戴宗老师简介 - 中山大学化学与化学工程学院 >>
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戴宗老师简介
姓名：戴宗
出生年月：1976-08
籍贯：浙江临海
博士，教授，博士生导师。应用化学系副主任，国家优秀青年基金获得者（2014），“中山大学优秀青年教师培养计划”入选者
电话：（实验室）
传真：暂未填写
邮箱：daizong@mail.
通讯地址：广东省广州市中山大学化学与化学工程学院
邮编：510275
个人网站：暂未填写
99.7 南京大学化学系，获学士学位；
04.6 南京大学化学系分析化学专业，硕博连读，获博士学位；导师，鞠熀先教授。
05.10 法国南特大学（Nante de Université）从事博士后研究工作， 导师： Nabil El Murr 教授；
07.10 美国亚立桑那州立大学（Arizona State University）从事博士后研究工作，导师：Joseph Wang 教授；
13.01 中山大学分析科学研究所， 副教授；
2013.01—至今 中山大学分析科学研究所， 教授；
2011.04—至今 传感技术专业委员会第二届委员会委员；
2014.10—至今 《中国化学快报》青年编委。
本科生基础课：仪器分析、现代化学实验与技术（仪器分析部分）。
1、国家优秀青年基金（2014）；
2、广州市珠江科技新星（2011）；
3、中山大学化学与化学工程学院“87”奖教金（2014）；
4、中山大学化学与化学工程学院“53”奖教金（2010）；
5、江苏省科学技术进步奖二等奖（2009，排名第六）；
6、中山大学青年教师授课大赛优秀奖（2009）；
7、中山大学化学与化学工程学院青年教师讲课比赛一等奖（2009）。
& 一直从事生物电分析化学研究，已在包括J. Am. Chem. Soc.、Anal. Chem.，Chem. Commun., Biosens. & Bioelectron. 等国际国内重要刊物上发表SCI论文50余篇，申请专利5项，参与撰写中英文专著3章。
1. Li Zhang, Yu-Zhi Xu, Xiao-Fen Xiao, Jun Chen, Xue-Qing Zhou,Wen-Yuan Zhu, Zong Dai(*), Xiao-Yong Zou(*), Development of techniques for DNA-methylation analysis, Trends in Anal. Chem., 4-122.
2. Yu-Zhi Xu, Chang Niu, Xiao-Fen Xiao, Wen-Yuan Zhu, Zong Dai(*), and Xiao-Yong Zou, Chemical-Oxidation Cleavage Triggered Isothermal Exponential Amplification Reaction for Attomole Gene-Specific Methylation Analysis, Anal. Chem., DOI: 10.1021/ac5044785.
3. Hai Wu, Su-Hua Fan, Xiao-Yan Jin, Hong Zhang, Hong Chen, Zong Dai(*), and Xiao-Yong Zou(*), Construction of a Zinc Porphyrin-Fullerene-Derivative Based Nonenzymatic Electrochemical Sensor for Sensitive Sensing of Hydrogen Peroxide and Nitrite, Anal. Chem., 85-6290.
4. Wen-Yuan Zhu, Xing-Peng Su, Xiao-Yu Gao, Zong Dai(*), and Xiaoyong Zou(*), A Label-Free and PCR-Free Electrochemical Assay for Multiplexed microRNA Profiles by Ligase Chain Reaction Coupling with Quantum Dots Barcodes，Biosens. Bioelectron., 4–419.
5. Bo Li, Zheng-Liang Li, Bo Situ, Zong Dai, Qin-Lan Liu, Qian Wang, Da-Yong Gu, and Lei Zheng(*), Sensitive HIV-1 Detection in a Homogeneous Solution Based on an Electrochemical Molecular Beacon Coupled with a Nafion–graphene Composite Film Modified Screen-Printed Carbon Electrode, Biosens. Bioelectron., 0–336.
6. Po Wang(*), Xi-Jiao Li, Zong Dai, Xiao-Yong Zou, and Xi-Guang Han, An Efficient Electrochemical Method for Direct Screening of The Mutation Status of DNA Base in Oligonucleotides, Sens. & Actuat. B-Chem., : 222–227.
7. Zhan-Chao Li, Li-Li Chen, Yan-Hua Lai, Zong Dai, and Xiaoyong Zou(*)，The Prediction of Methylation States in Human DNA Sequences Based on Hexanucleotide Composition, Anal. Methods, 97–1904.
8. Zhan-Chao Li(*), Li-Li Chen, Yan-Hua Lai, Yun Xie, Zong Dai, and Xiao-Yong Zou(*), Prediction of Protein Phenotype Based on Protein Interaction Network by Coupling Genetic Algorithm and K-nearest Neighbor Algorithm, Anal. Methods, 81–5289.
9. Zhan-Chao Li(*), Yan-Hua Lai, Li-Li Chen, Yun Xie, Zong Dai, and Xiao-Yong Zou(*), Identifying Functions of Protein Complexes Based on Topology Similarity with Random Forest, Molecular BioSystens, 4–525.
10. Zhan-Chao Li(*), Yan-Hua Lai, Li-Li Chen, Yun Xie, Zong Dai, and Xiao-Yong Zou(*), Identifying and Prioritizing Disease-Related Genes Based on the Network Topological Features, Biochimica et Biophysica Acta-Proteins & Proteomics, : .
11. Zong Dai(*), Ting Cai, Wen-Yuan Zhu, Xiao-Yu Gao, and Xiao-Yong Zou, Simultaneous Profiling of Multiple Gene-Methylation Loci by Electrochemical Methylation-Specific Ligase Detection Reaction, Chem. Commun., 39-1941.
12. Hai Wu, Su-Hua Fan, Wen-Yuan Zhu, Zong Dai(*), and Xiao-Yong Zou(*), Investigation of Electrocatalytic Pathway for Hemoglobin Toward Nitric Oxide by Electrochemical Approach Based on Protein Controllable Unfolding and In-Situ Reaction, Biosens. Bioelectron., 9-594.
13. Po Wang(*), Hao-Bin Chen, Jiu-Ying Tiao, Zong Dai, and Xiao-Yong Zou*, Electrochemical Evaluation of DNA Methylation Level Based on The Stoichiometric Relationship Between Purine and Pyrimidine Bases , Biosens. Bioelectron., -39.&
14. Bo Situ, Nan-Nan Cao, Bo Li, Qi-Niao Liu, Li Lin, Zong Dai, Xiao-Yong Zou, Zhen Cai, Qian Wang, Xiao-Hui Yan, and Lei Zheng(*), Sensitive Electrochemical Analysis of BRAFV600E Mutation Based on an Amplification-Refractory Mutation System Coupled with Multienzyme Functionalized Fe3O4/Au Nanoparticles, Biosens. Bioelectron., 7-263.
15. Jun Xiao, HB Li, WQ Zhou, NQ Luo, Y Liang, JM Shao, P Liu, Xiao-Yong Zou, Zong Dai(*), Guo-Wei Yang(*), A New Insight Into the Electrochemical Growth of Ag Nanodendrites Without a Strong Electrolyte, RSC Adv., 532-20537.&
16. Zhan-Chao Li, Yan-Hua Lai, Li-Li Chen, Chao Chen, Yun Xie, Zong Dai, and Xiao-Yong Zou(*), Identifying Subcellular Localizations of Mammalian Protein Complexes Based on Graph Theory with a Random Forest Algorithm, Molecular BioSystems, 8-667.
17. Xuan Zhou, Zhan-Chao Li, Zong Dai, Xiao-Yong Zou(*), Predicting Promoters by Pseudo-Trinucleotide Compositions Based on Discrete Wavelets Transform, J. Theoretical Biology, : 1-7.&
18. Zong Dai, Hui Liu, Yu-Dong Shen, Xing-Peng Su, Zhen-Lin Xu, and Yuan-Ming Sun(*), and Xiao-Yong Zou(*), Attomolar Determination of Coumaphos by Electrochemical Displacement Immunoassay Coupled With Oligonucleotide Sensing, Anal. Chem., 57–8163.
19. Zong Dai(*), Xiao Hu, Hai Wu, and Xiao-Yong Zou, A label-free Electrochemical Assay for Quantification of Gene-Specific Methylation in a Nucleic Acid Sequence, Chem. Commun., 69–1771.&
20. Po Wang, Hai Wu, Zong Dai(*), and Xiaoyong Zou(*), Picomolar Level Profiling of The Methylation Status of the p53 Tumor Suppressor Gene by a Label-Free Electrochemical Biosensor, Chem. Commun., 754–10756.
21. Yan-Hua Lai, Zhan-Chao Li, Li-Li Chen, Zong Dai, and Xiao-Yong Zou(*), Identification of Potential Host Proteins for Influenza A Virus Based on Topological and Biological Characteristics by Proteome-Wide Network Approach, J. Protem., 00-2513.
22. Zhan-Chao Li, Yan-Hua Lai, Li-Li Chen, Xuan Zhou, Zong Dai, and Xiao-Yong Zou(*), Identification of Human Protein Complexes from Local Sub-Graphs of Protein–Protein Interaction Network Based on Random Forest with Topological Structure Features, Anal. Chim. Acta, : 32-41.
23. Xuan Zhou, Zhan-Chao Li, Zong Dai, and Xiao-Yong Zou(*), Prediction of Methylation CpGs and Their Methylation Degrees in Human DNA Sequences, Comput. Biol. Med., 8-413.
24. Zhan-Chao Li, Xuan Zhou, Zong Dai, and Xiao-Yong Zou(*), Classification of G Proteins and Prediction of GPCRs-G Proteins Coupling Specificity Using Continuous Wavelet Transform and Information Theory, Amino Acids, 3-804.
25. Zong Dai(*), Yan Yang, Hai Wu, and Xiao-Yong Zou, Investigation of Dual-layer Membrane Cloaking Method by Surface Plasmon Resonance for Direct Chronoamperometric Immunoassay of Serum Sample, Biosens. Bioelectron., 1–427.
26. Hai Wu, Li-Na Lin, Po Wang, Song-Shan Jiang, Zong Dai(*), and Xiao-Yong Zou(*), Solubilization of Pristine Fullerene by the Unfolding Mechanism of Bovine Serum Albumin for Cytotoxic Application, Chem. Commun., 659–10661.
27. Po Wang, Hai Wu, Zong Dai(*), and Xiao-Yong Zou(*), Simultaneous Detection of Guanine, Adenine, Thymine and Cytosine at Choline Monolayer Supported Multiwalled Carbon Nanotubes Film. Biosens. Bioelectron., 39-3345.&
28. Hai Wu, Xiao-Juan Zhao, Po Wang, Zong Dai(*), and Xiao-Yong Zou(*), Electrochemical Site Marker Competitive Method for Probing the Binding Site and Binding Mode Between Bovine Serum Albumin and Alizarin Red S. Electrochim. Acta, 81-4187.
29. Xiao-Juan Zhao, Zhi-Bin Mai, Zong Dai(*), and Xiao-Yong Zou(*), Direct Probing of the Folding/Unfolding Event of Bovine Hemoglobin at Montmorillonite Clay Modified Electrode by Adsorptive-Transfer Voltammetry. Talanta, 8-154.
30. Hai Wu, Po Wang, Zong Dai(*), and Xiao-Yong Zou*, Site-Selective Probe for Investigating the Asynchronous Unfolding of Domains in Bovine Serum Albumin, Talanta, 1-886.
31. Zhan-Chao Li, Xuan Zhou, Zong Dai, and Xiao-Yong Zou(*), Identification of Protein Methylation Sites by Coupling Improved Ant Colony Optimization Algorithm and Support Vector Machine, Anal. Chim. Acta, : 163-171.
32. Xuan Zhou, Zhan-Chao Li, Zong Dai, and Xiao-Yong Zou(*), Predicting Methylation Status of Human DNA Sequences by Pseudo-Trinucleotide Composition, Talanta, 43-1147.
33. Po Wang, Zhi-Bin Mai, Zong Dai(*), and Xiao-Yong Zou(*), Investigation of DNA Methylation by Direct Electrocatalytic Oxidation, Chem. Commun., 81–7783.
34. Zhi-Bin Mai, Xiao-Juan Zhao, Zong Dai(*), and Xiao-Yong Zou(*), Direct Electrochemistry of Hemoglobin Adsorbed on Self-Assembled Monolayers with Different Head Groups or Chain Length. Talanta, 7-175.&
35. Zhi-Bin Mai, Xiao-Juan Zhao, Zong Dai(*), and Xiao-Yong Zou(*), Contributions of Components in Guanidine Hydrochloride to Hemoglobin Unfolding Investigated by Protein Film Electrochemistry. J. Phys. Chem. B, : .&
36. Zhi-Bin Mai, Xiao-Juan Zhao, Zong Dai(*), and Xiao-Yong Zou(*), Investigation of the Chloride Effect on Hemoglobin by Adsorptive Transfer Voltammetry. Anal. Biochem., : 23-29.
37. Xiao-Juan Zhao, Zhi-Bin Mai, Zong Dai(*), and Xiao-Yong Zou(*). Electrochemically Monitoring the Acid and Acidic Urea-Induced Unfolding of Hemoglobin and its Electrocatalytic Ability. Electroanalysis, 77-2283.&
38. Zhan-Chao Li, Xuan Zhou, Zong Dai, and Xiao-Yong Zou(*), Classification of G-protein Coupled Receptors Based on Support Vector Machine with Maximum Relevance Minimum Redundancy and Genetic Algorithm. BMC Bioinformatics, 5-339.
39. Xuan Zhou, Zhan-Chao Li, Zong Dai, and Xiao-Yong Zou(*), QSAR Modeling of Peptide Biological Activity by Coupling Support Vector Machine with Particle Swarm Optimization Algorithm and Genetic Algorithm, J. Mol. Graph. Model., 8-196.
40. Zong Dai, Yun Xiao, Xiao-Zhi Yu, Zhi-Bin Mai, Xiao-Juan Zhao, Xiao-Yong Zou(*), Direct Electrochemistry of Myoglobin Based on Ionic Liquid–Clay Composite Films, Biosens. Bioelectron., 29–1634.
41. Po Wang, Zhi-Bin Mai, Zong Dai, Yong-Xin Li(*), and Xiao-Yong Zou(*), Construction of Au Nanoparticles on Choline Chloride Modified Glassy Carbon Electrode for Sensitive Detection of Nitrite. Biosens. Bioelectron., 42-3247.
42. Zhan-Chao Li, Xi-Bin Zhou, Zong Dai, and Xiao-Yong Zou(*), Prediction of Protein Structural Classes by Chou’s Pseudo Amino Acid Composition: Approached Using Continuous Wavelet Transform and Principal Component Analysis. Amino Acids, 5-425.&
43. Xiao-Juan Zhao, Zhi-Bin Mai, Xin-Huang Kang, Zong Dai, and Xiaoyong Zou(*), Clay-Chitosan-Gold Nanoparticle Nanohybrid: Preparation and Application for Assembly and Direct Electrochemistry of Myoglobin. Electrochim. Acta, 32-4739.&
44. Anchana Preechaworapun, Zong Dai, Yun Xiang, Orawon Chailapakul(*), Joseph Wang(*), Investigation of the Enzyme Hydrolysis Products of the Substrates of Alkaline Phosphatase in Electrochemical Immunosensing, Talanta, 4-431.
45. Zong Dai, Simona Serban, Huang-Xian Ju, and Nabil El Murr(*), Layer-by-layer Hydroxymethyl Ferrocene Modified Sensor for One-Step Flow/Stop-Flow Injection Amperometric Immunoassay of α-Fetoprotein, Biosens. Bioelectron., 00-1706.&
46. Joseph Wang(*), Yun Xiang, Zong Dai, Gerlach Jared, Jeffrey T. La Belle, and Lokesh Joshi, Nanoparticle-Based Sensing of Glycan-Lectin Interactions, Glycobiology, 55.
47. Chumbimuni-Torres Karin Y., Zong Dai, Nastassia Rubinova, Yun Xiang, Erno Pretsch, Joseph Wang(*), and Eric Bakker(*), Potentiometric Biosensing of Proteins with Ultrasensitive Ion-Selective Microelectrodes and Nanoparticle Labels, J. Am. Chem. Soc., : .&
48. Jie Wu, Jin-Hai Tang, Zong Dai, Feng Yan, Huang-Xian Ju(*), and Nabil El Murr(*), A Disposable Electrochemical Immunosensor for Flow Injection Immunoassay of Carcinoembryonic Antigen, Biosens. Bioelectron., 2-108.
49. Zong Dai, Abdel-Nasser Kawde, Yun Xiang, Jeffrey T. La Belle, Jared Gerlach, Veer P. Bhavanandan, Lokesh Joshi(*), and Joseph Wang(*), Nanoparticle-Based Sensing of Glycan-Lectin Interactions, J. Am. Chem. Soc., : .
50. Tanin Tangkuaram, Gerlach Jared, Yun Xiang, Abdel-Nasser Kawde, Zong Dai, Veer P. Bhavanandan, Jeffrey T. La Belle, Waret Veerasai, Lokesh Joshi(*), and Joseph Wang(*), Sensitive and Rapid Electrochemical Bioassay of Glycosidase Activity, Analyst, : 889-891.
51. Jin Chen, Feng Yan, Zong Dai, and Huang-Xian Ju(*), Reagentless Amperometric Immunosensor for Human Chorionic Gonadotrophin Based on Direct Electrochemistry of Horseradish Peroxidase, Biosens. Bioelectron., 0-336.&
52. Zong Dai, Jin Chen, Feng Yan, and Huang-Xian Ju(*), Electrochemical Sensor for Immunoassay of Carcinoembryonic Antigen Based on Thionine Monolayer Modified Gold Electrode, Cancer Detect. Prevent., 3-240.
53. Hua Yu, Feng Yan, Zong Dai, and Huang-Xian Ju(*), A Disposable Amperometric Immunosensor for Alpha-1-Fetoprotein Based on Enzyme-Labeled Antibody/Chitosan-Membrane-Modified Screen-Printed Carbon Electrode, Anal. Biochem., : 98-105.&
54. Zong Dai, Feng Yan, Hua Yu, Xiao-Ya Hu, and Huang-Xian Ju(*), Novel Amperometric Immunosensor for Rapid Separation-Free Immunoassay of Carcinoembryonic Antigen, J. Immunol. Methods, : 13-20.&
55. Zong Dai, Feng Yan, Jin Chen, and Huang-Xian Ju(*), Reagentless Amperometric Immunosensors Based on Direct Electrochemistry of Horseradish Peroxidase for Determination of Carcinoma Antigen-125, Anal. Chem., 29-5434.&
56. Huang-Xian Ju(*), Zong Dai, and Dónal Leech, Electrochemical Determination of Electroinactive Guests of Beta-Cyclodextrin at a Self-Assembled Monolayer Interface, Sci. China, Series B-Chem., -53.
57. Zong Dai, and Huang-Xian Ju(*), Effect of Chain Length on the Surface Properties of Omega-Carboxy Alkanethiol Self-Assembled Monolayers, Phys. Chem. Chem. Phys., 69-3773.&
58. Rong-Xin Yuan, Ren-Gen Xiong, Zhen-Feng Chen, Pei Zhang, Huang-Xian Ju, Zong Dai, Zi-Jian Guo, Hoong-Kun Fun, and Xiao-Zeng You(*). Crystal Structure of Zinc(II) 2-Sulfanilamidopyrimidine: A Widely Used Topical Burn Drug, J. Chem. Soc. Dalton Trans., 4-776.
1. 戴宗，陈俊，邹小勇，一种改进型恒温指数扩增技术及其在microRNA检测中的应用。国家发明专利，申请号：.1；
2. 戴宗，周雪晴，邹小勇，一种基于三重放大反应串联的恒温指数放大技术及其在microRNA检测中的应用。国家发明专利，申请号：.2；
3. 戴宗，蔡婷，邹小勇，一种基于连接酶反应的多特异位点DNA甲基化电化学检测方法。国家发明专利，申请号：.1；
4. 戴宗，严枫，鞠熀先，肿瘤标志物的电化学免疫测定方法及微体积免疫测定芯片。国家发明专利，专利号：ZL 1175.3；
5. 严枫，戴宗，鞠熀先，一种新型无试剂安培免疫传感器的制备及应用。国家发明专利，专利号：ZL 03 1 13053.4。&
1. NanoBiosensing — Principles, Development and Application，Ju Huangxian，Zhang Xueji, Wang Joseph, 2011，Springer。
2. 纳米生物传感：原理、发展与应用，鞠熀先，张学记，Wang Joseph，2012，科学出版社。
3. Amperometric Biosensors Based on Weak Interaction and Recognition Between Biomolecules, Ju Huangxian, Dai Zong, Chen Jin, Encyclopedia of SENSIRS, American Scientific Publishers, 2006.
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