an inflammatory stimulus. IL-8 (6-77) has a 5-
10-fold higher activity on neutrophil activation. IL-8 (5-77)
has increased activity on neutrophil activation and IL-8 (7-
77) has a higher affinity to receptors
thrombin activity generated in plasma
on extrinsic and intrinsic activation. Thromb. and
Haemost., 77, 498-503 (1997).
2. Prasa, D. et al., Inhibition of Thrombin Generation
in Plasma by Inhibitors
al., PNAS.USA (1977) 74:4059-4063.
Uhl, GR, et al., Brain Res (1979) 167:77-91.
Woodhams, PL, et al., Neuroscience (1983) 8:677-703.
Milner, TA, Pickel VM, J Comp Neurol (1986) 247:326-343.
Mai, JK
National University,
Ph.D. dissertation, p. 128 (2016).
13. Parikh, I. et al., Methods Enzymol., 34, 77-102
(1974).
14. Wilchek, M. et al., Methods Enzymol., 104, 3-55
(1984).
15. Arndt-Jovin
but not by glycosylation inhibitor,
tunicamycin, in human prostate cancer cells. J. Cell
Biochem., 77, 396-408 (2000).
10. Aagaard-Tillery, K.M., and Jelinek, D.F., Differential
activation of a calcium-dependent
glycosylation inhibitor,
tunicamycin, in human prostate cancer cells. J. Cell
Biochem., 77, 396-408 (2000).
8. Aagaard-Tillery, K.M., and Jelinek, D.F., Differential
activation of a calcium-dependent
(Bnip3L, Bnip3α) is produced in rabbit using as
immunogen a peptide corresponding to amino acids
77-92 of an internal domain of human Nix.1 This peptide
is identical in mouse.
Anti-Nix specifically
working dilutions by titration.
References
1. Lee, T.I., and Young, R.A., Ann. Rev. Genet.,
34, 77-137 (2000).
2. Jepsen, K., and Rosenfeld, M.G., J. Cell Sci.,
115, 689-698 (2002).
3. Bird, A.P
working dilutions by titration.
References
1. Lee, T.I., and Young, R.A., Ann. Rev. Genet.,
34, 77-137 (2000).
2. Jepsen, K., and Rosenfeld, M.G., J. Cell Sci.,
115, 689-698 (2002).
3. Bird, A.P
residue precursor protein with a
21 amino acid residue signal peptide that is cleaved to
form the 77 amino acid residue secreted mature
protein. Mature mouse CRG-2 shares ∼67% amino acid
sequence identity
working dilutions by titration.
References
1. Lee, T.I., and Young, R.A., Ann. Rev. Genet.,
34, 77-137 (2000).
2. Jepsen, K., and Rosenfeld, M.G., J. Cell Sci.,
115, 689-698 (2002).
3. Bird, A.P
working dilutions by titration.
References
1. Lee, T.I., and Young, R.A., Ann. Rev. Genet.,
34, 77-137 (2000).
2. Jepsen, K., and Rosenfeld, M.G., J. Cell Sci.,
115, 689-698 (2002).
3. Bird, A.P
sequence involved in association of
subunits of yeast hexokinases. Arch. Biochem.
Biophys., 158, 471-77 (1973).
4. Machado de Domenech, E.E., and Sols, A.,
Specificity of hexokinases towards some
uncommon
www.sigmaaldrich.com
3. Additional Information on this Product
y Version: 09 Deoxynucleoside Triphosphate Set PCR Grade
8 sigma-aldrich.com
3. Additional Information on this Product
3.1. Quality
controls in
LC-MS applications.
Apolipoprotein A-II (ApoA-II) occurs in plasma as a
dimer of two 77-amino acid chains linked by a disulfide
bridge.
1
After ApoA-I, it is the second major protein
creatine. Brain Res., 483(1), 68-77 (1989).
4. Fitch, C. D., et al., Creatine metabolism in skeletal
muscle. 3. Specificity of the creatine entry
process. J. Biol. Chem., 243(8), 2024-2027
(1968).