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D-苯丙氨酸, HCA 3 受体激动剂

40篇引用文献 COA COA
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货号 (SKU) 包装规格 是否现货 价格 数量
D425386-1ml
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Compound libraries (12333) 代谢物 (8911)
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基本描述

别名 D-苯丙氨酸 | D-2-氨基苯丙酸 | (R)-2-氨基-3-苯丙酸
英文别名 D-.beta.-Phenyl-.alpha.-alanine | EN300-60166 | NSC 25005 | Phenylalanine,d- | Spectrum2_001558 | 4C53B247-2FE4-4464-92C0-9F3782A08966 | BDBM36161 | Dichloromethylmethane | DB02556 | KBio2_007341 | C02265 | IDI1_000453 | KBio1_000453 | D-PHENYLALANINE [WH
规格或纯度 Moligand™, 2mM in Water
英文名称 D-Phenylalanine
储存温度 -80℃储存
运输条件 超低温冰袋运输
作用类型 激动剂
作用机制 HCA 3 受体激动剂
产品介绍

It is an essential amino acid with anti-depressant and analgesic activities. pharmaceutical intermediates, mainly used to treat, prevent osteoporosis, cardiovascular, diabetes, arterioscleros.

It is an essential amino acid with anti-depressant and analgesic activities. pharmaceutical intermediates, mainly used to treat, prevent osteoporosis, cardiovascular, diabetes, arterioscleros.

关联靶点(人)

HCAR3 Tchem 羟基羧酸受体 3(Hydroxycarboxylic acid receptor 3) (1 活性数据)
活性类型 活性值-log(M) 作用机制 期刊 参考文献(PubMed IDs)
CA2 Tclin Carbonic anhydrase II (17698 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CA3 Tclin Carbonic anhydrase III (753 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CA6 Tclin Carbonic anhydrase VI (993 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CA1 Tclin Carbonic anhydrase I (13240 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CA5B Tclin Carbonic anhydrase VB (957 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CA5A Tclin Carbonic anhydrase VA (1168 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CA14 Tclin Carbonic anhydrase XIV (1305 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CA12 Tclin Carbonic anhydrase XII (6231 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CA9 Tclin Carbonic anhydrase IX (8255 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
SLC7A5 Tchem L-type amino acid transporter 1 (388 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
APEX1 Tchem DNA-(apurinic or apyrimidinic site) lyase (38016 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
SLCO1B1 Tchem Solute carrier organic anion transporter family member 1B1 (2672 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
SLCO1B3 Tchem Solute carrier organic anion transporter family member 1B3 (2517 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
RGS4 Tchem Regulator of G-protein signaling 4 (13867 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
SLC16A10 SLC16A10 protein (28 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID

关联靶点(其它种属)

Ca7 Carbonic anhydrase VII (3 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Ca13 Carbonic anhydrase XIII (322 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CA4 Carbonic anhydrase IV (1713 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Hdac6 Histone deacetylase 6 (222 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Carbonic anhydrase (69 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Staphylococcus aureus (210822 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Mus musculus (284745 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Rattus norvegicus (775804 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
rep Replicase polyprotein 1ab (378 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Ca15 Carbonic anhydrase 15 (173 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
CAN2 Carbonic anhydrase 2 (140 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Slc16a10 Monocarboxylate transporter 10 (73 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
Carbonic anhydrase-like protein, putative (25 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID
SARS-CoV-2 (38078 活性数据)
活性类型 Relation Activity value Units Action Type 期刊 PubMed Id doi Assay Aladdin ID

作用机制

作用机制 Action Type target ID Target Name Target Type Target Organism Binding Site Name 参考文献

名称和识别符

EC号 211-603-5
分子类型 小分子
IIUPAC Name (2R)-2-amino-3-phenylpropanoic acid
INCHI 1S/C9H11NO2/c10-8(9(11)12)6-7-4-2-1-3-5-7/h1-5,8H,6,10H2,(H,11,12)/t8-/m1/s1
InChi Key COLNVLDHVKWLRT-MRVPVSSYSA-N
Smiles C1=CC=C(C=C1)CC(C(=O)O)N
Isomeric SMILES C1=CC=C(C=C1)C[C@H](C(=O)O)N
分子量 165.19
Beilstein号 2804068
Reaxy-Rn 1910407
Reaxys-RN link address https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=1910407&ln=

化学和物理性质

比旋光度 34 ° (C=2, H2O)
熔点 273-276°C
分子量 165.190 g/mol
XLogP3 -1.500
氢键供体数Hydrogen Bond Donor Count 2
氢键受体数Hydrogen Bond Acceptor Count 3
可旋转键计数Rotatable Bond Count 3
精确质量Exact Mass 165.079 Da
单同位素质量Monoisotopic Mass 165.079 Da
拓扑极表面积Topological Polar Surface Area 63.300 Ų
重原子数Heavy Atom Count 12
形式电荷Formal Charge 0
复杂度Complexity 153.000
同位素原子数Isotope Atom Count 0
定义的原子立体中心计数Defined Atom Stereocenter Count 1
未定义的原子立体中心计数Undefined Atom Stereocenter Count 0
定义的键立体中心计数Defined Bond Stereocenter Count 0
未定义的键立体中心计数Undefined Bond Stereocenter Count 0
所有立体化学键的总数The total count of all stereochemical bonds 0
共价键合单元计数Covalently-Bonded Unit Count 1

安全和危险性(GHS)

象形图 GHS07
信号词 警告
危险声明

H302: 吞食有害

H315: 引起皮肤刺激

H319: 引起严重眼睛刺激

H335: 可能引起呼吸道刺激
预防措施声明

P261: 避免吸入灰尘/烟雾/气体/雾/蒸汽/喷雾

P264: 处理后要彻底洗手。

P270: 使用本产品时,请勿进食、饮水或吸烟。

P271: 仅在室外或通风良好的地方使用。

P280: 戴防护手套/穿防护服/戴防护眼罩/戴防护面具。

P321: 特殊处理(请参阅此标签上的...)。

P330: 漱口

P302+P352: 如皮肤沾染:用水充分清洗。

P304+P340: 如误吸入:将人转移到空气新鲜处,保持呼吸舒适体位。

P305+P351+P338: 如进入眼睛:用水小心冲洗几分钟。如戴隐形眼镜并可方便地取出,取出隐形眼镜。继续冲洗。

P362+P364: 脱掉沾污的衣服,清洗后方可重新使用。

P405: 密闭存放

P403+P233: 存放在通风良好的地方。保持容器密闭。

P501: 将内容物/容器处理到。。。

P264+P265: 处理后彻底洗手[和…]。不要触摸眼睛。

P301+P317: 如果被吞咽:请寻求医疗帮助。

P337+P317: 如果眼睛刺激持续:寻求医疗帮助。

P332+P317: 如果出现皮肤刺激:请寻求医疗帮助。

P319: 如果你感到不适,请寻求医疗帮助。
WGK Germany 3
RTECS AY7533000
Merck Index 7271
个人防护装备 Eyeshields,Gloves,type N95 (US),type P1 (EN143) respirator filter

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此产品的引用文献

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引用文献

1. Jingzhi Yang, Yami Ran, Shaopeng Liu, Chenhao Ren, Yuntian Lou, Pengfei Ju, Guoliang Li, Xiaogang Li, Dawei Zhang.  (2023)  Synergistic D-Amino Acids Based Antimicrobial Cocktails Formulated via High-Throughput Screening and Machine Learning.  Advanced Science,  11  (9): (2307173).  [PMID:38126652] [10.1002/advs.202307173]
2. Zhiyang Xu, Yinzhou Yan, Xingyuan Wang, Xiaolei Wang, Zhixiang Zhou, Xi Yang, Tianrui Zhai.  (2023)  Determination of Enantiomeric Excess by Optofluidic Microlaser near Exceptional Point.  Advanced Science,  (2308362).  [PMID:38072636] [10.1002/advs.202308362]
3. Jianrong Wang, Sha Han, Hongfang Zhao, Hongxia Li, Xiaohui Niu, Yi Wang, Kunjie Wang.  (2023)  Electrochemical enantioselective recognition by defined chiral linkers in polysaccharides modified with carbon quantum dots.  ELECTROANALYSIS,  (e202300301).  [10.1002/elan.202300301]
4. Li Yuchen, Xu Guangfu, Chen Jiaquan, Yu Tao, Miao Pandeng, Du Yingxiang.  (2023)  One-step synthesis of chiral molecularly imprinted polymer TiO2 nanoparticles for enantioseparation of phenylalanine in coated capillary electrochromatography.  MICROCHIMICA ACTA,  190  (7): (1-11).  [PMID:37391671] [10.1007/s00604-023-05854-4]
5. Niu Xiaohui, Zhao Rui, Yan Simeng, Li Hongxia, Yang Jing, Cao Kunjie, Liu Xiaoyu, Wang Kunjie.  (2023)  Chiral MOFs encapsulated by polymers with poly-metallic coordination as chiral biosensors.  MICROCHIMICA ACTA,  190  (6): (1-12).  [PMID:37208529] [10.1007/s00604-023-05807-x]
6. Hou Huipeng, Tang Shanshan, Wang Wei, Liu Miao, Liang Axin, Xie Bingteng, Yi Yue, Luo Aiqin.  (2023)  Electrochemical Chiral Recognizing Tryptophan Enantiomers Based on Chiral Metal-Organic Framework D-MOF.  CHEMICAL RESEARCH IN CHINESE UNIVERSITIES,  39  (6): (976-984).  [10.1007/s40242-023-3004-6]
7. Qian Ye, Jin Li, Yinyin Huang, Hanbin Wu, Yilin Li, Bin Yan.  (2023)  Preparation of a cyclodextrin metal-organic framework (CD-MOF) membrane for chiral separation.  Journal of Environmental Chemical Engineering,  11  (109250).  [10.1016/j.jece.2022.109250]
8. Jinglei Liu, Tianfei Chu, Mengmeng Cheng, Yan Su, Guizheng Zou, Shifeng Hou.  (2023)  Bovine serum albumin functional graphene oxide membrane for effective chiral separation.  JOURNAL OF MEMBRANE SCIENCE,  668  (121198).  [10.1016/j.memsci.2022.121198]
9. Yiyi Liu, Fangling Wu, Jiabin Wang, Ling Pu, Chuan-Fan Ding.  (2022)  Simultaneous chirality separation of amino acids and their derivative by natamycin based on mobility measurements.  ANALYTICA CHIMICA ACTA,  1227  (340298).  [PMID:36089312] [10.1016/j.aca.2022.340298]
10. Hai-Bin Qin, Jun-Ping Zhou, Bo Zhang, Zhi-Qiang Liu, Yu-Guo Zheng.  (2022)  Combing with redox regulation via quorum-sensing system and fermentation strategies for improving D-pantothenic acid production.  PROCESS BIOCHEMISTRY,  121  (681).  [10.1016/j.procbio.2022.08.012]
11. Wancheng Qin, Peng Zhou, Xinyu Xu, Chuanwei Huang, Gopalan Srinivasan, Yajun Qi, Tianjin Zhang.  (2022)  High-Performance Piezoelectric Nanogenerator Based on Low-Entropy Structured Nanofibers for a Multi-Mode Energy Harvesting and Self-Powered Ultraviolet Photodetector.  ACS Applied Electronic Materials,  (6): (2970–2978).  [10.1021/acsaelm.2c00411]
12. Yi Wu, Keren Lu, Fubin Pei, Yanghao Yan, Shasha Feng, Qingli Hao, Mingzhu Xia, Wu Lei.  (2022)  Construction of g-C3N4/Au/NH2-UiO-66 Z-scheme heterojunction for label-free photoelectrochemical recognition of D-penicillamine.  TALANTA,  248  (123617).  [PMID:35687949] [10.1016/j.talanta.2022.123617]
13. Hongxia Li, Letong Wang, Simeng Yan, Jinliang Chen, Mengmeng Zhang, Rui Zhao, Xiaohui Niu, Kunjie Wang.  (2022)  Fusiform-like metal-organic framework for enantioselective discrimination of tryptophan enantiomers.  ELECTROCHIMICA ACTA,  419  (140409).  [10.1016/j.electacta.2022.140409]
14. Xiaohui Niu, Simeng Yan, Letong Wang, Jinliang Chen, Rui Zhao, Hongxia Li, Jian Liu, Kunjie Wang.  (2022)  Induction of chiral polymers from metal-organic framework for stereoselective recognition.  ANALYTICA CHIMICA ACTA,  1196  (339546).  [PMID:35151404] [10.1016/j.aca.2022.339546]
15. Xiaohui Niu, Simeng Yan, Jinliang Chen, Hongxia Li, Kunjie Wang.  (2022)  Enantioselective recognition of L/D-amino acids in the chiral nanochannels of a metal-organic framework.  ELECTROCHIMICA ACTA,  405  (139809).  [10.1016/j.electacta.2021.139809]
16. Xin-hui Zhou, Qing Liu, Hai-shui Wang.  (2022)  Chiral resolution of DL-glutamic acid by a chiral additive.  JOURNAL OF CHEMICAL TECHNOLOGY AND BIOTECHNOLOGY,  97  (5): (1240-1246).  [10.1002/jctb.7018]
17. Xiaodan Wang, Fangping Yang, Huawei Yang, Xu Zhang, Haoyu Tang, Shifang Luan.  (2022)  Preparation of antibacterial polypeptides with different topologies and their antibacterial properties.  Biomaterials Science,  10  (3): (834-845).  [PMID:35005755] [10.1039/D1BM01620B]
18. Liu Nijuan, Liu Jingjing, Niu Xiaohui, Wang Jia, Guo Ruibin, Mo Zunli.  (2021)  An electrochemical chiral sensor based on the synergy of chiral ionic liquid and 3D-NGMWCNT for tryptophan enantioselective recognition.  MICROCHIMICA ACTA,  188  (5): (1-13).  [PMID:33839948] [10.1007/s00604-021-04818-w]
19. Jia Wang, Zunli Mo, Nijuan Liu, Ruibin Guo, Chao Shuai, Fang Chen, Yongxin Du, Jingjing Liu, Guigui Liu, Qibing Dong, Qinqin Gao, Ying Chen, Wentong Liu.  (2021)  Construction of electrochemical chiral interface of C3N4/Ppy/ self-assembled polysaccharide.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,  886  (115118).  [10.1016/j.jelechem.2021.115118]
20. Zou Jiao, Lan Xi-Wen, Zhao Guo-Qing, Huang Zhao-Ning, Liu Yi-Ping, Yu Jin-Gang.  (2020)  Immobilization of 6-O-α-maltosyl-β-cyclodextrin on the surface of black phosphorus nanosheets for selective chiral recognition of tyrosine enantiomers.  MICROCHIMICA ACTA,  187  (11): (1-11).  [PMID:33141322] [10.1007/s00604-020-04606-y]
21. Jiao Zou, Jin-Gang Yu.  (2020)  Nafion-stabilized black phosphorus nanosheets-maltosyl-β-cyclodextrin as a chiral sensor for tryptophan enantiomers.  Materials Science & Engineering C-Materials for Biological Applications,  112  (110910).  [PMID:32409064] [10.1016/j.msec.2020.110910]
22. Tingting Wang, Yuhuan Cheng, Yulian Zhang, Jinyin Zha, Jiannong Ye, Qingcui Chu, Guifang Cheng.  (2020)  β-cyclodextrin modified quantum dots as pseudo-stationary phase for direct enantioseparation based on capillary electrophoresis with laser-induced fluorescence detection.  TALANTA,  210  (120629).  [PMID:31987180] [10.1016/j.talanta.2019.120629]
23. Jiao Zou, Jin-Gang Yu.  (2019)  Chiral recognition of tyrosine enantiomers on a novel bis-aminosaccharides composite modified glassy carbon electrode.  ANALYTICA CHIMICA ACTA,  1088  (35).  [PMID:31623714] [10.1016/j.aca.2019.08.018]
24. Chunlei Ma, Wensheng Ren, Jianke Tang, Xiaoli Wang, Dongxin Ji, Rongqian Meng, Cuihong Zhang, Qi Wang.  (2019)  Copper nanocluster-based fluorescence enhanced determination of d-penicillamine.  LUMINESCENCE,  34  (7): (767-773).  [PMID:31267664] [10.1002/bio.3672]
25. Yanhua Tu, Beixuan He, Songyan Gao, Dandan Guo, Xinlei Jia, Xin Dong, Meili Guo.  (2019)  CtACO1 Overexpression Resulted in the Alteration of the Flavonoids Profile of Safflower.  MOLECULES,  24  (6): (1128).  [PMID:30901924] [10.3390/molecules24061128]
26. Huang Lu, Li Yanxia, Lin Qi, Lou Benyong, Chen Yiting.  (2018)  Enantioselective permeations of amino acids through l-proline-modified gold nanochannel membrane: an experimental and theoretical study.  AMINO ACIDS,  50  (11): (1549-1556).  [PMID:30073606] [10.1007/s00726-018-2629-0]
27. Lili Guo, Baozhu Yang, Datong Wu, Yongxin Tao, Yong Kong.  (2018)  Chiral Sensing Platform Based on the Self-Assemblies of Diphenylalanine and Oxalic Acid.  ANALYTICAL CHEMISTRY,  90  (8): (5451–5458).  [PMID:29595059] [10.1021/acs.analchem.8b00762]
28. Yanni Miao, Qi Liu, Wei Wang, Li Liu, Li Wang.  (2017)  Enantioseparation of amino acids by micellar capillary electrophoresis using binary chiral selectors and determination of D-glutamic acid and D-aspartic acid in rice wine.  JOURNAL OF LIQUID CHROMATOGRAPHY & RELATED TECHNOLOGIES,  [10.1080/10826076.2017.1364263]
29. Xiaomei Lu, Jie Tang, Xinxin Dang, Xiaoli Jing, Kailin Xu, Hui Li, Bing Liang.  (2017)  Chiral recognition and determination of enantiomeric excess of chiral compounds by UV-visible-shortwave near infrared diffuse reflectance spectroscopy with chemometrics.  RSC Advances,  (22): (13552-13560).  [10.1039/C6RA24952C]
30. Yongxin Tao, Xiaogang Gu, Baozhu Yang, Linhong Deng, Liping Bao, Yong Kong, Fuqiang Chu, Yong Qin.  (2017)  Electrochemical Enantioselective Recognition in a Highly Ordered Self-Assembly Framework.  ANALYTICAL CHEMISTRY,  89  (3): (1900–1906).  [PMID:28208293] [10.1021/acs.analchem.6b04377]
31. Datong Wu, Ying Zhou, Pengfei Cai, Shanshan Shen, Yuanjiang Pan.  (2015)  Specific cooperative effect for the enantiomeric separation of amino acids using aqueous two-phase systems with task-specific ionic liquids.  JOURNAL OF CHROMATOGRAPHY A,  1395  (65).  [PMID:25888099] [10.1016/j.chroma.2015.03.047]
32. Xiao-Yan Liu, Hong-Xun Fang, Li-Ping Yu.  (2013)  Molecularly imprinted photonic polymer based on β-cyclodextrin for amino acid sensing.  TALANTA,  116  (283).  [PMID:24148405] [10.1016/j.talanta.2013.05.003]
33. Chen Qi,Wenke Yang,Fuyan He,Jinshui Yao.  (2020-09-13)  The Thermal Properties and Degradability of Chiral Polyester-Imides Based on Several l/d-Amino Acids..  Polymers,  12  ((9)): [PMID:32916788]
34. Jin-Wen Liu, Tingting Chen, Meiqun Cai, Yingfeng Qin, Mei Li.  (2024)  A Dual-Mode Optical Sensing Strategy for Rapid Detection of D-Penicillamine in Pharmaceutical Formulations.  ANALYTICAL LETTERS,  [10.1080/00032719.2024.2419533]
35. Wenrong Cai, Yanjing Shi, Ning Liu, Zheng-Zhi Yin, Junyao Li, Laidi Xu, Datong Wu, Yong Kong.  (2024)  A photothermal effect-based chiral sensor for chiral discrimination and sensitive detection.  SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY,  318  (124494).  [PMID:38788508] [10.1016/j.saa.2024.124494]
36. Jun Zhang, Kai Wu, Xiaoqing Gao, Min Zhang, Xin Zhou, Florian Bertram, Chen Shen, Yunlong Zhou.  (2024)  Achiral and chiral ligands synergistically harness chiral self-assembly of inorganics.  Science Advances,  10  (42): (2024 Oct;10(42)).  [PMID:39423258] [10.1126/sciadv.ado5948]
37. Xiaohui Niu, Yongqi Liu, Rui Zhao, Mei Yuan, Hongfang Zhao, Hongxia Li, Kunjie Wang.  (2024)  Enhancing Electrochemical Signal for Efficient Chiral Recognition by Encapsulating C60 Fullerene into Chiral Lanthanum-Based MOFs.  ACS Applied Materials & Interfaces,  16  (14): (17361-17370).  [PMID:38556802] [10.1021/acsami.4c03134]
38. Wen-Bo Gao, Shu-Ting Xu, Yong-Jie Yan, Cheng Yang, Xiu-Ping Yan.  (2025)  Kinetic Method Coupled with Thermal-Assisted Paper Spray Ionization Mass Spectrometry for Direct Determination of Enantiomeric Excess of Multiple d/l-Amino Acids in Functional Foods.  JOURNAL OF THE AMERICAN SOCIETY FOR MASS SPECTROMETRY,  36  (4): (906-913).  [PMID:40079893] [10.1021/jasms.5c00050]
39. Shen Yan, Fang Nan, Liu Xinru, Ling Yu, Su Yuming, Tan Tian, Chen Feng, Lin He, Zhao Boxuan, Wang Jin, Si Duanhui, Xie Shunji, Wang Ye, Zhou Da, Zhang Teng, Cao Rong, Wang Cheng.  (2025)  Observation of metal-organic interphase in Cu-based electrochemical CO2-to-ethanol conversion.  Nature Communications,  16  (1): (1-18).  [PMID:40021652] [10.1038/s41467-025-57221-x]
40. Jinbo Hu, Wenbo Wang, Xinyan Liu, Yeqi Du, Hao Zhang, Ranlong Duan, Xinchao Bian, Yanlong Liu, Xuesi Chen.  (2024)  Synergistic enhancement of poly(lactide) melt strength via copolymerization and multi-arm branching strategy.  INTERNATIONAL JOURNAL OF BIOLOGICAL MACROMOLECULES,  280  (136161).  [PMID:39357705] [10.1016/j.ijbiomac.2024.136161]

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