Nancy A. Da Silva
Affiliations: | University of California, Irvine, Irvine, CA |
Area:
Molecular Biology, Chemical Engineering, Microbiology BiologyWebsite:
https://engineering.uci.edu/users/nancy-da-silvaGoogle:
"Nancy Da Silva"Bio:
https://www.proquest.com/openview/763920be130e141cd935b06732934a6f/1
Parents
Sign in to add mentor| James E. Bailey | grad student | 1988 | Caltech (Chemistry Tree) | |
| (Host-plasmid interactions and regulation of cloned gene expression in recombinant cells) | ||||
Children
Sign in to add trainee| Wannana Panuwatsuk | grad student | 2001 | UC Irvine |
| Douglas C. Pecota | grad student | 2001 | UC Irvine |
| Won-Kyu Lee | grad student | 2003 | UC Irvine |
| Seh H. Jang | grad student | 2004 | UC Irvine |
| Claudia G. Ching | grad student | 2005 | UC Irvine |
| Soo-Jin Lee | grad student | 2005 | UC Irvine |
| Dhawal Shah | grad student | 2007 | UC Irvine |
| Sam Wei Chan | grad student | 2012 | UC Irvine |
| Michael W. Shen | grad student | 2012 | UC Irvine |
| Sneha Srikrishnan | grad student | 2012 | UC Irvine |
BETA: Related publications
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Publications
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| Besada-Lombana PB, Chen W, Da Silva NA. (2023) An extracellular glucose sensor for substrate-dependent secretion and display of cellulose-degrading enzymes. Biotechnology and Bioengineering |
| Pham A, Bassett S, Chen W, et al. (2023) Assembly of Metabolons in Yeast Using Cas6-Mediated RNA Scaffolding. Acs Synthetic Biology |
| Bever D, Wheeldon I, Da Silva N. (2022) RNA polymerase II-driven CRISPR-Cas9 system for efficient non-growth-biased metabolic engineering of . Metabolic Engineering Communications. 15: e00208 |
| Lang X, Besada-Lombana PB, Li M, et al. (2020) Developing a broad-range promoter set for metabolic engineering in the thermotolerant yeast . Metabolic Engineering Communications. 11: e00145 |
| McTaggart TL, Bever D, Bassett S, et al. (2019) Synthesis of polyketides from low cost substrates by the thermotolerant yeast Kluyveromyces marxianus. Biotechnology and Bioengineering |
| Que RA, Crakes DR, Abdulhadi F, et al. (2018) Tailoring Collagen to Engineer the Cellular Microenvironment. Biotechnology Journal. e1800140 |
| Vickery CR, Cardenas J, Bowman M, et al. (2018) A coupled in vitro/in vivo approach for engineering a heterologous Type III PKS to enhance polyketide biosynthesis in Saccharomyces cerevisiae. Biotechnology and Bioengineering |
| Que RA, Arulmoli J, Da Silva NA, et al. (2018) Recombinant collagen scaffolds as substrates for human neural stem/progenitor cells. Journal of Biomedical Materials Research. Part A |
| Que RA, Chan SW, Jabaiah AM, et al. (2015) Tuning cellular response by modular design of bioactive domains in collagen. Biomaterials. 53: 309-17 |
| Que R, Mohraz A, Da Silva NA, et al. (2014) Expanding functionality of recombinant human collagen through engineered non-native cysteines. Biomacromolecules. 15: 3540-9 |