Using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. New techniques provide chemical engineers with a better understanding of the process as well as the cells themselves.

Chemical Engineering Progress

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Main Authors: Jacob, N.M., Hu, W.-S., Loo, B.L.W., Yap, M.
Other Authors: CHEMICAL & BIOMOLECULAR ENGINEERING
Format: Article
Published: 2014
Online Access:http://scholarbank.nus.edu.sg/handle/10635/114536
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Institution: National University of Singapore
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spelling sg-nus-scholar.10635-1145362015-01-09T07:05:21Z Using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. New techniques provide chemical engineers with a better understanding of the process as well as the cells themselves. Jacob, N.M. Hu, W.-S. Loo, B.L.W. Yap, M. CHEMICAL & BIOMOLECULAR ENGINEERING Chemical Engineering Progress 105 11 35-42 CEPRA 2014-12-02T08:05:48Z 2014-12-02T08:05:48Z 2009-11 Article Jacob, N.M.,Hu, W.-S.,Loo, B.L.W.,Yap, M. (2009-11). Using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. New techniques provide chemical engineers with a better understanding of the process as well as the cells themselves.. Chemical Engineering Progress 105 (11) : 35-42. ScholarBank@NUS Repository. 03607275 http://scholarbank.nus.edu.sg/handle/10635/114536 NOT_IN_WOS Scopus
institution National University of Singapore
building NUS Library
country Singapore
collection ScholarBank@NUS
description Chemical Engineering Progress
author2 CHEMICAL & BIOMOLECULAR ENGINEERING
author_facet CHEMICAL & BIOMOLECULAR ENGINEERING
Jacob, N.M.
Hu, W.-S.
Loo, B.L.W.
Yap, M.
format Article
author Jacob, N.M.
Hu, W.-S.
Loo, B.L.W.
Yap, M.
spellingShingle Jacob, N.M.
Hu, W.-S.
Loo, B.L.W.
Yap, M.
Using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. New techniques provide chemical engineers with a better understanding of the process as well as the cells themselves.
author_sort Jacob, N.M.
title Using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. New techniques provide chemical engineers with a better understanding of the process as well as the cells themselves.
title_short Using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. New techniques provide chemical engineers with a better understanding of the process as well as the cells themselves.
title_full Using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. New techniques provide chemical engineers with a better understanding of the process as well as the cells themselves.
title_fullStr Using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. New techniques provide chemical engineers with a better understanding of the process as well as the cells themselves.
title_full_unstemmed Using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. New techniques provide chemical engineers with a better understanding of the process as well as the cells themselves.
title_sort using genomic tools to improve the production of biologics recombinant dna technology transforms mammalian cells into factories for protein-based therapeutics. new techniques provide chemical engineers with a better understanding of the process as well as the cells themselves.
publishDate 2014
url http://scholarbank.nus.edu.sg/handle/10635/114536
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