.5 µg/ml using human Jurkat cell
extract. A band of 59 kDa band was detected.
Since DR3 is a glycosylated protein, bands in the range
of 53-59 kDa may be detected in different cell lines due
to differences
and Hensel M., Microbes Infect.,
3: 549–59 (2001).
8. Broz P., et al., Gut Microbes, 3: 62–70 (2012).
9. Haraga A., et al., Nat Rev Microbiol., 6:
53–66 (2008).
10. Lopez FE., et
using total cell lysates from
Jurkat cells. A band of 59 kDa band was detected.
Since DR3 is a glycosylated protein, bands in the range
of 53-59 kDa may be detected in different cell lines due
to
compares most closely to human
MMP-27, with 59% sequence identity. Chicken MMP-22
encodes a 472 amino acid protein, with a predicted
molecular weight of approximately 53 kDa. The signal
sequence and lack of a
with a
predicted mass of approximately 59 kDa. The tree
shrew (approximately 85% identical to human) contains
512 amino acids with a predicted mass of approx-
imately 59 kDa. In tissues, MMP-27 is mostly found
500MOD1
62
59
60
Applicable for
XV001
or XV002
or XV102
61
Applicable for
XV003
or XV501
or XV502
or XV901
63
65
37
Applicable for
XV004
or XV005
20
38
53
20
37
Determinants for
Heparin Binding in Human Coagulation Factor XI”.
Temple University, Ph.D. dissertation, p. 59
(2008).
10. Dean, Sadie, “3-Nitrotyrosine As An Indicator Of
The Disease State Intermittent
predicted mass of approximately 59 kDa. The tree
shrew (approximately 85% identical to human) contains
512 amino acids with a predicted mass of approx-
imately 59 kDa. In tissues, MMP-27 is mostly
compares most closely to
human MMP-27, with 59% sequence identity. Chicken
MMP-22 encodes a 472 amino acid protein, with a
predicted molecular weight of approximately 53 kDa.
The signal sequence and lack of a
compares most closely to human
MMP-27, with 59% sequence identity. Chicken MMP-22
encodes a 472 amino acid protein, with a predicted
molecular weight of approximately 53 kDa. The signal
sequence and lack of a
36(1), 59-65 (2000).
8. Chew, B.P., et al. A comparison of the anticancer
activities of dietary beta-carotene, canthaxanthin
and astaxanthin in mice in vivo. Anticancer Res.,
19(3A), 1849-53 (1999).
working concentration by titration
test.
References
1. Schmidt-Spaniol, I., et al., Hybridoma, 11, 53-59
(1992).
2. Nastanczyk, W., et al., Hybridoma and
Hybridomics, 22, 87-90 (2003).
3. Nastanczyk