., Kato M, Tamura T, et al. Production of CTC gabaron black tea by modifying withingconditions[J].Tea, 1998, 19(2): 92~96。
[105] Streeter J G, Thomson J F. Plant Phsiol., 1972, 49: 572~578。
[106] 松本恭郎,大野一仁,别所康守等.爱爰工技研究报告(日),1998,36:73~77。
[107] 片桐充昭,清水纯夫.日本食品工业学会志,1989,36(11):916~919。
[108]Hayakawa, K., Ueno, Y., Kawamura, S., Taniguchi, R. andOda, K.: Production of γ-aminobutyric acid by lactic acid bacteria. Seibutsu Kogaku, 1997, 75(4): 239~244。
[109]爱宕 世高,户田 登志也,奥平 武则.乳酸菌·酵母发酵法开发.食品开发,2001,36(6):12~14。
[110]田军,李兆兰,沈晓云,魏光.红曲多糖的化学结构分析.南京中医药大学学报,1998,14(4):217~219。
[111]赵振锋,方惠英,诸葛健.红曲霉发酵产胞外多糖工艺的优化,无锡轻工大学学报,2002,21(3):292~295。
[112]P.Juziova, T.Rezanka, L.Martinkova and V.Kren.Long-chan fatty acid from Monascus purpureus.Phytochemistry, 1996, 43(1): 151~153。
[113]Nishikawa, Jiro. Cellular fatty acids composition of the genus Monascus. J.Basic Microbiol, 1989,29(6): 369~374。
[114]宋洪涛,郭涛,张跃新冲药红曲中氨基酸和脂肪酸的分析。中国药房,1999,10(5):230~231。
[115]Kranz, Christiane. Biotransformation of fatty acids in mixtures to methyl ketones by Monascus purpurues. Appl. Microbiol. Biotechnol, 1992, 36(4): 436~439。
[116]董明盛,沈昌,沈爱光等,红曲霉抑菌作用的探讨。中国调味品,1991(1):11~12。
[117]丁前盛,郭永红,红曲珍珠保健酒的研制。酿酒科技,1994(6):87~89。
[118]王柏琴,杨洁彬,刘克,红曲色素、乳酸链球菌素、山梨酸钾对肉毒梭状芽孢杆菌的抑制研究。食品与发酵工业,1995,21(6):29~32。
[119]Ankalactone, a new α, β-unsaturated γ-lactone from Monascus anka. Agric. Biol. Chem. 1991,55(3):899~900。
[120]Juzlova, P.etc. Secondary metabolitcs of the fungus Monascus: a review. J.Ind.Micro., 1996,16: 163~170。
[121]河野勇人.静菌作用食品工业微生物制御关研究.2000,14。
[122]Endo A et al, Monacolon K, a new hypocholesterolemic agent produced by Monascus species.The journal of antibiotics,1979,32(8): 852~854。
[123]Endo A, K. Hasumi, T. Nakamura et al. Dihydromonacolin L and monacolin X, new metabolites those inhibit cholesterol biosynthesis. J. Antibiotics, 1985,38: 321~327。
[124]Endo A, K. Hasumi, S.Negishi. Monacolin J and L, new inhibitors of cholesterol
biosynthesis produced by Monascus ruber. J. Antibiotics, 1985,38: 420~422.
[125] Endo A.etc. Monacolin M, a new inhibitor of cholesterol biosynthesis. J. Antibiotics, 1986,12: 1670~1673。
[126] 林赞峰,利用红曲菌的传统工艺及其最新发展。94国际酒文化学术研讨会论文集,杭州,浙江大学出版社,1994,33~39。
[127] 高红,红曲在我国传统食品和食疗保健中的作用。中国酿造,1997(6):11~13。
[128] 玉田英明,食品科学。1988,7:96。
[129] 黄谚谚,毛宁,陈松生.红曲霉发酵产物抗疲劳作用的研究.食品科学,1998,19(9):9~11。
[130] 刘毅,宁正祥.红曲霉发酵产物的保健作用及应用。广州食品工业科技,1999,15(2):1~4。
[131] 钱寿根.用紫外分光光度法测定酵母中麦角固醇含量.食品与发酵工业,1988,6:48~51。
[132] Amezeder C, Koliander W, Hampel W A. Rapid Determination of Ergosterol in Yeast Cells. Anal Chim Acta, 1989, 225(1): 129~136。
[133] R.J. Rodriguez. High-Performance Liquid Chromatograph of sterols yeast sterols. Method Enzymd,1985, 200~204,
[134] John V.Headley, Kerry M.Peru,Brij Verma, Richard D.Robarts.Mass spectrometric determination of ergosterol in a prairie natural wetlang. Journal of Chromatography A. 2002,958: 149~156。
[135] 莫海涛,王立新,石虹,欧阳藩.红曲霉在大米培养基中生长的电镜观察。
[136] Mo HT. Wang LX. Shi H. In: Biochemical Engineering: Marching Toward the Century of Biotechnology(Proeeeding ofAPBIOCHEC'97). 1997: 423-426。
[137] Buzzigoli A, Lanzone L, Ciociaro D, et al.J Chromatogr., 1990, 507: 85; Bidlingreyer B A, et al. J Assoc Off Anal Chem, 1987, 70: 241。
[138] Thio A P, Tompkins MJ. J Chromatogra., 1989, 487: 167。
[139] Teerlink T, van Leeuwen P A M and Houdijk A. Clin Chem, 1994, 40(2): 245。
[140] Jones B N, Gilligan J P, Chromatogra, 1983, 266: 247。
[141] Haynes P A, Sheumack D, Kibby J, et al. J Chromatogr, 1991, 540: 177。
[142] Einarasson S, et al. J Chromatogra, 1998, 286: 609。
[143] Cheng Y F and Dovichi NJ. Science, 1989, 242: 562。
[144] Rubenstein M, Chem KS, Stein S, et al.Anal Biochem, 1979, 95: 117。
[145] Cohen SA, Michanl D P, Anal Biochem, 1988, 170: 20。
[146] Cohen SA, DeAntonis K M, J Chromatogra A, 1994, 661: 25。
[147] Cladrowa-Runge S, Rizz A. J Chromatogra A, 1997, 759: 157。
[148] Li G D, Krull I S, Cohen SA. J Chromatogra A, 1996, 724: 147。
[149] Cladrowa-Runge S, Rizz A. J Chromatogra A, 1997, 759: 167。
[150] Nahorski S R. Aradioreceptor assay using H-muscimol for GABA in human CFS. Br J Pharmaeal, 1981, 72: 16。
[151] 胡红焱,杨树德.细菌荧光酶生物发光分析法测定血清中抑制性神经递质GABA.武警医学,1998,9(4):190~193。
[152] S. Blackburn, Amio Acid Determination. Marcel Dekker Inc. New York, 1968.
[153] Bongiovabnni R.高高效液相色谱法蒸发——光散射检测器定量分析未衍生化的氨基酸.药物分析杂志.1994,14(5):62~63。
[154] Chaves das Neves HJ, Braga Morais Z.HPLC assay of underivatized amino acid with column switching and evaporative light-scattering detection. J High Res Chromatogr, 1997, 20: 115~118。
[155] Application note E0040.Deerfieid, IL: Alltech Associates, 1997; W. E. Artz and S. L. Hansen. The Evaporative Light Scattering Detector.Inforrn.Vol.6,No.2。
[156] Iizuka, H. and C. F. Lin. 1980. One the genus Monascus of Asia and its specific characteristics. Advances in Bioteehnol, 2: 555~561。
[157] 苏远志.红曲色素之生产研究。食品科学,1978,5(2):4A~17A。
[158] Yoshimura, M., S. Yamanka, K. Mitsugi and Y. Hirose. Production of Monascus-pigment in a submerged culture.Agr. Biol. Chem, 1975, 39(9): 1789~1795。
[159] Sakurai Y,Lee T H,Shiota H.Agric.Biol.Chem.,1977,41:619~624;小崎道雄,北原觉雄.日本食品工业学会志,1974,21(1):38~41。
[160] 刘生连、黄荣贞、陈炯明、周清水.自动制曲机制曲与手工制曲之比较.中国农业化学会志,1966,4(1,2):34~37。
[161] Nelson, N.A photometric adaptation of the Somogyi method for the determination of glucose. J. Biol. Chem. 1944, 153: 375~380。
[162] Somogyi, M. Notes on sugar determination. J. Biol. Chem. 1952, 195:19~23。
[163] Narahara, H., Y. Kopyama, T. Yoshida, S. Pichangkura, R. Ueda and H. Taguchi. Growth and enzyme production in a solid-state culture of Aspergillus oryzae. 1982,60(4): 311~319。
[164] Hull, M. E.Studies on milk protein Ⅱ. Colorimetric determination of partial hydrolysis of the proteins in milk. J. Dairy Sci. 1947, 30(1): 881~884。
[165] 刑来君,李春明.普通真菌学.北京:高等教育出版社,1999,26~29。