Applications of Chimeric Genes and Hybrid Proteins, Part B: by Melvin I. Simon

By Melvin I. Simon

Show description

Read or Download Applications of Chimeric Genes and Hybrid Proteins, Part B: Cell Biology and Physiology PDF

Best microbiology books

Protein Purification Protocols

This new version of Protein Purification Protocols (1996) thoroughly updates the prevailing protocols to mirror fresh advances and provides the large new array of proteomic innovations for protein isolation and research. those state-of-the-art strategies contain not just two-dimensional gel electrophoresis for research and characterization, but in addition analytical chromatography for multidimensional separations of proteins and peptides, and mass spectrometry for setting apart proteins.

Stress Biology of Yeasts and Fungi: Applications for Industrial Brewing and Fermentation

This e-book describes state-of-the-art technological know-how and expertise of the characterization, breeding, and improvement of yeasts and fungi used world wide in fermentation industries equivalent to alcohol beverage brewing, bread making, and bioethanol creation. The ebook additionally covers a variety of subject matters and critical components the former literature has overlooked, ranging generally from molecular mechanisms to biotechnological purposes concerning rigidity response/tolerance of yeasts and fungi.

Hydrocarbon and Lipid Microbiology Protocols: Bioproducts, Biofuels, Biocatalysts and Facilitating Tools

This quantity covers protocols for numerous purposes in hydrocarbon microbiology, together with these of curiosity for commercial techniques, biocatalysis, lipid and biofuel construction, bioproducts, or the human microbiome. It provides certain protocols for the practical screening of enzymes performing on greasy molecules (i.

Additional info for Applications of Chimeric Genes and Hybrid Proteins, Part B: Cell Biology and Physiology

Sample text

A. Reisfeld, I. A. Wilson, J. M. Hogle, and R. A. Lerner, Proc. Natl. Acad. Sci. A. 80, 4949 (1983); (2) I. A. Wilson, H. L. Niman, R. A. Houghten, A. R. Cherenson, M. L. Connolly, and R. A. Lerner, Cell 37, 767 (1984); (3) J. Field, J. Nikawa, D. Broek, B. MacDonald, L. Rodgers, I. A. Wilson, R. A. Lerner, and M. Wigler, Mol. Cell. Biol. 8, 2159 (1988); (4) G. I. Evan, G. K. Lewis, G. Ramsay, and J. M. Bishop, Mol. Cell. Biol. 5, 3610 (1985); (5) S. Munro and H. R. Pelham, Cell 48, 899 (1987); (6) K.

G. Chubet, and D. L. Vizard, BioTechniques 16, 730 (1994); (8) R. G. Chubet and B. L. Brizzard, BioTechniques 20, 136 (1996); (9) T. P. Hopp, K. S. Prickett, V. L. Price, R. T. Libby, C. J. March, D. P. Cerretti, D. L. Urdal, and P. J. Conlon, BioTechniques 6, 1204 (1988); (10) E. Hochuli, W. Bannwarth, H. Dobeli, and R. Gentz, Bio/Technology 6, 1321 (1988). TABLE II OTHER EPITOPE TAGS Tag Recognized sequence AU1 DTYRYI AU5 TDFYLK IRS RYIRS B-tag Universal QYPALT HTTPHH S-Tag Protein C KETAAAKFERQHMDS EDQVDPRLIDGK Glu-Glu KT3 VSV T7 HSV EYMPME or EFMPME PPEPET MNRLGK MASMTGGQQMG QPELAPEDPED a Comments Ref.

A. 82, 7952 (1985). l B. Rubinfeld, S. Munemitsu, R. Clark, L. Conroy, K. Watt, W. J. Crosier, F. McCormick, and P. Polakis, Cell 65, 1033 (1991). m H. MacArthur and G. Walter, J. Virol. 52, 483 (1984). n G. A. Martin, D. Viskochil, G. Bollag, P. C. McCabe, W. J. Crosier, H. Haubruck, L. Conroy, R. Clark, P. O’Connell, and R. M. Cawthon, Cell 63, 843 (1990). o T. E. Kreis, EMBO J. 5, 931 (1986). p G. Baier, D. Telford, L. Giampa, K. M. Coggeshall, G. Baier-Bitterlich, N. Isakov, and A. Altman, J.

Download PDF sample

Rated 4.85 of 5 – based on 39 votes