D-Tryptophan - Moligand™, 10mM in DMSO , Agonist of HCA 3 receptor, CAS No.153-94-6, Agonist of HCA 3 receptor

CAS: 153-94-6 Cat. No.: D421829 Peso molecular: 204.23 Beilstein Registry Number: 86198 Número EC: 205-819-9
Disponible para pedir
GRADE & PURITY Moligand™ ? Moligand™ — Aladdin's line of ligands and bioactive small molecules. Use for receptor, pathway, and binding studies needing defined small-molecule tools. 10mM in DMSO
Synonyms
Q27077125 | CAS-153-94-6 | MFCD00005647 | BDBM50043799 | D(+)-Tryptophan | D-TRYPTOPHANE | H-delta-TRP-oh | NSC 97942 | DTR | J-300262 | BCP16808 | SMR000059103 | AFA369F6-7A19-42E1-B9E9-0156A2BCE50B | HY-W012479 | Q27115085 | s6253 | HDTrpOH | H-D-Trp-OH
Storage
Store at -80°C
Shipped In
Dry ice packs + Cold packs
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Size
Estado
Price
Qty
1ml
D421829-1ml
1

37,90US$

45,90US$
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Why this grade

Moligand™, 10mM in DMSO Moligand™ for sensitive chromatographic and analytical workflows requiring minimal baseline interference.

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Storage & shipping

Store at -80°C Ships Dry ice packs + Cold packs Check lot-specific COA for exact specifications.

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Quality documents

SDS, COA, datasheet, and spec sheet available for download. Lot-specific COA accessible via lot number lookup.

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Literature proof

Cited in 102 peer-reviewed publications across chromatography, organic synthesis, and cross-coupling reactions.

Descripción general

Product Description
Tryptophan is one of the essential and standard amino acids present in the body. It is used by the cells to produce proteins.

Product Application
D-TRYPTOPHAN can be used to culture human embryonic kidney cells (HEK-293, ATCC: crl-1573). The product is a sweetener, which is used to study the release of incretin in intestinal endocrine cells induced by sugar, but not by sweetener. D-Tryptophan has been used to study its efficacy on dispersing biofilm in dental unit waterlines (DUWLs) in vitro.

Specifications

Sinónimos
Q27077125 | CAS-153-94-6 | MFCD00005647 | BDBM50043799 | D(+)-Tryptophan | D-TRYPTOPHANE | H-delta-TRP-oh | NSC 97942 | DTR | J-300262 | BCP16808 | SMR000059103 | AFA369F6-7A19-42E1-B9E9-0156A2BCE50B | HY-W012479 | Q27115085 | s6253 | HDTrpOH | H-D-Trp-OH
Especificaciones y pureza
Moligand™, 10mM in DMSO
Mecanismos bioquímicos y fisiológicos
Low level of D-tryptophan is capable of preventing the growth of an L-tryptophan-requiring mutant of the E. coli.
Condiciones de almacenamiento de almacenamiento
Store at -80°C
Enviado en
Dry ice packs + Cold packs
Este producto requiere envío en cadena de frío. Los servicios terrestres y otros servicios económicos no están disponibles.
Grado
Moligand™
Tipo de acción
AGONIST
Mecanismo de acción
Agonist of HCA 3 receptor
Nombres e identificadores
Sonrisas canónicasC1=CC=C2C(=C1)C(=CN2)CC(C(=O)O)N
IUPAC Name(2R)-2-amino-3-(1H-indol-3-yl)propanoic acid
InChIKeyQIVBCDIJIAJPQS-SECBINFHSA-N
INCHI1S/C11H12N2O2/c12-9(11(14)15)5-7-6-13-10-4-2-1-3-8(7)10/h1-4,6,9,13H,5,12H2,(H,14,15)/t9-/m1/s1
Isómeros SMILES C1=CC=C2C(=C1)C(=CN2)C[C@H](C(=O)O)N
WGK Alemania 3
RTECS YN6129000
Peso molecular 204.23
Beilstein 86198
Reaxy-Rn 86196
Reaxys-RN_link_address https://www.reaxys.com/reaxys/secured/hopinto.do?context=S&query=IDE.XRN=86196&ln=

Documentation

📋 Safety Data Sheet (SDS)

Comprehensive hazard, handling, storage, and regulatory compliance document.

Download SDS →

✅ Certificate of Analysis (COA)

Lot-specific quality data. Enter your lot number to retrieve the exact COA.

Look up COA →

📊 Datasheet

Quick-reference summary of product specifications and applications.

View datasheet →

🔬 Specification Sheet

Full quality attributes and acceptance criteria for this grade.

View spec sheet →

Advanced Data

Taxonomic Classification

Taxonomy Tree

KingdomOrganic compounds
SuperclassOrganoheterocyclic compounds
ClaseIndoles and derivatives
SubclassIndolyl carboxylic acids and derivatives
Intermediate Tree Nodes Not available
Direct ParentIndolyl carboxylic acids and derivatives
Alternative Parents D-alpha-amino acids  3-alkylindoles  Aralkylamines  Substituted pyrroles  Benzenoids  Heteroaromatic compounds  Amino acids  Monocarboxylic acids and derivatives  Carboxylic acids  Azacyclic compounds  Organopnictogen compounds  Organic oxides  Monoalkylamines  Hydrocarbon derivatives  Carbonyl compounds  
Molecular FrameworkAromatic heteropolycyclic compounds
Substituents Indolyl carboxylic acid derivative - Alpha-amino acid - Alpha-amino acid or derivatives - D-alpha-amino acid - 3-alkylindole - Indole - Aralkylamine - Benzenoid - Substituted pyrrole - Heteroaromatic compound - Pyrrole - Amino acid or derivatives - Amino acid - Carboxylic acid derivative - Carboxylic acid - Monocarboxylic acid or derivatives - Azacycle - Amine - Primary aliphatic amine - Hydrocarbon derivative - Organic oxide - Organic oxygen compound - Organic nitrogen compound - Carbonyl group - Organonitrogen compound - Organooxygen compound - Primary amine - Organopnictogen compound - Aromatic heteropolycyclic compound
DescripciónThis compound belongs to the class of organic compounds known as indolyl carboxylic acids and derivatives. These are compounds containing a carboxylic acid chain (of at least 2 carbon atoms) linked to an indole ring.
External Descriptors Other amino acids
Estructura 3D
Modelo de Estructura Química Interactiva





Objetivos asociados (humanos)
HCAR3 Tchem Hydroxycarboxylic acid receptor 3 (1 Activities)
Activity TypeActivity Value -log(M)Mechanism of ActionActivity ReferencePublications (PubMed IDs)
DHFR Tclin Dihydrofolate reductase (3072 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA2 Tclin Carbonic anhydrase II (17698 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA3 Tclin Carbonic anhydrase III (753 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA6 Tclin Carbonic anhydrase VI (993 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA1 Tclin Carbonic anhydrase I (13240 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA5B Tclin Carbonic anhydrase VB (957 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA5A Tclin Carbonic anhydrase VA (1168 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA14 Tclin Carbonic anhydrase XIV (1305 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
MMP3 Tchem Matrix metalloproteinase 3 (3433 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA12 Tclin Carbonic anhydrase XII (6231 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA9 Tclin Carbonic anhydrase IX (8255 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
SLC7A5 Tchem L-type amino acid transporter 1 (388 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
HTT Tchem Huntingtin (19182 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
APEX1 Tchem DNA-(apurinic or apyrimidinic site) lyase (38016 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
LMNA Tbio Prelamin-A/C (36751 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
GMNN Tbio Geminin (128009 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
PMP22 Tbio Peripheral myelin protein 22 (699 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
RGS4 Tchem Regulator of G-protein signaling 4 (13867 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
RUNX1 Tbio Runt-related transcription factor 1/Core-binding factor subunit beta (7867 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
TAS1R3 Tbio T1R1/T1R3 (473 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
Objetivos asociados (no humanos)
Ca7 Carbonic anhydrase VII (3 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
Ca13 Carbonic anhydrase XIII (322 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CA4 Carbonic anhydrase IV (1713 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
Hdac6 Histone deacetylase 6 (222 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
Carbonic anhydrase (69 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
Plasmodium falciparum (966862 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
GCN5 Histone acetyltransferase GCN5 (89 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
pfk 6-phospho-1-fructokinase (7870 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
Ca15 Carbonic anhydrase 15 (173 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
CAN2 Carbonic anhydrase 2 (140 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
Slc16a10 Monocarboxylate transporter 10 (73 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
ispF 2-C-methyl-D-erythritol 2,4-cyclodiphosphate synthase (31 Activities)
Activity TypeRelationActivity valueUnitsAction TypeJournalPubMed IddoiAssay Aladdin ID
Mecanismos de acción
Certificados (CoA, COO, BSE/TSE y tabla de análisis)
C of A & Other Certificates(BSE/TSE, COO):
Analytical Chart:
Propiedades químicas y físicas
Rotación específica [α]31 ° (C=1, H2O)
Punto de fusión (°C)282-285°C
Peso molecular204.220 g/mol
XLogP3-1.100
Hydrogen Bond Donor Count3
Hydrogen Bond Acceptor Count3
Rotatable Bond Count3
Exact Mass204.09 Da
Monoisotopic Mass204.09 Da
Topological Polar Surface Area79.100 Ų
Heavy Atom Count15
Formal Charge0
Complexity245.000
Isotope Atom Count0
Defined Atom Stereocenter Count1
Undefined Atom Stereocenter Count0
Defined Bond Stereocenter Count0
Undefined Bond Stereocenter Count0
The total count of all stereochemical bonds0
Covalently-Bonded Unit Count1
Citations of This Product
Referencias
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,      [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,      [PMID:] [10.1002/elan.202300301]
4. Yijie Wang, Linbo Yu, Tingjie Lv, Jing Wang, Shengju Zhou, Xiaofeng Sun.  (2023)  Chiral carbonized polymer dots simultaneously achieving solid state luminescence and circularly polarized luminescence.  DYES AND PIGMENTS,      [PMID:] [10.1016/j.dyepig.2023.111685]
5. Zhengzhong Zhou, Lingli Zhou, Yi Liu, Qian Wang, Xiaoshan Meng, Qigang Wu, Taoli Huhe.  (2023)  Layered double hydroxide nanosheets embedded β-cyclodextrin composite membranes with enhanced chiral separation performance.  JOURNAL OF INDUSTRIAL AND ENGINEERING CHEMISTRY,      [PMID:] [10.1016/j.jiec.2023.08.023]
6. Miao Pandeng, Li Yuchen, Du Yingxiang.  (2023)  Dual-ligand 3D lammelar chiral metal–organic framework for capillary electrochromatographic enantioseparations.  MICROCHIMICA ACTA,  190  (8): (1-11).  [PMID:37464133] [10.1007/s00604-023-05890-0]
7. 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]
8. Haibo Chen, Chengqi Zhao, Yu Li, Junyao Li, Wenrong Cai, Yong Kong, Zheng-Zhi Yin.  (2023)  A chiral sensing platform with reversible chirality based on Au nanoparticles-d-methionine/chitosan.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,      [PMID:] [10.1016/j.jelechem.2023.117562]
9. 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]
10. Pengjing Jing, Tai Wen, Junyao Li, Wenrong Cai, Baozhu Yang, Yong Kong.  (2023)  Highly Reliable Chiral Discrimination of Tryptophan Enantiomers through Two Different Modes: Electrochemistry and Temperature.  ANALYTICAL CHEMISTRY,      [PMID:37204809] [10.1021/acs.analchem.3c00669]
11. Zhang Zengdong, Wang Jia, Pei Hebing, Guo Ruibin, Liu Nijuan, Mo Zunli.  (2023)  β-Cyclodextrin dinuclear copper supported on graphene/polypyrrole nanocomposites as an electrochemical sensor for enantioselectivity recognition of tryptophan enantiomers.  JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS,  34  (11): (1-15).  [PMID:] [10.1007/s10854-023-10442-6]
12. 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).  [PMID:] [10.1007/s40242-023-3004-6]
13. Ya-Qian Wang, Li Li, Jin Yin, Xu Yu, Xiaowei Wu, Li Xu.  (2023)  Turn on fluorescence detection of curcumin in food matrices by the novel fluorescence sensitizer.  ANALYTICA CHIMICA ACTA,      [PMID:37005020] [10.1016/j.aca.2023.341094]
14. You Quan Shi, Zhao Xu, Le Wang, Kang Wang, Li Xu, Heng Zheng.  (2023)  The fluorescence and colorimetric dual-readout probe for clinical rapid detection of mycophenolic acid by the poly(ethylenimine)/silica-coated CdTe quantum dots.  ANALYTICAL BIOCHEMISTRY,      [PMID:36870552] [10.1016/j.ab.2023.115090]
15. Yulin Wang, Libo Nie, Yongbiao Hua, Liang Gong, Xiuzhen Qiu, Huishi Guo.  (2023)  A simple paper-based nickel nanocluster-europium mixed ratio fluorescent probe for rapid visual sensing of tetracyclines.  SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY,      [PMID:36753865] [10.1016/j.saa.2023.122431]
16. Wenyan Yao, Sha Li, Licheng Xie, Yan Jiang.  (2022)  Chiral recognition of tryptophan enantiomer based on the electrode modified by polyaniline adsorption bovine serum albumin complex.  CHIRALITY,  35  (2): (129-144).  [PMID:36564104] [10.1002/chir.23525]
17. Qing Hu, Chaofeng Zhu, Wen Yan, Yang Wang, Songlin Cui, Xihai Chen, Bo Liu.  (2022)  Coordination-Assistant Chiral Agent Anchoring on Amphiphilic Graphitic Phase Carbon Nitride Membrane for Multiple Molecular Separation.  ACS Applied Materials & Interfaces,      [PMID:36315245] [10.1021/acsami.2c15795]
18. Arabi Maryam, Ostovan Abbas, Wang Yunqing, Mei Rongchao, Fu Longwen, Li Jinhua, Wang Xiaoyan, Chen Lingxin.  (2022)  Chiral molecular imprinting-based SERS detection strategy for absolute enantiomeric discrimination.  Nature Communications,  13  (1): (1-14).  [PMID:36180485] [10.1038/s41467-022-33448-w]
19. Ning Liu, Baozhu Yang, Zheng-Zhi Yin, Wenrong Cai, Junyao Li, Yong Kong.  (2022)  A chiral sensing platform based on chiral metal-organic framework for enantiodiscrimination of the isomers of tyrosine and tryptophan.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,      [PMID:] [10.1016/j.jelechem.2022.116445]
20. Datong Wu, Cong Ma, Ting Wan, Pengfen Zhu, Yong Kong.  (2022)  Strategies to synthesize a chiral helical polymer accompanying with two stereogenic centers for chiral electroanalysis.  ANALYTICA CHIMICA ACTA,      [PMID:35473883] [10.1016/j.aca.2022.339810]
21. 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,      [PMID:35151404] [10.1016/j.aca.2022.339546]
22. 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,      [PMID:] [10.1016/j.electacta.2021.139809]
23. Hanyu Wang, Yukun Ouyang, Wenjing Zou, Xingchong Liu, Haimin Li, Ruonan Zhou, Xian Peng, Xiaoli Gong.  (2021)  Enhanced Activation Energy Released by Coordination of Bifunctional Lewis Base d-Tryptophan for Highly Efficient and Stable Perovskite Solar Cells.  ACS Applied Materials & Interfaces,      [PMID:34866375] [10.1021/acsami.1c13784]
24. Jinglei Liu, Wenbo Yuan, Caifeng Li, Mengmeng Cheng, Yan Su, Lijian Xu, Tianfei Chu, Shifeng Hou.  (2021)  l-Cysteine-Modified Graphene Oxide-Based Membrane for Chiral Selective Separation.  ACS Applied Materials & Interfaces,      [PMID:34628847] [10.1021/acsami.1c14900]
25. Qianqian Zhao, Wenrong Cai, Baozhu Yang, Zheng-Zhi Yin, Datong Wu, Yong Kong.  (2021)  Electrochemiluminescent chiral discrimination with chiral Ag2S quantum dots/few-layer carbon nitride nanosheets.  ANALYST,  146  (20): (6245-6251).  [PMID:34528650] [10.1039/D1AN01437D]
26. Le Li, Xiaofei Ma, Yin Xiao, Yong Wang.  (2021)  Construction and Application of Graphene Oxide-Bovine Serum Albumin Modified Extended Gate Field Effect Transistor Chiral Sensor.  SENSORS,  21  (11): (3921).  [PMID:34200213] [10.3390/s21113921]
27. 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]
28. Yi-Xin Sun, Dan-Dan Zhang, Yang Sheng, Defeng Xu, Rong Zhang, Mark Bradley.  (2021)  Supramolecular assembly induced chiral interface for electrochemical recognition of tryptophan enantiomers.  Analytical Methods,  13  (17): (2011-2020).  [PMID:33955988] [10.1039/D1AY00222H]
29. Lamei Yang, Feng Luo, Weili Wei.  (2021)  Simultaneous determination of the concentration and enantiomeric excess of amino acids with a coumarin-derived achiral probe.  Analytical Methods,  13  (16): (1905-1910).  [PMID:33913945] [10.1039/D1AY00271F]
30. 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,      [PMID:] [10.1016/j.jelechem.2021.115118]
31. Xiaohui Niu, Xing Yang, Hongxia Li, Qiuyun Shi, Kunjie Wang.  (2021)  Chiral voltammetric sensor for tryptophan enantiomers by using a self-assembled multiwalled carbon nanotubes/polyaniline/sodium alginate composite.  CHIRALITY,  33  (5): (248-260).  [PMID:33675271] [10.1002/chir.23305]
32. Ling Gong, Shan Li, Zhengzhi Yin, Kelin Li, Jiawei Gu, Datong Wu, Yong Kong.  (2021)  Enantioselective recognition of tryptophan isomers with molecularly imprinted overoxidized polypyrrole/poly(p-aminobenzene sulfonic acid) modified electrode.  CHIRALITY,  33  (4): (176-183).  [PMID:33567153] [10.1002/chir.23299]
33. Jiapei Yang, Hui Wang, Qianqian Zhao, Datong Wu, Yonggang Peng, Linhong Deng, Yong Kong.  (2021)  Chiral supramolecular hydrogel with controllable phase transition behavior for stereospecific molecular recognition.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,      [PMID:] [10.1016/j.jelechem.2021.115045]
34. 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]
35. Shaoping Ma, Fenfang Li, Liangliang Liu, Liping Liao, Li Chang, Zhijian Tan.  (2020)  Deep-eutectic solvents simultaneously used as the phase-forming components and chiral selectors for enantioselective liquid-liquid extraction of tryptophan enantiomers.  JOURNAL OF MOLECULAR LIQUIDS,      [PMID:] [10.1016/j.molliq.2020.114106]
36. Shanshan Wu, Qiumin Ye, Datong Wu, Yongxin Tao, Yong Kong.  (2020)  Enantioselective Recognition of Chiral Tryptophan with Achiral Glycine through the Strategy of Chirality Transfer.  ANALYTICAL CHEMISTRY,      [PMID:32786461] [10.1021/acs.analchem.0c02335]
37. 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,      [PMID:32409064] [10.1016/j.msec.2020.110910]
38. Tingting Wang, Yuhuan Cheng, Yulian Zhang, Jinyin Zha, Jiannong Ye, Qingcui Chu, Guifang Cheng.  (2019)  β-cyclodextrin modified quantum dots as pseudo-stationary phase for direct enantioseparation based on capillary electrophoresis with laser-induced fluorescence detection.  TALANTA,      [PMID:31987180] [10.1016/j.talanta.2019.120629]
39. Shanshan Wu, Zheng-Zhi Yin, Datong Wu, Yongxin Tao, Yong Kong.  (2019)  Chiral Enantioselective Assemblies Induced from Achiral Porphyrin by l- and d-Lysine.  LANGMUIR,      [PMID:31769990] [10.1021/acs.langmuir.9b03255]
40. Huali Liu, Zhen Li, Yan Yan, Jiaqi Zhao, Yu Wang.  (2019)  Chiroptical study of the bimetal–cysteine hybrid composite: interaction between cysteine and Au/Ag alloyed nanotubes.  Nanoscale,  11  (45): (21990-21998).  [PMID:31710078] [10.1039/C9NR07421J]
41. Qiumin Ye, Lili Guo, Datong Wu, Baozhu Yang, Yongxin Tao, Linhong Deng, Yong Kong.  (2019)  Covalent Functionalization of Bovine Serum Albumin with Graphene Quantum Dots for Stereospecific Molecular Recognition.  ANALYTICAL CHEMISTRY,      [PMID:31415149] [10.1021/acs.analchem.9b02605]
42. Jiao Zou, Jin-Gang Yu.  (2019)  Chiral recognition of tyrosine enantiomers on a novel bis-aminosaccharides composite modified glassy carbon electrode.  ANALYTICA CHIMICA ACTA,      [PMID:31623714] [10.1016/j.aca.2019.08.018]
43. Xinbao Li, Kaihui Li, Ali Farajtabar, Yating He, Gaoquan Chen, Hongkun Zhao.  (2019)  Solubility of d-Tryptophan and l-Tyrosine in Several Organic Solvents: Determination and Solvent Effect.  JOURNAL OF CHEMICAL AND ENGINEERING DATA,      [PMID:] [10.1021/acs.jced.9b00258]
44. Zijian Chen, Kai Zhou, Wuzu Ha, Peihong Chen, Huijun Fu, Yudong Shen, Yuanming Sun, Zhenlin Xu.  (2019)  Development of a low-cost, simple, fast and quantitative lateral-flow immunochromatographic assay (ICA) strip for melatonin in health foods.  FOOD AND AGRICULTURAL IMMUNOLOGY,      [PMID:] [10.1080/09540105.2019.1602112]
45. Qiumin Ye, Jihong Hu, Datong Wu, Baozhu Yang, Yongxin Tao, Yong Qin, Yong Kong.  (2019)  Smart construction of an efficient enantioselective sensing device based on bioactive tripeptide.  Analytical Methods,  11  (14): (1951-1957).  [PMID:] [10.1039/C9AY00331B]
46. Xiaohui Niu, Xing Yang, Zunli Mo, Ruibin Guo, Nijuan Liu, Pan Zhao, Zhenyu Liu, Meixuan Ouyang.  (2018)  Voltammetric enantiomeric differentiation of tryptophan by using multiwalled carbon nanotubes functionalized with ferrocene and β-cyclodextrin.  ELECTROCHIMICA ACTA,      [PMID:] [10.1016/j.electacta.2018.12.041]
47. Peng Lei, Ying Zhou, Guomei Zhang, Yan Zhang, Caihong Zhang, Shasha Hong, Yajuan Yang, Chuan Dong, Shaomin Shuang.  (2018)  A highly efficient chiral sensing platform for tryptophan isomers based on a coordination self-assembly.  TALANTA,      [PMID:30625547] [10.1016/j.talanta.2018.11.084]
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50. 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]
51. Jiapei Yang, Yin Yu, Datong Wu, Yongxin Tao, Linhong Deng, Yong Kong.  (2018)  Coinduction of a Chiral Microenvironment in Polypyrrole by Overoxidation and Camphorsulfonic Acid for Electrochemical Chirality Sensing.  ANALYTICAL CHEMISTRY,      [PMID:29996647] [10.1021/acs.analchem.8b02269]
52. Datong Wu, Wensheng Tan, Yin Yu, Baozhu Yang, Hongda Li, Yong Kong.  (2018)  A facile avenue to prepare chiral graphene sheets as electrode modification for electrochemical enantiorecognition.  ANALYTICA CHIMICA ACTA,      [PMID:30172332] [10.1016/j.aca.2018.06.029]
53. Mo Zunli, Niu Xiaohui, Gao Huhu, Li Zhenliang, Meng Shujuan, Guo Ruibin.  (2018)  Electrochemical recognition for tryptophan enantiomers based on 3, 4, 9, 10-perylenetetracarboxylic acid–chitosan composite film.  JOURNAL OF SOLID STATE ELECTROCHEMISTRY,  22  (8): (2405-2412).  [PMID:] [10.1007/s10008-018-3960-9]
54. 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,      [PMID:29595059] [10.1021/acs.analchem.8b00762]
55. Niu Xiaohui, Mo Zunli, Gao Huhu, Wang Ruijuan, Li Zhenliang, Meng Shujuan, Guo Ruibin.  (2017)  Highly selective tryptophan enantiomers electrochemical chiral sensor based on poly-lysine and functionalized multi-walled carbon nanotubes.  JOURNAL OF SOLID STATE ELECTROCHEMISTRY,  22  (4): (973-981).  [PMID:] [10.1007/s10008-017-3832-8]
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57. Liqi Dong, Youshan Zhang, Xuemin Duan, Xiaofei Zhu, Hui Sun, Jingkun Xu.  (2017)  Chiral PEDOT-Based Enantioselective Electrode Modification Material for Chiral Electrochemical Sensing: Mechanism and Model of Chiral Recognition.  ANALYTICAL CHEMISTRY,      [PMID:28809103] [10.1021/acs.analchem.7b01095]
58. Xiao Qi, Lu Shuangyan, Huang Chusheng, Su Wei, Zhou Shuyu, Sheng Jiarong, Huang Shan.  (2017)  An electrochemical chiral sensor based on amino-functionalized graphene quantum dots/β-cyclodextrin modified glassy carbon electrode for enantioselective detection of tryptophan isomers.  Journal of the Iranian Chemical Society,  14  (9): (1957-1970).  [PMID:] [10.1007/s13738-017-1134-9]
59. Lei Miao, Yang Yang, Yuanyuan Tu, Shudong Lin, Jiwen Hu, Zhuo Du, Min Zhang, Yue Li.  (2017)  Chiral resolution by polysulfone-based membranes prepared via mussel-inspired chemistry.  REACTIVE & FUNCTIONAL POLYMERS,      [PMID:] [10.1016/j.reactfunctpolym.2017.04.004]
60. 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).  [PMID:] [10.1039/C6RA24952C]
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64. Ma Liyun, Li Jing, Zhao Juan, Liao Han, Xu Li, Shi Zhi-guo.  (2015)  Penetrable silica microspheres for immobilization of bovine serum albumin and their application to the study of the interaction between imatinib mesylate and protein by frontal affinity chromatography.  ANALYTICAL AND BIOANALYTICAL CHEMISTRY,  408  (3): (805-814).  [PMID:26573171] [10.1007/s00216-015-9163-7]
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66. Xiaogang Gu, Yongxin Tao, Yan Pan, Linhong Deng, Liping Bao, Yong Kong.  (2015)  DNA-Inspired Electrochemical Recognition of Tryptophan Isomers by Electrodeposited Chitosan and Sulfonated Chitosan.  ANALYTICAL CHEMISTRY,      [PMID:26321420] [10.1021/acs.analchem.5b02683]
67. Yongxin Tao, Xiaogang Gu, Linhong Deng, Yong Qin, Huaiguo Xue, Yong Kong.  (2015)  Chiral Recognition of d-Tryptophan by Confining High-Energy Water Molecules Inside the Cavity of Copper-Modified β-Cyclodextrin.  Journal of Physical Chemistry C,      [PMID:] [10.1021/acs.jpcc.5b00927]
68. Fang fei Liu, Ying Yu, Bi xia Lin, Xiao gang Hu, Yu juan Cao, Jian zhong Wu.  (2014)  Visualization of hormone binding proteins in vivo based on Mn-doped CdTe QDs.  SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY,      [PMID:24815196] [10.1016/j.saa.2014.04.066]
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70. Fangqin Wang, Wenrong Cai, Lilan Tan, Junyao Li, Datong Wu, Yong Kong.  (2024)  A Liquid–Liquid Interfacial Strategy for Construction of Electroactive Chiral Covalent–Organic Frameworks with the Aim to Enlarge the Testing Scope of Chiral Electroanalysis.  ANALYTICAL CHEMISTRY,      [PMID:38335728] [10.1021/acs.analchem.3c05744]
71. 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,      [PMID:38788508] [10.1016/j.saa.2024.124494]
72. Yidan Liang, Bo Han, Xiaokang Lu, Yuqi Zhang, Ji-Jiang Wang.  (2024)  A terphenyl derivative-based colorimetric-fluorimetric probe for the detection of lysine and arginine and their bioimaging.  SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY,      [PMID:39374561] [10.1016/j.saa.2024.125230]
73. Yanna Ding, Yanli Zhou, Cuilan Feng, Maotian Xu, Daosheng Liu.  (2024)  Construction of Uniformly Dispersed Ag Nanoclusters in Nitrogen-Doped Carbon Tubes for Electrochemical Sensing of Tryptophan.  ACS Applied Nano Materials,      [PMID:] [10.1021/acsanm.4c05618]
74. Zhiwei Zhang, Dong Wang, Xuetao Yan, Yifang Yan, Lixing Lin, Yuze Ren, Yingying Chen, Lingyan Feng.  (2024)  Efficient chiral hydrogel template based on supramolecular self-assembly driven by chiral carbon dots for circularly polarized luminescence.  JOURNAL OF COLLOID AND INTERFACE SCIENCE,      [PMID:38945025] [10.1016/j.jcis.2024.06.208]
75. Xinwei Peng, Yongming Wei, Yangfeng Peng, Hongliang Zhao, Tianzhong Tong, Quan He.  (2024)  Enantiomeric separation of tryptophan via novel chiral polyamide composite membrane.  CHIRALITY,  36  (5): (e23674).  [PMID:38699859] [10.1002/chir.23674]
76. 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,      [PMID:38556802] [10.1021/acsami.4c03134]
77. Xiu Du, Lingxin Kong, Mingxing Liu, Yu Zhong, Kuihua Ding.  (2025)  Fiber Optic Tryptophan Enantiomers Chiral Sensor Based on Homochiral Metal-Organic Frameworks.  JOURNAL OF LIGHTWAVE TECHNOLOGY,      [PMID:] [10.1109/JLT.2025.3532941]
78. Luzheng Dong, Jun Wu, Xiashi Zhu.  (2024)  Preparation of amino acid chiral ionic liquid and visual chiral recognition of glutamine and phenylalanine enantiomers.  CHIRALITY,  36  (4): (e23665).  [PMID:38570326] [10.1002/chir.23665]
79. Nan Shi, Baozhu Yang, Junyao Li, Wenrong Cai, Laidi Xu, Yongxin Tao, Yong Kong.  (2024)  Synthesis of chiral hollow polymer microspheres and their applications in the spectroscopic chiral discrimination of tryptophan isomers.  SPECTROCHIMICA ACTA PART A-MOLECULAR AND BIOMOLECULAR SPECTROSCOPY,      [PMID:39447301] [10.1016/j.saa.2024.125302]
80. Liyun Ma, Zhi Li, Yiyi Shi, Yuchen Xie, Ming Jiang, Xu Yu, Li Xu.  (2024)  Two Birds With One Stone: A Novel Nanocomposite Combining Silicon Nanoparticles and Carbon-Doped Titania as the Fluorescence Probe and Visible Light Photocatalyst for Simultaneous Detection and Removal of Oxytetracycline.  Advanced Science,      [PMID:39651852] [10.1002/advs.202410306]
81. Tai Wen, Junyao Li, Wenrong Cai, Datong Wu, Zheng-Zhi Yin, Yong Kong.  (2024)  Visual and electrochemical chiral discrimination of tryptophan isomers with shikimic acid chiral ionic liquids–copper ions complex.  TALANTA,      [PMID:38437760] [10.1016/j.talanta.2024.125850]
82. Jing Zhang, Ye Yang, Yi-Ping Liu, Guo-Cong Liu, Xi Zhu, Xin-Yu Jiang, Jin-Gang Yu.  (2025)  Highly selective and efficient recognition of tyrosine enantiomers at Au NPs/D-sorbitol/GCE-based chiral sensor.  MICROCHEMICAL JOURNAL,      [PMID:] [10.1016/j.microc.2025.115424]
83. Junyao Li, Nan Shi, Chen Jin, Laidi Xu, Yong Kong.  (2025)  Synthesis of chiral multi-hole polydopamine nanospheres for spectroscopic and electrochemical discrimination of tryptophan enantiomers.  JOURNAL OF ELECTROANALYTICAL CHEMISTRY,      [PMID:] [10.1016/j.jelechem.2025.119486]
84. Shutong Yang, Liancheng Gu, Fangling Wu, Xinhua Dai, Fuxing Xu, Qiaoyu Li, Xiang Fang, Shaoning Yu, Chuan-Fan Ding.  (2022)  The chirality determination of amino acids by forming complexes with cyclodextrins and metal ions using ion mobility spectrometry, and a DFT calculation.  TALANTA,      [PMID:35272154] [10.1016/j.talanta.2022.123363]
85. Meng Li, Qian Luo, Runyu He, Lin Peng, Yaqin Zhang, Qian Zhao, Zhihui Wu, Wenli Gao, Xingbo Shi.  (2025)  Multifunctional N-doped carbon dot- polyvinyl alcohol composite film/label enables real-time freshness monitoring and synergistic preservation for shrimp.  FOOD CHEMISTRY,      [PMID:40749483] [10.1016/j.foodchem.2025.145749]
86. Qing Wang, Yao Long, Lin Yao, Mao Ye, Li Xu.  (2017)  C18-COOH Silica: Preparation, Characterisation and Its Application in Purification of Quaternary Ammonium Alkaloids from Coptis chinensis.  PHYTOCHEMICAL ANALYSIS,  28  (4): (332-343).  [PMID:28198057] [10.1002/pca.2680]
87. Jing Zhang, Shuang-Ning Li, Yi-Ping Liu, Xin-Yu Jiang, Yue-Qin Liu, Jiao Zou, Jin-Gang Yu.  (2025)  An efficient and facile adonitol-based electrochemical chiral sensor for highly selective determination of tyrosine.  Journal of the Taiwan Institute of Chemical Engineers,      [PMID:] [10.1016/j.jtice.2025.106111]
88. Chiyi Wei, Yanlong Li, Haijiao Xu, Molei Hao, Tianxi Wang, Weiyuan Huang, Wanlu Cao, Zihao Li, xiaoming wei, Zhongmin Yang.  (2025)  Disparity-Amplified Chiral SERS Using PSP-LSP Coupling Substrate.  Nanoscale,      [PMID:40260966] [10.1039/D5NR00088B]
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90. Jinhua Xu, Minghui Tang, Jinyu Zhang, Wenmin Zhang, Shiye Xie, Lan Zhang.  (2025)  Green and Controlled Synthesis of Copper-Based Tryptophan Flower-like Chiral Metal-Organic Framework for Enantioselective Recognition and Volatile Organic Compound Separation.  JOURNAL OF CHROMATOGRAPHY A,      [PMID:40339186] [10.1016/j.chroma.2025.466020]
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97. Huimin Wang, Guangxin Wang, Ruoxi Liu, Jin Yong Lee, Shufeng Liu, Yingqi Tang, Jing Yu.  (2025)  Electrochemiluminescent Enantiodiscrimination on Chiral Engineered l-His-ZIF8.  LANGMUIR,      [PMID:41217085] [10.1021/acs.langmuir.5c03908]
98. Fan Wu, Junyao Li, Ning Gu, Wenxin Huang, Datong Wu, Wenrong Cai, Zheng-Zhi Yin, Yong Kong.  (2026)  A dual-functional sensor for electrochemical discrimination and detection of glucose enantiomers based on chiral Au/Co3O4 nanoclusters.  MICROCHEMICAL JOURNAL,      [PMID:] [10.1016/j.microc.2026.117002]
99. Mengmeng Ji, Jinwei Li, Liuping Fan, Liang Wang, Shengquan Huang.  (2026)  Combined Effects of Quercetagetin and D-Amino Acids against Pseudomonas aeruginosa: Anti-Quorum Sensing, Antibacterial, and Antibiofilm activities.  Food Bioscience,      [PMID:] [10.1016/j.fbio.2026.108393]
100. Haoda Zhang, Kai Huang, Sen Zhou, Xiaoming Yang.  (2026)  Dual Channel Detection of Tetracycline Using Room-Temperature Phosphorescent Carbon Dots.  NANO,      [PMID:] [10.1142/S1793292026500700]
101. Qi Yi, Yi-Qi Sheng, Dong-Qi Han, Xue-Wei Lin, Chi-Kit Siu, Zhong-Ping Yao.  (2026)  Chiral recognition of amino acids by mass spectrometry with the combinations of two different chiral selectors.  Cell Reports Physical Science,      [PMID:] [10.1016/j.xcrp.2026.103144]
102. Simin Zhang, Xiangfeng Chen, Yaping Shi, Xiangyu Zhu, Zongwei Cai.  (2026)  Soft-Chain-Induced Ultrahigh-Resolution Chiral Separation of Amino Acids via Bimetallic Immobilization in MALDI-TIMS-MS.  ANALYTICAL CHEMISTRY,      [PMID:41701523] [10.1021/acs.analchem.5c07869]
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