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Gene transfer and expression in mammalian cells / edited by Savvas C. Makrides. -- New Comprehensive Biochemistry ; v.38). -- Elsevier, 2003 |
Contents
索书号: 58.173/N532/v.38
1. Why choose mammalian cells for protein production? 1
2.Vectors for gene expression in mammalian cells 9
3.Virus-based vectors for gene expression in mammalian cells: Herpes simplex virus 27
4.Methods for DNA introduction into mammalian cells 265
5.Lipid reagents for DNA transfer into mammalian cells 279
6.Reporter genes for monitoring gene expression in mammalian cells 291
7.Gene transfer and gene amplification in mammalian cells 309
8.Co-transfer of multiple plasmids/viruses as an attractive method to introduce several genes in mammalian cells 337
9.Optimization of plasmid backbone for gene expression in mammalian cells 349
10.Use of scaffold/matrix-atta
11.Chromatin insulators and position effects 381
12.Locus control regions 397
13.Protein synthesis ,
14.Pathways and functions of mammalian protein glycosylation 433
15.Metabolic engineering of mammalian cells for higher protein yield 457
16.Translational regulation in mammalian cells 471
17.Pathways of mammalian messenger RNA degradation 495
18.Pathways of mammalian protein degradation 513
19.Stabilization of proteasomal substrates by viral repeats 535
20.Architecture and utilization of highly expressed genomic sites 551
21.Intracellular targeting of antibodies in mammalian cells. 573
22.Inducible gene expression in mammalian cells. 589
23.Protein production by large-scale mammalian cell culture 605
24.Protein production in transgenic animals 625
25.Strategies for the purification of recombinant proteins 641
