alkylated with iodoacetamide
(Product Code PROT-RA). 109 µg of protein was loaded
on a 7 cm, pH 4-7 IPG strip (Product Code I 2906),
focused for 50,000 volt hours, then run on a 4-20%
Tris-Glycine SDS-PAGE gel
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
heptoseless mutant of
Escherichia coli by carbon 13 nuclear magnetic
resonance. J. BioI. Chem., 258(5), 2906-2910
(1983).
14. Munford, R. S., et al., Sites of tissue binding and
uptake in vivo of bacterial
Description Size
I 2531 7 cm, pH 3-10, ProteoGel IPG Strips 12 each
I 3031 7 cm, pH 3-5, ProteoGel IPG Strips 12 each
I 2906 7 cm, pH 4-7, ProteoGel IPG Strips 12 each
I 3156 7 cm, pH 5-8, ProteoGel