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·2064· 精细化工 FINE CHEMICALS 第 35 卷

crude fractions and morel compounds from wild edible mushrooms technology of food industry, 2018, 39(3): 205-208, 214.
of North western Himalaya[J]. Microbial Pathogenesis, 2017, 105(4): [16] Song Jinzhi (宋金枝), Yu Jianrui (于剑瑞), Liu Wei (刘伟), et al.
356-360. Analysis of structure and growth of Morehellaesculenta (L.) Pers. in
[6] Sarikurkcu C, Tepe B, Solak M H, et al. Metal concentrations of wild Changbai Mountain area[J]. Jiangsu Agricultural Sciences(江苏农业
Edible Mushrooms from Turkey[J]. Ecology of Food and Nutrition, 科学), 2016, 44(9): 231-232, 250.
2012, 51(4): 346-363. [17] Lin Bin (林彬). Studies on protein ingredient and amino acid content
[7] Gu Kefei (顾可飞), Zhou Changyan (周昌艳), Shao Yi (邵毅), et al. of Morchellacrassipes (Vent.) Pers. Journal of Jilin Agricultural
The Composition Analysis of the Wild Boletus and Morel in Yunnan University (吉林农业大学学报), 1998, 20(s1): 112.
Province Nutrient[J]. Food Research And Development (食品研究与 [18] Sun Baoguo (孙宝国), Cao Yanping (曹雁平), Li Jian (李健), et
开发), 2017, 38(17): 129-133. al．Frontier Dynamic of Food Science Research[J]. Journal of Food
[8] Liu Bei (刘蓓), Wu Surui (吴素蕊), Zhu Ping (朱萍), et al. Nutrient Science and Technology (食品科学技术学报), 2014, 32(2): 1-11.
analysis of morel in northwest Yunnan Province[J]. Food Research [19] Tietel Z, Masaphy S. True Morels (Morchella) Nutritional and
And Development (食品研究与开发), 2012, 32(1): 363-365 . phytochemical composition, health benefits and favor: A review[J].
[9] Liu Q Z, Ma H S, Zhang Y, et al. Artificial cultivation of true morels: Critical Reviews in Food Science and Nutrition, 2017, 28(3): 1-14.
current state, issues and perspectives[J]. Critical Reviews in [20] Zhang Zhong (张忠), Gu Zhen (谷镇), Yang Yan (杨焱), et al.
Biotechnology, 2018, 38(2): 259-271. Evaluation of the Umami Taste of Three Species of Dried Wild
[10] Li W, Gu Z, Yang Y, et al. Non-volatile taste components of several Edible Fungi[J]. Journal of food science (食品科学), 2013, 34(21):
cultivated mushrooms[J]. Food Chemistry, 2014, 143(1): 427-431. 51-54.
[11] Chen W C, Li W, Yang Y, et al. Analysis and evaluation of Tasty [21] Phat C, Moon B, Lee C. Evaluation of umami taste in mushroom
components in the Pileus and Stipe of Lentinula edodes at different extracts by chemical analysis, sensory evaluation, and an electronic
growth stages[J]. Journal of Agricultural and Chemistry Food, 2015, tongue system[J]. Food Chemistry, 2015, 192(1): 1068-1077.
63(3): 795-801. [22] KalačP. A review of chemical composition and nutritional value of
[12] Ding Qi (丁奇), Zhao Jing (赵静), Sun Ying (孙颖), et al. wild-growingand cultivated mushrooms[J]. Journal of the Science
Comparative Analysis of Free Amino Acid Composition and Taste and Agriculture Food of, 2013, 93(2): 209-218.
Contribution in Four Kinds of Chicken Soup[J]. Fine Chemicals (精 [23] Zhang Lu (张璐), Gong Zhiqing (弓志青), Wang Wenliang (王文亮),
细化工), 2015, 32(11): 1260-1265. et al. Analysis of flavor components and evaluation on umami of
[13] Vieira V, Fernandes Â, Barros L, et al. Wild Morchellaconica Pers. seven kinds of edible fungi[J]. Food Science and Technology (食品
from different origins: a comparative study of nutritional and bioactive 科技), 2017, 42(3): 274-278.
properties[J]. Journal of the Science of Food and Agriculture, 2016, [24] Li X, Feng T, Zhou F, et al. Effects of drying methods on the tasty
96(1): 90-98. compounds of Pleurotuseryngii[J]. Food Chemistry, 2015, 166(1):
[14] He Shuling (何淑玲), Zhao Kentian (赵垦田), Ma Lingfa (马令法), 358-364.
et al. Effects of different cultivars on the growth and quality of [25] Pei F, Shi Y, Gao X, et al. Changes in non-volatile taste components
morels[J]. Edible fungi (食用菌), 2017, 39(4): 27-30. of button mushroom (Agaricusbisporus) during different stages of
[15] Duan L L, Jia H F, Ji D R, et al. Optimization of the boiling process freeze drying and freeze drying combined with microwave vacuum
of Morchella soup and its flavor composition analysis[J]. Science and drying[J]. Food Chemistry, 2014, 165(12): 547-554.

（上接第 2044 页） diastereoselectivity studies[J]. Chemical Engineering Science, 2017,
169: 97-105.
[5] Harwood L M, Aldous D J, Drew M G, et al. 1,3-Dipolar [15] Fesko K, Strohmeier G A, Breinbauer R. Expanding the threonine
cyloadditions to unsymmetrical ketone-derived chiral stabilized aldolase toolbox for the asymmetric synthesis of tertiary alpha-amino
azomethine ylides: strategies for the synthesis of highly substituted acids[J]. Applied Microbiology and Biotechnology, 2015, 99(22):
amino acids[J]. Synthesis, 2005(19): 3271-3278. 9651-9661.
[6] Li Q, Zhang H, Li C, et al. Stereoselective synthesis of [16] Baik S H, Yoshioka H. Enhanced synthesis of L-threo-3,4-
(−)-chloramphenicol, (+)-thiamphenicol and (+)-sphinganine via
chiral tricyclic iminolactone[J]. Chinese Journal of Chemistry, 2013, dihydroxyphenylserine by high-density whole-cell biocatalyst of
recombinant L-threonine aldolase from streptomyces avelmitilis[J].
31(1): 149-153.
[7] Yuttapong Singjunla J B, Jacques R. Direct synthesis of Biotechnology Letters, 2009, 31(3): 443-448.
β-hydroxy-α-amino acids via diastereoselective decarboxylative aldol [17] Roberto Contestabile A P, Stefano P, Martino L S, et al. L-Threonine
reaction[J]. Organic Letters, 2013, 15(22): 5770-5773. aldolase, serine hydroxymethyltransferase and fungal alanine
[8] Wang Peng (王鹏), Gao Han (高晗), Liu Qian (刘茜), et al. racemase[J]. European Journal of Biochemistry, 2001, 268(24):
Enzymatic properties of recombinant tyrosine decarboxylase [J]. Fine 6508-6525.
Chenicals (精细化工), 2014, 31(7): 844-847. [18] Remesh S G, Ghatge M S, Ahmed M H, et al. Molecular basis of E.
[9] Hernandez K, Zelen I, Petrillo G, et al. Engineered L-serine coli L-threonine aldolase catalytic inactivation at low pH[J].
hydroxymethyltransferase from Streptococcus thermophilus for the Biochimica et Biophysica Acta, 2015, 1854(4): 278-283.
synthesis of alpha,alpha-dialkyl-alpha-amino acids[J]. Angewandte [19] Gwon H J, Baik S H. Diastereoselective synthesis of: L-threo-3,4-
Chemie International Edition, 2015, 54(10): 3013-3017. dihydroxyphenylserine by low-specific L-threonine aldolase
[10] Fesko K, Giger L, Hilvert D. Synthesis of beta-hydroxy-alpha-amino mutants[J]. Biotechnology Letters, 2010, 32(1): 143-149.
acids with a reengineered alanine racemase[J]. Bioorganic & [20] Chen Ruifeng (陈瑞锋), Chen Lu (陈璐), Chen Tingdeng (陈廷登).
Medicinal Chemistry Letters, 2008, 18(22): 5987-5990. Study on isolation and purification of L-Phenylalanin and L-Tyrosine
[11] Clapés P, Garrabou X. Current trends in asymmetric synthesis with by active carbon [J]. Journal of Zhejiang University of Technology
aldolases[J]. Advanced Synthesis & Catalysis, 2011, 353(13): (浙江工业大学学报), 2006, 34(4): 373-376.
2263-2283. [21] Sambrook J, Rusell D W. Molecular cloing: a laboratory manual[M].
[12] Baer K, Dückers N, Rosenbaum T, et al. A study towards efficient Beijing:Science Press, 2002: 2-105.
L-threonine aldolase-catalyzed enantio and diastereoselective aldol [22] Quan Hongna (全红娜), Jin Songzi (金松子), Lei Yongsheng (雷勇
reactions of glycine with substituted benzaldehydes: biocatalyst 胜), et al. Research progress on selection and optimization of mobile
production and process development[J]. Tetrahedron: Asymmetry, phase in RP-HPLC[J]. Drug&Clinic (现代医药与临床), 2014,
2011, 22(9): 925-928. 29(10): 1190-1194.
[13] Fesko K. Threonine aldolases: perspectives in engineering and [23] Gao Yanli (高艳利), Yang Siwen (杨思文), Fan Kaiqi (樊凯奇), et
screening the enzymes with enhanced substrate and stereo al. Development of SDS-PAGE in protein[J]. Liao Ning Chemical
specificities[J]. Applied Microbiology and Biotechnology, 2016, Industry (辽宁化工), 2007, 36(7): 460-463.
100(6): 2579-2590. [24] Wu Siping (吴四平), Lu Yang (陆阳), Zhang Hongjuan (张宏娟), et al.
[14] Čech J, Hessel V, Přibyl M. Aldolase catalyzed L-phenylserine Enzymatic properties of recombinant aspartate--decarboxylase[J].
synthesis in a slug-flow microfluidic system–Performance and Fine Chemicals (精细化工), 2015, 32(6): 637-641.

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