role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D. M., and Murphy, R. F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D. M., and Murphy, R. F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D. M., and Murphy, R. F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D. M., and Murphy, R. F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D. M., and Murphy, R. F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D. M., and Murphy, R. F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D.M., and Murphy, R.F., Binding to cellular
receptors results in increased iron
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D.M., and Murphy, R.F., Binding to cellular
receptors results in increased iron
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D.M., and Murphy, R.F., Binding to cellular
receptors results in increased iron
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D.M., and Murphy, R.F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D.M., and Murphy, R.F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D. M., and Murphy, R. F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D. M., and Murphy, R. F., Binding to cellular
receptors results in increased
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D.M., and Murphy, R.F., Binding to cellular
receptors results in increased iron
role for the transferrin
receptor in the release of iron from transferrin.
Biochemistry, 30(2), 324-328 (1991).
27. Sipe, D. M., and Murphy, R. F., Binding to cellular
receptors results in increased
Cancer Research, 74, 964 – 973.
3. Mendoza, M., Er, E., & Blenis, J. (2011). The Ras-ERK and PI3K-
mTOR Pathways: Cross-talk and Compensation. Trends Biochem Sci.,
36(6), 320 – 328.
4. Cheung
which cleaves only the dephosphorylated
substrate at Tyr-Ala bond. Purity: ≥98% by HPLC. Exc. max.: ~328 nm; Em. max.: ~395 nm.
Cat. No. 539740 500 µg
Ref.: Nishikata, M., et al. 1999. Biochem. J. 343
Purity: ≥97% by
elemental analysis. M.W. 333.3
Cat. No. 516566 50 mg € 74
Ref.: Ye, F ., et al . 2006 . Chembiochem 7, 74 .
N N
N
O
OCH3
OCH3
CH3
Detection
development and validation for suc-
cessful biomarker measurement. Pharmaceutical Research, 23, 312–328.
Nechansky, A., Grunt, S., Roitt, I. M., & Kircheis, R. (2008). Comparison of the calibration
standards
NP_001151.1 y y n/d
457 Mint2 M3319 321 APBA2 P NP_001123886.1 n/d n/d y
28 AP Endonuclease A2105 328 APEX1 M NP_001632.2,NP_542379.1,NP_542380.1 y y y
692 Survivin S8191 332 BIRC5 P NP_001012270.1 y y
NP_001151.1 y y n/d
457 Mint2 M3319 321 APBA2 P NP_001123886.1 n/d n/d y
28 AP Endonuclease A2105 328 APEX1 M NP_001632.2,NP_542379.1,NP_542380.1 y y y
692 Survivin S8191 332 BIRC5 P NP_001012270.1 y y
NP_001151.1 y y n/d
457 Mint2 M3319 321 APBA2 P NP_001123886.1 n/d n/d y
28 AP Endonuclease A2105 328 APEX1 M NP_001632.2,NP_542379.1,NP_542380.1 y y y
692 Survivin S8191 332 BIRC5 P NP_001012270.1 y y
O
OH
O
H
H
Cat. No. 681535 1 mg € 88
5 mg € 300
Ref.: Mohan, R., et al. 2004. Angiogenesis 7, 115; Jeyaprakasam, B., et al. 2003. Life
Sci. 74, 125; Devi, P.U., et al. 1995.
in Pharma-
ceutical Samples by Multiplex PCR. J. Rapid
Methods Automation Microbiol. 2009, 17 (3),
328 –338.
33. Klingspor, L.; Jalal, S. Molecular Detection
and Identification of Candida and Aspergillus