Full list of publications (Pubmed for Yongwon Jung)

27. Oh HJ and Jung Y*, "High order assembly of multiple protein cages with homogeneous sizes and shapes via limited cage surface engineering", Chemical Science (2023), 14, 1105-1113

26. Son J and Jung Y*, "Lipid coated protein condensates as stable protocells with selective uptake abilities for biomolecules", Chemical Science (2022), 13, 11841-11848

25. Lee,Y, Kim M, Kang JY, and Jung Y*, "Protein Cages Engineered for Interaction-Driven Selective Encapsulation of Biomolecules", ACS Applied Materials & Interfaces (2022), 14, 35357-35365.

24. Choi H and Jung Y*, "Valence-controlled protein conjugation on nanoparticles via re-arrangeable multivalent interactions of tandem repeat protein chains", Chemical Science (2022), 13, 7552-7559

23. Jo Y, Jang J, Song D, Park H, and Jung Y*, "Determinants for Intrinsically Disordered Protein Recruitment into Phase-Separated Protein Condensates ", Chemical Science (2022), 13, 522-530

22. Han S and Jung Y*, "Artificial protein assemblies with well-defined supramolecular protein nanostructures ",  Biochemical Society Transactions (2021), 49, 2821-2830.

21. Oh HJ and Jung Y*, "Active drug loading and release behaviors of four-fold channel flopped-ferritin variants ", Bull. Kor. Chem. Soc. (2021), 42, 1666-1671.

20. Song D, Jo Y, Choi JM, and Jung Y*, "Client proximity enhancement inside cellular membrane-less compartments governed by client-compartment interactions", Nature Communications (2020), 11, 5642.

19. Hong K, Song D, and Jung Y*, "Behavior control of membrane-less protein liquid condensates with metal ion-induced phase separation", Nature Communications (2020), 11, 5554.

18. Han S, Kim Yn, Jo G, Kim YE, Kim HM, Choi JM* and Jung Y*, "Multivalent Interaction-Driven Assembly of Discrete, Flexible, and Asymmetric Supramolecular Protein Nano-Prisms", Angewandte Chemie Int. Ed. (2020), 59, 23244-23251.

17. Jo Y and Jung Y*, "Interplay between Intrinsically Disordered Proteins inside Membraneless Protein Liquid Droplets", Chemical Science (2020), 11, 1269-1275.

16. Choi H, Park H, Son K, Kim HM, and Jung Y*, "Fabrication of Rigidity and Space Variable Protein Oligomers with Two Peptide Linkers", Chemical Science (2019), 10, 10428-10435.

15. Choi H, Lee JM*, and Jung Y*, "Monomeric Covalent-avidin for Rapid and Covalent Labeling of Quantum Dots to Cell Surface Proteins", Advanced Biosystems (2019), 3, 1800288.

14. Song D and Jung Y*, "Homo-molecular Fluorescence Complementation for Direct Visualization of Receptor Oligomerization in Living Cells", Angewandte Chemie Int. Ed. (2019), 58, 2045-2049.

13. Mah S, Jang J, Song D, Shin Y, Latif M, Jung Y*, and Hong S*, "Discovery of fluorescent 3-heteroarylcoumarin derivatives as novel inhibitors of anaplastic lymphoma kinase", Organic & Biomolecular Chemistry (2018), 17, 186-194.

12. Yoon HR, Choi H, Choi YA, Kim JA, Jung J, Kim HM, and Jung Y*, "Fabrication of Oligomeric Avidin Scaffolds for Valency-Controlled Surface Display of Functional Ligands", Angewandte Chemie Int. Ed. (2018), 57, 12410-12414.

11. Choi H and Jung Y*, "Applying Multivalent Biomolecular Interactions for Biosensor", Chemistry-A European Journal (2018), 24, 19103-19109.

10. Ahn B, Lee SG, Yoon HR, Lee JM, Oh HJ, Kim H*, and Jung Y*, "Four-fold Channel-Nicked Human Ferritin Nanocages for Active Drug Loading and pH-Responsive Drug Release", Angewandte Chemie Int. Ed. (2018), 57, 2909-2913.

9. Lee JM, Hwang A, Choi H, Jo Y, Kim B*, Kang T*, and Jung Y*, "Multivalent Structure-Specific RNA Binder with Extremely Stable Target Binding but Reduced Interaction to Nonspecific RNAs", Angewandte Chemie Int. Ed. (2017), 56, 15998-16002.

8. Kim Yn and Jung Y*, "Artificial supramolecular protein assemblies as functional high-order protein scaffolds", Organic & Biomolecular Chemistry (2016), 14, 5352-5356. 

7. Lee JM, Kim JA, Yen TC, Lee IH, Ahn B, Lee Y, Hsieh CL, Kim HM, and Jung Y*, "A Rhizavidin Monomer with Nearly Multimeric Avidin-Like Binding Stability Against Biotin Conjugates", Angewandte Chemie Int. Ed. (2016), 55, 3393-3397.

6. Kim YE, Kim Yn, Kim JA, Kim HM, and Jung Y*, "Green fluorescent protein nanopolygons as monodisperse supramolecular assemblies of functional proteins with defined valency", Nature Communications (2015), 6, 7134.

5. Lee IH, Ahn B, Lee JM, Lee CS, and Jung Y*, "A facile synthesis of fluorescent silver nanoclusters with human ferritin as a synthetic and interfacing ligand", Analyst (2015), 140, 3543-3550.

4. Choi YA, Keem JO, Kim CY, Yoon HY, Heo WD, Chung BH*, and Jung Y*, "A novel copper-chelating strategy for fluorescent proteins to image dynamic copper fluctuations on live cell surfaces", Chemical Science (2015), 6, 1301-1307.

3. Kang T, Kim H, Lee JM, Lee H, Choi YS, Kang G, Seo MK, Chung BH*, Jung Y*, and Kim B*, "Ultra-Specific Zeptomole MicroRNA Detection by Plasmonic Nanowire Interstice Sensor with Bi-Temperature Hybridization", Small (2014), 10, 4200-4206.

2. Lee IH, Lee JM, and Jung Y*, "Controlled Protein Embedment onto Au/Ag Core-Shell Nanoparticles for Immuno-Labeling of Nanosilver Surface", ACS Appl. Mater. Interfaces (2014), 6, 7659-7664.

1. Yoon HY, Lee JM, Jung J, Lee CS, Chung BH*, and Jung Y*, "Highly improved specificity for hybridization-based microRNA detection by controlled surface dissociation", Analyst (2014), 139, 259-265.

 

Before KAIST (~2012)

14. Kim Y.E., Yi, S.Y., Lee, C.-S., Jung, Y.*, and Chung, B.H.*, “Gold patterned biochips for on chip immune-MALDI-TOF MS: SPR imaging coupled multi-protein MS analysis”, Analyst (2012), 137, 386-392.

13. Lee, J.M. and Jung, Y.*, “Two-temperature hybridization for microarray detection of label-free microRNAs with attomole detection and superior specificity”, Angewandte Chemie Int. Ed. (2011), 50, 12487-12490.

12.  Keem, J.O., Lee, I.H., Kim, S.Y., Jung, Y.*, and Chung, B.H.*, “Splitting and self-assembling of far-red fluorescent protein with an engineered beta strand peptide: Application for alpha-synuclein imaging in mammalian cells”, Biomaterials (2011), 32, 9051-9058.

11.  Lee, J.M., Cho, H., and Jung, Y.*, “Fabrication of a Structure-Specific RNA Binder for Array Detection of Label-Free MicroRNA”, Angewandte Chemie Int. Ed. (2010), 49, 8662-8665.

10. Jung, Y., Lee, J.M., Kim, J., Yoon, J., Cho, H., and Chung, B.H., “Photoactivable Antibody Binding Protein: Site-Selective and Covalent Coupling of Antibody”, Analytical Chemistry (2009), 81, 936-942.

9.  Jung, Y., Jeong, J.Y., and Chung, B.H., “Recent Advances in Immobilization Methods of Antibodies on Solid Supports”, Analyst (2008), 133, 697-701.

8. Jung, Y., Kang, H.J., Lee, J.M. Jung, S.O., Chung, S., and Chung, B.H., “Controlled antibody immobilization onto immunoanalytical platforms by synthetic peptide”, Analytical Biochemistry (2008), 374, 99-105.

7. Jung, Y., Lee, J.M., Jung, H., and Chung, B.H., “Self-directed and –oriented immobilization of antibody by protein G-DNA conjugate”, Analytical Chemistry (2007), 79, 6534-6541.

6.  Jung, Y. and Lippard, S.J., “Direct Cellular Responses to Platinum-Induced DNA Damage”, Chemical Review (2007), 107, 1387-1407.

5. Jung, Y. and Lippard, S.J., “RNA polymerase II blockage by cisplatin-damaged DNA. Stability and polyubiquitylation of stalled polymerase”, Journal of Biological Chemistry (2006), 281, 1361-1370.

4. Jung, Y. and Lippard, S.J., “Multiple states of stalled T7 RNA polymerase at DNA lesions generated by platinum anticancer agents”, Journal of Biological Chemistry (2003), 278, 52084-52092.

3.  Jung, Y. and Lippard, S.J., “Nature of full-length HMGB1 binding to cisplatin-modified DNA”, Biochemistry (2003), 42, 2664-2671.

2. Jung, Y., Mikata, Y., and Lippard, S.J., “Kinetic studies of TATA binding protein interaction with cisplatin-modified DNA”, Journal of Biological Chemistry (2001), 276, 43589-43596.

1. Jung, Y., Kwak, J., and Lee, Y., “High-level production of heme-containing holoproteins in Escherichia coli.”, Appl. Microbiol. Biotechnol. (2001), 55, 187-191.