L-2-氨基-3-苯基丙酸
L-苯丙氨酸(L-Phenylalanine)
CAS: 63-91-2;3617-44-5
化学式: C9H11NO2
性质
白色单斛片状、小叶状或针状结晶。283℃分解。 极微溶于乙醇、甲醇。
制法
将脱脂大豆用盐酸水解后,除去酸性氨基酸,用活性炭或脱色树脂吸附苯丙氨酸和酪氨酸。再用溶剂将苯丙氨酸溶出、分离即可。
用途
用于生化研究、培养基配制。
安全性
- 吸入、食入及接触有害。如误服本品,误服者有意识未发生痉挛,可使其饮1~2杯水以稀释,然后立即送医院。应穿戴防护用具。
- 以纸桶装,25kg/桶。远离强氧化剂。
| 中文名 | L-苯丙氨酸 |
| 英文名 | L-Phenylalanine |
| 别名 | 苯丙氨酸 L-苯丙氨酸 L-苯基丙胺酸 L-苯基丙氨酸 L-2-氨基苯丙酸 阿斯巴甜EP杂质C 苯丙氨酸 (PHE) L-Α-氨基氢化肉桂酸 苯丙氨酸溶液 (PHE) L-2-氨基-3-苯基丙酸 L-苯丙氨酸, 非动物源,EP,JP,USP L-苯丙氨酸AJI88,USP23,FCCIII,CP2000 |
| 英文别名 | PHE H-Phe-OH H-L-PHE-OH Phenylalanine L-Phenylalanie L-Phenylalanin L-Phenylalanine Phenyalanine, L- Phenylalanine, L- L-Alanine, phenyl- L(-)Phenylalaniline L-Antibiotic FN 1636 L-beta-Phenylalanine (S)-(-)-Phenylalanine l-beta-phenyl-alpha-alanin L-AminobenzenepropanoicAcid L-α-Amino-β-phenyl-propionsαure (S)-2-Amino-3-Phenylpropionic acid (S)-(-)-PHENYLALANINE FOR SYNTHESIS (S)-2-Amino-3-phenylpropionic acid~H-Phe-OH |
| CAS | 63-91-2 3617-44-5 |
| EINECS | 200-568-1 |
| 化学式 | C9H11NO2 |
| 分子量 | 165.19 |
| InChI | InChI:1S/C9H11NO2/c10-8(9(11)12)6-7-4-2-1-3-5-7/h1-5,8H,6,10H2,(H,11,12) |
| InChIKey | COLNVLDHVKWLRT-QMMMGPOBSA-N |
| 密度 | 1.29 |
| 熔点 | 270-275°C (dec.)(lit.) |
| 沸点 | 293.03°C (rough estimate) |
| 比旋光度 | -34.1 º (c=2, water, dry basis) |
| 闪点 | 153.1°C |
| 水溶性 | 1-5 g/100 mL at 25 ºC |
| 蒸汽压 | <1 Pa (25 °C) |
| JECFA Number | 1428 |
| 溶解度 | H2O: 0.1M,20 °C,澄清,无色 |
| 折射率 | -34 ° (C=2, H2O) |
| 酸度系数 | 2.2(at 25℃) |
| PH值 | 5.0-7.0 (25℃, 0.1M in H2O) |
| 存储条件 | Store below +30°C. |
| 稳定性 | 稳定。与强氧化剂不相容。 |
| 敏感性 | Sensitive to light |
| 外观 | 粉末 |
| 颜色 | White to off-white |
| Merck | 14,7271 |
| BRN | 1910408 |
| 物化性质 | 无色至白色片状晶体或白色结晶性粉末。略有特殊气味和苦味。约于283℃熔化并分解。10%水溶液的pH值为5.4~6.0。在受热、光照、空气中稳定。与葡萄糖一起加热则着色。碱性下不稳定。溶于水(3g/100ml,25℃)。难溶于乙醇、稀无机酸和碱性溶液。必需氨基酸之一。其生理作用与酪氨酸有关。可影响甲状腺激素和毛发、皮肤的黑色素。D-型与L-型的生理效果相同。最低需要量(mg/kg?d):成人男子31;幼儿169。 |
| MDL号 | MFCD00064227 |
| 危险品标志 | C - 腐蚀性物品 |
| 风险术语 | R36/37/38 - 刺激眼睛、呼吸系统和皮肤。 R34 - 引起灼伤。 |
| 安全术语 | S22 - 切勿吸入粉尘。 S24/25 - 避免与皮肤和眼睛接触。 S37/39 - 戴适当的手套和护目镜或面具。 S45 - 若发生事故或感不适,立即就医(可能的话,出示其标签)。 S36/37/39 - 穿戴适当的防护服、手套和护目镜或面具。 S27 - 一旦衣物受到污染,请立即脱去。 S26 - 不慎与眼睛接触后,请立即用大量清水冲洗并征求医生意见。 |
| WGK Germany | 3 |
| RTECS | AY7535000 |
| FLUKA BRAND F CODES | 10 |
| TSCA | Yes |
| 海关编号 | 29224995 |
| 上游原料 | L-精氨酸 Boc-D-酪氨酸 苯丙氨酯 N-苄氧羰基-DL-亮氨酸 |
| 下游产品 | DL-色氨酸 DL-苯丙氨酸 [MET5]脑啡肽 BOC-L-苯丙氨酸 |
| 参考资料 展开查看 | 1. 郭孝敬, 郑晓吉, 史学伟,等. 高产2-苯乙醇酵母的筛选及其发酵条件优化[J]. 中国调味品, 2019, 044(011):55-61. 2. 罗政, 郭媛媛, 陈飞平,等. 高氧气调包装抑制菜心木质化关键酶苯丙氨酸酶的研究[J]. 食品研究与开发, 2019, 40(08):36-40. 3. 吴文胜, 黄泽铃, 陈涌,等. 阳离子改性棉织物的活性染色[J]. 印染, 2018, 044(011):20-24. 4. 章宁瑛, 郜海燕, 陈杭君. 臭氧处理对蓝莓贮藏品质及抗氧化酶活性的影响[J]. 中国食品学报, 2017, 17(008):170-176. 5. 张爽 付士朋 刘悦 等. HPLC法分析刺五加茎中原儿茶酸及苯丙素类成分动态累积规律研究[J]. 天然产物研究与开发 2018(8):1410-1414. 6. 甘惠玉 黄露. L-脯氨酸修饰金纳米通道的制备及应用[J]. 闽江学院学报 2019 40(02):101-105. 7. 代莉莉, 金珊霞, 范梦莹,等. 季铵化β-环糊精接枝壳聚糖涂层用于毛细管电泳分离的研究[J]. 分析试验室, 2017, 08(v.36):15-18. 8. 梁静静, 李大伟, 史瑞琴,等. 腐乳中产生物胺菌株的筛选鉴定及产生物胺能力评价[J]. 河北农业大学学报, 2019(3). 9. 李俊萍, 付士朋, 王谦博,等. 多指标综合评价刺五加叶适宜采收期的研究[J]. 中草药, 2019, v.50;No.648(13):196-201. 10. 侯丽娟 严超 齐晓茹 王颉. 不同品种红枣酿制枣酒的香气差异性研究[J]. 食品工业 2017(5):208-212. 11. 严超, 侯丽娟, 齐晓茹,等. 红枣白兰地发酵过程中酒醅氨基酸和有机酸的变化分析[J]. 食品工业科技, 2017, 38(014):121-125. 12. 李婉斯, 李婷, 陆春怡,等. 基于HPLC指纹图谱及聚类分析评价市售阿胶的质量[J]. 上海中医药大学学报, 2017, 031(006):91-96. 13. 金司阳, 刘寒, 杨立学,等. 植物-土壤反馈对刺五加幼苗次生代谢产物的影响[J]. 中国实验方剂学杂志, 2020. 14. 王婷婷,郜玉钢,臧埔,赵岩,何忠梅,祝洪艳,张连学.复方麦鹿芪人参制剂主要成分变化及其在肝癌H22荷瘤小鼠体内的抗肿瘤作用[J].吉林大学学报(医学版),2017,43(04):698-704+858-859. 15. 甘学文,王光耀,邓仕彬,张春晖,崔和平,刘曙光,于静洋,成涛,张晓鸣.美拉德反应中间体对卷烟评吸品质的影响及其风味受控形成研究[J].食品与机械,2017,33(06):46-52. 16. 谈梦霞, 陈佳丽, 邹立思,等. 不同贮藏条件对麦冬药材质量的影响[J]. 中药材, 2018(11). 17. 荣雅利,汪之和,周婷婷,施文正.南极磷虾羧肽酶的适冷特性及蛋白质结构预测[J].水产学报,2020,44(11):1893-1902. 18. 乔亚丽,刘喆,沈爱金,郭志谋,刘艳芳,陈相银,徐青,梁鑫淼.穿山甲色谱指纹谱的建立及其在基源鉴别和质量等级区分方面的应用[J].色谱,2020,38(12):1440-1448. 19. 李丽丽,李月,卢恒,王晓.基于液相色谱-质谱法的不同花期金银花代谢组学分析[J].分析测试学报,2020,39(12):1501-1507. 20. Zhao, Zheng, et al. "Cholinium amino acids-glycerol mixtures: New class of solvents for pretreating wheat straw to facilitate enzymatic hydrolysis." Bioresource technology 245 (2017): 625-632.https://doi.org/10.1016/j.biortech.2017.08.209 21. Li, Suhong, et al. "Mechanisms of high concentration valine-mediated inhibition of peach tree shoot growth." Frontiers in Plant Science 11 (2020).https://dx.doi.org/10.3389%2Ffpls.2020.603067 22. Wang, Hanbo, et al. "Methyl jasmonate induces the resistance of postharvest blueberry to gray mold caused by Botrytis cinerea." Journal of the Science of Food and Agriculture 100.11 (2020): 4272-4281.https://doi.org/10.1002/jsfa.10469 23. Chau, Siu-Leung, et al. "Comprehensive quantitative analysis of SQ injection using multiple chromatographic technologies." Molecules 21.8 (2016): 1092.https://doi.org/10.3390/molecules21081092 24. Lu, L., X. Ni, and X. Luo. "Influence of phenylalanine on carotenoid aggregation." Journal of Applied Spectroscopy 81.6 (2015): 1068-1072. 25. Wang, Li-Ming, et al. "1H NMR and UHPLC/Q-Orbitrap-MS-Based metabolomics combined with 16S rRNA gut microbiota analysis revealed the potential regulation mechanism of nuciferine in hyperuricemia rats." Journal of Agricultural and Food Chemistry 68.47 (2020 26. Zhang, Xiaoyong, et al. "Comparative metabolomics analysis of cervicitis in human patients and a phenol mucilage-induced rat model using liquid chromatography tandem mass spectrometry." Frontiers in pharmacology 9 (2018): 282.https://doi.org/10.3389/fphar. 27. Ziwei Liu, Yuzhi Wang, Fangting Xu, Xiaoxiao Wei, Jing Chen, Heqiong Li, Xiyan He, Yigang Zhou,A new magnetic molecularly imprinted polymer based on deep eutectic solvents as functional monomer and cross-linker for specific recognition of bovine hemoglobi 28. Xia, Yuanyuan, et al. "Characterization, quantitation and similarity evaluation of Codonopsis lanceolata from different regions in China by HPLC-Q-TQF-MS and chemometrics." Journal of Food Composition and Analysis 62 (2017): 134-142.https://doi.org/10.1016 29. Wen, Zhiqi, et al. "Metabolomics and 16S rRNA Gene sequencing analyses of changes in the intestinal flora and biomarkers induced by gastrodia-uncaria treatment in a rat model of chronic migraine." Frontiers in pharmacology 10 (2019): 1425.https://doi.org/1 30. Wang, Chengcheng, et al. "Distribution patterns for metabolites in medicinal parts of wild and cultivated licorice." Journal of pharmaceutical and biomedical analysis 161 (2018): 464-473.https://doi.org/10.1016/j.jpba.2018.09.004 31. Chen, J., Wang, Y., Wei, X. et al. A composite prepared from MnO2 nanosheets and a deep eutectic solvent as an oxidase mimic for the colorimetric determination of DNA. Microchim Acta 187, 7 (2020). https://doi.org/10.1007/s00604-019-4021-5 32. Cai, Z, Liao, H, Wang, C, et al. A comprehensive study of the aerial parts of Lonicera japonica Thunb. based on metabolite profiling coupled with PLS-DA. Phytochemical Analysis. 2020; 31: 786– 800. https://doi.org/10.1002/pca.2943 33. [IF=6.079] Tian Luo et al."Determination of underivatized amino acids to evaluate quality of beer by capillary electrophoresis with online sweeping technique."J Food Drug Anal. 2017 Oct;25:789 34. [IF=5.923] Cuihua Chen et al."Variations in Physiology and Multiple Bioactive Constituents under Salt Stress Provide Insight into the Quality Evaluation of Apocyni Veneti Folium."Int J Mol Sci. 2018 Oct;19(10):3042 35. [IF=5.81] Zhang Xiaoyong et al."Comparative Metabolomics Analysis of Cervicitis in Human Patients and a Phenol Mucilage-Induced Rat Model Using Liquid Chromatography Tandem Mass Spectrometry."Front Pharmacol. 2018 Apr;0:282 36. [IF=4.952] Fengfeng Qu et al."Effect of different drying methods on the sensory quality and chemical components of black tea."Lwt Food Sci Technol. 2019 Jan;99:112 37. [IF=4.556] Yuanyuan Xia et al."Characterization, quantitation and similarity evaluation of Codonopsis lanceolata from different regions in China by HPLC-Q-TQF-MS and chemometrics."J Food Compos Anal. 2017 Sep;62:134 38. [IF=4.411] Siu-Leung Chau et al."Comprehensive Quantitative Analysis of SQ Injection Using Multiple Chromatographic Technologies."Molecules. 2016 Aug;21(8):1092 39. [IF=4.411] Cuihua Chen et al."Quality Evaluation of Apocyni Veneti Folium from Different Habitats and Commercial Herbs Based on Simultaneous Determination of Multiple Bioactive Constituents Combined with Multivariate Statistical Analysis."Molecules. 2018 Mar;23(3):5 40. [IF=4.411] Yujiao Hua et al."Quality Evaluation of Pseudostellariae Radix Based on Simultaneous Determination of Multiple Bioactive Components Combined with Grey Relational Analysis."Molecules. 2017 Jan;22(1):13 41. [IF=4.098] Chunlin Li et al."Rapid and non-destructive discrimination of special-grade flat green tea using Near-infrared spectroscopy."Spectrochim Acta A. 2019 Jan;206:254 42. [IF=3.535] Tian Luo et al."Establishing a sensitive capillary electrophoresis-UV method for direct determination of amino acids to evaluate vinegar quality."Electrophoresis. 2018 Jun;39(11):1410-1416 43. [IF=2.896] Jing Ke et al."Development of a gradient micellar liquid chromatographic method eluting from micellar mode to high submicellar mode for the rapid separation of free amino acids."Anal Methods-Uk. 2017 Mar;9(11):1762-1770 44. [IF=2.896] Ya-yun Chen et al."Determination of free amino acids and nucleosides and nucleobases in Annona squamosa L. fruitages from different regions in China by LC-QTRAP-MS/MS."Anal Methods-Uk. 2017 Jun;9(25):3862-3869 45. [IF=2.727] Tian Luo et al."Quality assessment of soy sauce using underivatized amino acids by capillary electrophoresis."International Journal Of Food Properties. 2018 Jan 08 46. [IF=1.913] Xie Yunfei et al."Rapid Determination of Amino Acids in Beer, Red Wine, and Donkey-Hide Gelatin by Gradient Elution of HPLC: From Micellar Liquid Chromatography to High Submicellar Liquid Chromatography."J Aoac Int. 2018 Jan;101(1):249-255 47. [IF=0.741] Lu L. et al."Influence of Phenylalanine on Carotenoid Aggregation."J Appl Spectrosc+. 2015 Jan;81(6):1068-1072 48. [IF=11.413] Yan Yin et al."De novo biosynthesis of liquiritin in Saccharomyces cerevisiae."Acta Pharm Sin B. 2020 Apr;10:711 49. [IF=6.558] Ziwei Liu et al."A new magnetic molecularly imprinted polymer based on deep eutectic solvents as functional monomer and cross-linker for specific recognition of bovine hemoglobin."Anal Chim Acta. 2020 Sep;1129:49 50. [IF=6.558] Xiaoxiao Wei et al."Ionic liquids skeleton typed magnetic core-shell molecularly imprinted polymers for the specific recognition of lysozyme."Anal Chim Acta. 2019 Nov;1081:81 51. [IF=6.057] Chenglong Sun et al."1,1′-binaphthyl-2,2′-diamine as a novel MALDI matrix to enhance the in situ imaging of metabolic heterogeneity in lung cancer."Talanta. 2020 Mar;209:120557 52. [IF=5.833] Xi Ying et al."A monolithic capillary modified with a copoplymer prepared from the ionic liquid 1-vinyl-3-octylimidazolium bromide and styrene for electrochromatography of alkylbenzenes, polycyclic aromatic hydrocarbons, proteins and amino acids."Microch 53. [IF=5.81] Wen Zhiqi et al."Metabolomics and 16S rRNA Gene Sequencing Analyses of Changes in the Intestinal Flora and Biomarkers Induced by Gastrodia-Uncaria Treatment in a Rat Model of Chronic Migraine."Front Pharmacol. 2019 Dec;0:1425 54. [IF=5.753] Suhong Li et al."Mechanisms of High Concentration Valine-Mediated Inhibition of Peach Tree Shoot Growth."Front Plant Sci. 2020; 11: 603067 55. [IF=5.645] Ru Zhao et al."Biodiesel preparation from Thlaspi arvense L. seed oil utilizing a novel ionic liquid core-shell magnetic catalyst."Ind Crop Prod. 2021 Apr;162:113316 56. [IF=5.537] Yurong Ma et al."Pre-cut NaCl solution treatment effectively inhibited the browning of fresh-cut potato by influencing polyphenol oxidase activity and several free amino acids contents."Postharvest Biol Tec. 2021 Aug;178:111543 57. [IF=5.279] Li-Ming Wang et al."1H NMR and UHPLC/Q-Orbitrap-MS-Based Metabolomics Combined with 16S rRNA Gut Microbiota Analysis Revealed the Potential Regulation Mechanism of Nuciferine in Hyperuricemia Rats."J Agr Food Chem. 2020;68(47):14059–14070 58. [IF=4.952] Huan Zhang et al."Label-free quantification proteomics reveals the active peptides from protein degradation during anaerobic fermentation of tea."Lwt Food Sci Technol. 2021 Oct;150:111950 59. [IF=4.879] Yang Liu et al."UV-B Radiation Largely Promoted the Transformation of Primary Metabolites to Phenols in Astragalus mongholicus Seedlings."Biomolecules. 2020 Apr;10(4):504 60. [IF=4.821] Peng Wan et al."Analysis of aroma-active compounds in bighead carp head soup and their influence on umami of a model soup."Microchem J. 2021 Sep;168:106436 61. [IF=4.556] Dandan Zhao et al."Physico-chemical properties and free amino acids profiles of six wolfberry cultivars in Zhongning."J Food Compos Anal. 2020 May;88:103460 62. [IF=4.466] Yao Tan et al."Multiomics Integrative Analysis for Discovering the Potential Mechanism of Dioscin against Hyperuricemia Mice."J Proteome Res. 2021;20(1):645–660 63. [IF=4.411] Mengxia Tan et al."Quality Evaluation of Ophiopogonis Radix from Two Different Producing Areas."Molecules. 2019 Jan;24(18):3220 64. [IF=4.411] Shengxin Yin et al."Comparison of Multiple Bioactive Constituents in the Corolla and Other Parts of Abelmoschus manihot."Molecules. 2021 Jan;26(7):1864 65. [IF=4.379] Feng Lin et al."Chemical profile changes during pile fermentation of Qingzhuan tea affect inhibition of α-amylase and lipase."Sci Rep-Uk. 2020 Feb;10(1):1-10 66. [IF=4.36] Zhao-Yi Wang et al."Integrated strategy of LC-MS and network pharmacology for predicting active constituents and pharmacological mechanisms of Ranunculus japonicus Thunb. for treating rheumatoid arthritis."J Ethnopharmacol. 2021 May;271:113818 67. [IF=4.35] Xiaomei Dai et al."1-Methylcyclopropene Preserves the Quality of Chive (Allium schoenoprasum L.) by Enhancing Its Antioxidant Capacities and Organosulfur Profile during Storage."Foods. 2021 Aug;10(8):1792 68. [IF=4.27] Cuihua Chen et al."Metabolomics characterizes metabolic changes of Apocyni Veneti Folium in response to salt stress."Plant Physiol Bioch. 2019 Nov;144:187 69. [IF=4.142] Qu Fei et al."Ratiometric detection of alkaline phosphatase based on aggregation-induced emission enhancement."Anal Bioanal Chem. 2019 Nov;411(28):7431-7440 70. [IF=4.142] Wang Chenxi et al."Systematic quality evaluation of Peiyuan Tongnao capsule by offline two-dimensional liquid chromatography/quadrupole-Orbitrap mass spectrometry and adjusted parallel reaction monitoring of quality markers."Anal Bioanal Chem. 2019 Nov;4 71. [IF=4.142] Li Cong et al."A fluorescence strategy for monitoring α-glucosidase activity and screening its inhibitors from Chinese herbal medicines based on Cu nanoclusters with aggregation-induced emission."Anal Bioanal Chem. 2021 Apr;413(9):2553-2563 72. [IF=4.098] Chunlin Li et al."Discrimination of white teas produced from fresh leaves with different maturity by near-infrared spectroscopy."Spectrochim Acta A. 2020 Feb;227:117697 73. [IF=3.935] Biru Shi et al."Investigation on the stability in plant metabolomics with a special focus on freeze-thaw cycles: LC–MS and NMR analysis to Cassiae Semen (Cassia obtusifolia L.) seeds as a case study."J Pharmaceut Biomed. 2021 Sep;204:114243 74. [IF=3.638] Hanbo Wang et al."Methyl jasmonate induces the resistance of postharvest blueberry to gray mold caused by Botrytis cinerea."J Sci Food Agr. 2020 Aug;100(11):4272-4281 75. [IF=3.373] Zhichen Cai et al."A comprehensive study of the aerial parts of Lonicera japonica Thunb. based on metabolite profiling coupled with PLS-DA."Phytochem Analysis. 2020 Nov;31(6):786-800 76. [IF=3.361] Ning Zhao et al."Ratiometric fluorescence probe of Cu2+ and biothiols by using carbon dots and copper nanoclusters."Rsc Adv. 2021 Oct;11(53):33662-33674 77. [IF=3.361] Furong Wang et al."Effect of free amino acids and peptide hydrolysates from sunflower seed protein on the formation of pyrazines under different heating conditions."Rsc Adv. 2021 Aug;11(45):27772-27781 78. [IF=3.24] Zhichen Cai et al."Metabolomics characterizes the metabolic changes of Lonicerae Japonicae Flos under different salt stresses."Plos One. 2020 Dec;15(12):e0243111 79. [IF=2.863] Qiang Wang et al."Effects of turmeric on reducing heterocyclic aromatic amines in Chinese tradition braised meat products and the underlying mechanism."Food Sci Nutr. 2021 Oct;9(10):5575-5582 80. [IF=2.097] Ke Jing et al."Isocratic micellar liquid chromatography using mixed anionic and non-ionic surfactants as mobile phase additives for separation of 17 free amino acids."Chem Pap. 2019 Oct;73(10):2417-2426 81. [IF=2.043] Guan Chengran et al."Variation of bitter components of the asparagus juices during lactic acid bacteria fermentation."Biosci Biotech Bioch. 2021 Oct;85(11):2300-2310 82. [IF=1.618] Wang Shengnan et al."Simultaneous Determination of Iridoid Glycosides, Phenylpropanoid Glycosides, Organic Acids, Nucleosides and Amino Acids in Scrophulariae Radix Processed by Different Processing Methods by HPLC-QTRAP-MS/MS."J Chromatogr Sci. 2021 Jun; 83. [IF=2.419] Shanshan Gao et al."Development and validation of a sensitive and reliable targeted metabolomics method for the quantification of cardiovascular disease-related biomarkers in plasma by using UPLC-MS/MS."Rapid Communications In Mass Spectrometry. 2022 Mar 84. [IF=4.242] Hang Yang et al."Dietary leucine requirement of juvenile largemouth bass (Micropterus salmoides) based on growth, nutrient utilization and growth-related gene analyses."Aquaculture. 2022 Jun;555:738207 85. [IF=5.34] Yule Wang et al."Guhong injection promotes post-stroke functional recovery via attenuating cortical inflammation and apoptosis in subacute stage of ischemic stroke."Phytomedicine. 2022 May;99:154034 86. [IF=7.514] YueTong Yu et al."Identification and Quantification of Oligomeric Proanthocyanidins, Alkaloids, and Flavonoids in Lotus Seeds: A Potentially Rich Source of Bioactive Compounds."Food Chem. 2022 Jan;:132124 87. [IF=4.411] Nan Wu et al."Quality Evaluation of Taxilli Herba from Different Hosts Based on Simultaneous Determination of Multiple Bioactive Constituents Combined with Multivariate Statistical Analysis."Molecules. 2021 Jan;26(24):7490 88. [IF=3.935] Min Zhang et al."Chemical profile and miscarriage prevention evaluation of Jiao-ai decoction, a classical traditional Chinese formula."JOURNAL OF PHARMACEUTICAL AND BIOMEDICAL ANALYSIS. 2022 May;:114832 89. [IF=5.548] Lang Zhang et al."Changes in flavor, heterocyclic aromatic amines, and quality characteristics of roasted chicken drumsticks at different processing stages."FOOD CONTROL. 2022 Sep;139:109104 90. [IF=3.463] Xiaomei Dai et al."S-alk(en)ylcysteine sulfoxides biosynthesis and free amino acids profile in different parts of postharvest chive (Allium schoenoprasum L.)."SCIENTIA HORTICULTURAE. 2022 Sep;303:111191 |
L-2-氨基-3-苯基丙酸 - 性质
可信数据
白色单斛片状、小叶状或针状结晶。283℃分解。 极微溶于乙醇、甲醇。
最后更新:2024-01-02 23:10:35
L-2-氨基-3-苯基丙酸 - 制法
可信数据
将脱脂大豆用盐酸水解后,除去酸性氨基酸,用活性炭或脱色树脂吸附苯丙氨酸和酪氨酸。再用溶剂将苯丙氨酸溶出、分离即可。
最后更新:2022-01-01 09:26:27
L-2-氨基-3-苯基丙酸 - 标准
可信数据
本品为L-2-氨基-3-苯基丙酸。按干燥品计算,含C9H1N02不得少于 98.5 % 。
最后更新:2024-01-02 23:10:35
L-2-氨基-3-苯基丙酸 - 性状
可信数据
- 本品为白色结晶或结晶性粉末;无臭。
- 本品在热水中溶解,在水中略溶,在乙醇中不溶;在稀酸或氢氧化钠试液中易溶。
比旋度
取本品,精密称定,加水溶解并定量稀释制成每lml中约含20mg的溶液,依法测定(通则0621),比旋度为—33.0°至一35.0°。
最后更新:2022-01-01 13:33:35
L-2-氨基-3-苯基丙酸 - 用途
可信数据
用于生化研究、培养基配制。
最后更新:2022-01-01 09:26:27
L-2-氨基-3-苯基丙酸 - 鉴别
可信数据
- 取本品与苯丙氨酸对照品各适量,分别加冰醋酸溶液(50-100)溶解并稀释制成每lml中约含lOmg的溶液,作为供试品溶液与对照品溶液。照其他氨基酸项下的色谱条件试验,供试品溶液所显主斑点的位置和颜色应与对照品溶液的主斑点相同。
- 本品的红外光吸收图谱应与对照的图谱(光谱集983图)一致。
最后更新:2022-01-01 13:33:35
L-2-氨基-3-苯基丙酸 - 安全性
可信数据
- 吸入、食入及接触有害。如误服本品,误服者有意识未发生痉挛,可使其饮1~2杯水以稀释,然后立即送医院。应穿戴防护用具。
- 以纸桶装,25kg/桶。远离强氧化剂。
最后更新:2022-01-01 10:54:49
L-2-氨基-3-苯基丙酸 - 检查
可信数据
酸度
取本品0.20g,加水20ml溶解后,依法测定(通则0631),pH值应为5.4〜6.0。
溶液的透光率
取本品0.50g,加水25ml溶解后,照紫外-可见分光光度法(通则0401),在430nm的波长处测定透光率,不得低于98.0% 。
氯化物
取本品0.30g,依法检查(通则0801),与标准氯化钠溶液6.Oml制成的对照液比较,不得更浓(0.02% ) 。
硫酸盐
取本品0.70g,依法检査(通则0802),与标准硫酸钾溶液1.4ml制成的对照液比较,不得更浓(0.02% ) 。
铵盐
取本品0.10g,依法检査(通则0808),与标准氯化铵溶液2.Oml制成的对照液比较,不得更深(0.02% ) 。
其他氨基酸
取本品适量,加冰醋酸溶液(50—100)溶解并稀释制成每lml中约含lOmg的溶液,作为供试品溶液;精密量取lml,置200ml量瓶中,用水稀释至刻度,摇匀,作为对照溶液;另取苯丙氨酸对照品和酪氨酸对照品各适量,置同一量瓶中,加适量冰醋酸溶液(50—100)溶解,用水稀释制成每lml中约含苯丙氨酸lOmg和酪氨酸0.lmg的溶液,作为系统适用性溶液。照薄层色谱法(通则0502)试验,吸取上述三种溶液各5ul,分别点于同一硅胶G 薄层板上,以正丁醇-冰醋酸-水(6:2:2)为展开剂,展开,晾干,喷以茚三酮的丙酮溶液(1—50),在90°C加热至斑点出现,立即检视。对照溶液应显一个清晰的斑点,系统适用性溶液应显两个完全分离的斑点。供试品溶液如显杂质斑点,其颜色与对照溶液的主斑点比较,不得更深(0.5% ) 。
干燥失重
取本品,在105°C干燥3小时,减失重量不得过 0.2% (通则 0831)。
炽灼残渣
取本品l.Og,依法检查(通则0841),遗留残渣不得过0.1 % 。
铁盐
取本品l.Og,依法检査(通则0807),与标准铁溶液1.0ml制成的对照液比较,不得更深(0.001% ) 。
重金属
取炽灼残渣项下遗留的残渣,依法检查(通则0821第二法),含重金属不得过百万分之十。
砷盐
取本品2.0g,加水23ml溶解后,加盐酸5ml,依法检查(通则0822第一法),应符合规定(0.0001% ) 。
细菌内毒素
取本品,加人内毒素检査用水,置温水浴中加热使其溶解,依法检查(通则1143),每lg苯丙氨酸中含内毒素的量应小于25EU。(供注射用)
最后更新:2022-01-01 13:33:36
L-2-氨基-3-苯基丙酸 - 含量测定
可信数据
取本品约0.13g,精密称定,加无水甲酸3ml溶解后,加冰醋酸50ml,照电位滴定法(通则0701),用高氣酸滴定液(O.lmol/L)滴定,并将滴定的结果用空白试验校正。每lml离氯酸滴定液(0.lmol/L)相当于16.52mg的C9H1N02。
最后更新:2022-01-01 13:33:37
L-2-氨基-3-苯基丙酸 - 类别
可信数据
氨基酸类药。
最后更新:2022-01-01 13:33:37
L-2-氨基-3-苯基丙酸 - 贮藏
可信数据
密封保存。
最后更新:2022-01-01 13:33:37
L-2-氨基-3-苯基丙酸 - 简介
L-苯丙氨酸是一种氨基酸,也被称为L-phenylalanine。以下是关于L-苯丙氨酸的性质、用途、制法和安全信息的介绍:
性质:
外观:L-苯丙氨酸是无色或白色结晶粉末。
溶解性:可溶于水和酸性溶液,不溶于乙醇、醚等有机溶剂。
化学性质:L-苯丙氨酸是一个手性分子,有两个对映异构体(D-型和L-型)。人体只能吸收和利用L-苯丙氨酸。
用途:
营养补充品:L-苯丙氨酸是一种必需氨基酸,可以作为膳食补充剂用于改善营养状态。
制法:
L-苯丙氨酸主要通过生物合成方法制备,通常使用微生物或植物提取。其中最常用的方法是利用微生物发酵法,通过微生物菌种在合成养分条件下生产L-苯丙氨酸。
安全信息:
L-苯丙氨酸在正常使用情况下,通常是安全的。过量摄入可能引起一些不良反应,如头晕、恶心、呕吐等。对于乳糖不耐受的人群或患有苯酮尿症的人群,应避免使用L-苯丙氨酸补充剂。
性质:
外观:L-苯丙氨酸是无色或白色结晶粉末。
溶解性:可溶于水和酸性溶液,不溶于乙醇、醚等有机溶剂。
化学性质:L-苯丙氨酸是一个手性分子,有两个对映异构体(D-型和L-型)。人体只能吸收和利用L-苯丙氨酸。
用途:
营养补充品:L-苯丙氨酸是一种必需氨基酸,可以作为膳食补充剂用于改善营养状态。
制法:
L-苯丙氨酸主要通过生物合成方法制备,通常使用微生物或植物提取。其中最常用的方法是利用微生物发酵法,通过微生物菌种在合成养分条件下生产L-苯丙氨酸。
安全信息:
L-苯丙氨酸在正常使用情况下,通常是安全的。过量摄入可能引起一些不良反应,如头晕、恶心、呕吐等。对于乳糖不耐受的人群或患有苯酮尿症的人群,应避免使用L-苯丙氨酸补充剂。
最后更新:2024-04-09 21:04:16
供应商列表
现货供应
产品名: L-苯丙氨酸 去供应商网站查看 询盘CAS: 63-91-2
产地: 北京
包装: 瓶
规格: P0010-10g,10g,SP8210-200mg,200mg,IP0190-W-1ml,10mM*1ml( in Water),IP0190-200mg,200mg,IP0190-1g,1g
价格: 电话、微信、QQ、邮件
库存: 现询
电话: 010-50973130
手机: 17801761073(微信同号)
电子邮件: 3193328036@qq.com
QQ: 3193328036
微信: 17801761073
产品描述: 产品覆盖:小分子化合物、分析对照品、染色试剂、生化试剂盒、细胞生物学、分子生物学、抗体、蛋白、多肽、ELISA试剂盒、微生物培养、化学合成、仪器耗材、CRO技术 更多
提供多种规格现货供应
产品名: L-Phenylalanine 去供应商网站查看 询盘CAS: 63-91-2
产地: 美国
包装: 10 mg;25 mg;50 mg;100 mg
规格: HY-N0215R
库存: 现货,货期:1-2天
电话: 021-38924433; 021-58955995
手机: 18019480960
电子邮件: sales@medchemexpress.cn
产品描述: 产品覆盖:8万多种抑制剂,11000+靶点蛋白,数百款试剂盒,200+生物活性化合物库,天然产物,抗体等. 纯度: ≥98%
现货供应
产品名: L-苯丙氨酸 去供应商网站查看 询盘CAS: 63-91-2
产地: 北京
包装: 瓶
规格: P0010-10g,10g,SP8210-200mg,200mg,IP0190-W-1ml,10mM*1ml( in Water),IP0190-200mg,200mg,IP0190-1g,1g
价格: 电话、微信、QQ、邮件
库存: 现询
电话: 010-50973130
手机: 17801761073(微信同号)
电子邮件: 3193328036@qq.com
QQ: 3193328036
微信: 17801761073
产品描述: 产品覆盖:小分子化合物、分析对照品、染色试剂、生化试剂盒、细胞生物学、分子生物学、抗体、蛋白、多肽、ELISA试剂盒、微生物培养、化学合成、仪器耗材、CRO技术 更多
提供多种规格现货供应
产品名: L-Phenylalanine 去供应商网站查看 询盘CAS: 63-91-2
产地: 美国
包装: 10 mg;25 mg;50 mg;100 mg
规格: HY-N0215R
库存: 现货,货期:1-2天
电话: 021-38924433; 021-58955995
手机: 18019480960
电子邮件: sales@medchemexpress.cn
产品描述: 产品覆盖:8万多种抑制剂,11000+靶点蛋白,数百款试剂盒,200+生物活性化合物库,天然产物,抗体等. 纯度: ≥98%
L-2-氨基-3-苯基丙酸的上游原料
L-2-氨基-3-苯基丙酸的下游产品
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