complex, Ex = 364 nm, Em = 454 nm
(100 mM NaCl, 10 mM EDTA, 10 mM
Tris, pH 7)2
4’,6-Diamidino-2-phenylindole dihydrochloride
D 9542, D8417 (cell culture tested)
Storage temperature 2-8 °C
CAS RN: 28718
complex, Ex = 364 nm, Em = 454 nm
(100 mM NaCl, 10 mM EDTA, 10 mM
Tris, pH 7)2
4’,6-Diamidino-2-phenylindole dihydrochloride
D 9542, D8417 (cell culture tested)
Storage temperature 2-8 °C
CAS RN: 28718
complex, Ex = 364 nm, Em = 454 nm
(100 mM NaCl, 10 mM EDTA, 10 mM
Tris, pH 7)2
4’,6-Diamidino-2-phenylindole dihydrochloride
D 9542, D8417 (cell culture tested)
Storage temperature 2-8 °C
CAS RN: 28718
and storage of the data
generated when using the PHYTOMLS.
Components
PHYTOMLS contains 364 unique primary and
secondary plant metabolites, covering Key
metabolic pathways, including the following
Pflügers Arch. 402, 364 (1984).
12 Resistive artifacts in liquid-ion exchanger microelectrode estimates of Na+ activity in epithelial cells. S. A. Lewis, N. K.
Wills, Biophys. J. 31, 127 (1980).
13 Relations
1963).
10. Finch, C. et al., Effect of transfused reticulocytes on
iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R.S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R. S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R. S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R. S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R. S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R. S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R. S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R.S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R.S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
.
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R. S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
1963).
10. Finch, C. et al., Effect of transfused reticulocytes on
iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R.S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R. S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
1963).
10. Finch, C. et al., Effect of transfused reticulocytes on
iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R.S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
1963).
10. Finch, C. et al., Effect of transfused reticulocytes on
iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R.S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
of amplicons in the size range of 250-400 bp (the theoretical fragment sizes are: 287, 324,
342, 364 and 370 bp) See graph below.
Example of the purified library of the 5R-PLEX positive control on a
).
10. Finch, C., et al., Effect of transfused reticulocytes
on iron exchange. Blood, 59(2), 364-369 (1982).
11. Inman, R. S., and Wessling-Resnick, M.,
Characterization of transferrin-independent
of BAP activity.
References
1. Kaboord, B., and Perr, M., Methods Mol. Biol.,
424, 349-364 (2008).
2. Ausubel, F.M. et al. (eds.), Current Protocols in
Molecular Biology. John Wiley & Sons
Muhammad Munir Chaudry, Ph.D.
President
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Interactions between Mouse Immunoglobulins and
Staphylococcal Protein A. Scad J Immunol. 9 (1979) 359-364.
Fahrner, R. Whitney, D.H., Vanderlaan, M., Blank, G.S., (1999) Performance Comparison of Protein