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Nicholas C. Tang
Nicholas C. Tang
Verified email at duke.edu
Title
Cited by
Cited by
Year
Parallel on-chip gene synthesis and application to optimization of protein expression
J Quan, I Saaem, N Tang, S Ma, N Negre, H Gong, KP White, J Tian
Nature biotechnology 29 (5), 449-452, 2011
1962011
DNA synthesis, assembly and applications in synthetic biology
S Ma, N Tang, J Tian
Current opinion in chemical biology 16 (3-4), 260-267, 2012
1472012
Combinatorial codon scrambling enables scalable gene synthesis and amplification of repetitive proteins
NC Tang, A Chilkoti
Nature materials 15 (4), 419-424, 2016
852016
New tools for cost-effective DNA synthesis
N Tang, M Siying, J Tian
Synthetic Biology 1, 3-21, 2013
142013
Engineering novel synthetic biological systems
F Reza, K Chandran, M Feltz, A Heinz, E Josephs, P O’Brien, B Van Dyke, ...
Synthetic Biology, IET 1 (1.2), 48-52, 2007
112007
Synthetic intrinsically disordered protein fusion tags that enhance protein solubility
NC Tang, JC Su, Y Shmidov, G Kelly, S Deshpande, P Sirohi, N Peterson, ...
Nature Communications 15 (1), 3727, 2024
72024
A High Throughput Method for Exploring the Sequence Space of Polypeptides That Exhibit Thermoresponsive Phase Behavior
X Zeng, MJ Fossat, N Tang, A Chilkoti, RV Pappu
Biophysical Journal 116 (3), 200a, 2019
52019
Unstructured non-repetitive polypeptides having LCST behavior
A Chilkoti, T Nicholas, G Kelly
US Patent 11,155,584, 2021
12021
Unstructured non-repetitive polypeptides having lcst behavior
A Chilkoti, T Nicholas, G Kelly
US Patent 12,084,480, 2024
2024
UNSTRUCTURED NON-REPITITIVE POLYPEPTIDES WITH LCST BEHAVIOR
A Chilkoti, T Nicholas, G KELLY
2020
Intrinsically Disordered Protein Polymer Libraries as Tools to Understand Protein Hydrophobicity
NC Tang
2019
Intrinsically Disordered Protein Polymer Libraries
N Tang
Duke University, 2019
2019
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Articles 1–12