of a
part of rat chloride channel-3 (CLC-3) as immunogen.
The protein corresponds to amino acids 592-661.1 The
epitope has significant homology with CLC-4 and
CLC-5 proteins in rat. The epitope is well-conserved
mastocytosis and their
potential as therapeutic targets. Immunol. Allergy
Clin. North Am., 26, 575-592 (2006).
2. Berger, S A.: Signaling pathways influencing SLF
and c-KIT-mediated survival and proliferation
mastocytosis and their
potential as therapeutic targets. Immunol. Allergy
Clin. North Am., 26, 575-592 (2006).
2. Berger, S A.: Signaling pathways influencing SLF
and c-KIT-mediated survival and proliferation
mastocytosis and their
potential as therapeutic targets. Immunol. Allergy
Clin. North Am., 26, 575-592 (2006).
2. Berger, S A.: Signaling pathways influencing SLF
and c-KIT-mediated survival and proliferation
mastocytosis and their
potential as therapeutic targets. Immunol. Allergy
Clin. North Am., 26, 575-592 (2006).
2. Berger, S A.: Signaling pathways influencing SLF
and c-KIT-mediated survival and proliferation
mastocytosis and their
potential as therapeutic targets. Immunol. Allergy
Clin. North Am., 26, 575-592 (2006).
2. Berger, S A.: Signaling pathways influencing SLF
and c-KIT-mediated survival and proliferation
and their
potential as therapeutic targets. Immunol. Allergy
Clin. North Am., 26, 575-592 (2006).
2. Berger, S A.: Signaling pathways influencing SLF
and c-KIT-mediated survival and proliferation
mastocytosis and their
potential as therapeutic targets. Immunol. Allergy
Clin. North Am., 26, 575-592 (2006).
2. Berger, S A.: Signaling pathways influencing SLF
and c-KIT-mediated survival and proliferation
of airway inflammation and can be helpful
in guiding asthma management. Eur. Respir. J.,
16, 588-592 (2000).
10. Winking, M. et al., Acta. Neurochir., 139, 764
(1997).
11. Winking, M. et al.
microscope or
multiwell plate fluorometer.2
The unsubstituted red fluorescent MR-Cathepsin B
product has an optimal excitation and emission
wavelength of 592 nm and 628 nm, respectively. At
these
microscope or
multiwell plate fluorometer. 2
The unsubstituted red fluorescent MR-Cathepsin K
product has an optimal excitation and emission
wavelength of 592 nm and 628 nm, respectively. At
these
Escherichia
coli and its application for drinking-water analysis. Applied and
Environmental Microbiology 57, 592–593.
Sakazaki, R. and Balows, A. (1981) The genera Vibrio, Plesiomonas
and Aeromonas. In The Prokaryotes
microscope or multiwell
plate fluorometer. 2
The unsubstituted red fluorescent MR-Cathepsin L
product has an optimal excitation and emission
wavelength of 592 nm and 628 nm, respectively. At
these
Antibody
Anti-PTP-PEST AG25 H M WB IP IC Asc M IgG1 100 µL MAB3739
Protein
PTPMEG-2 KA 10 µg 14-592
LMPTP-B PA 10 µg 14-620
LMPTP-A PA 10 µg 14-619
PTPMEG-1 PA 10 µg
agents
• Preserves precious samples—requires only 2 µL per analysis
• Can detect other biomolecules, such as lipids, for analyzing complex mixtures
55
Advantages
• Independent of amino acid
J2128 3725 JUN P NP_002219.1 y y y
89 phospho-c-Jun (pSer73) J2253 3725 JUN P NP_002219.1 y y n/d
592 Plakoglobin (Catenin g) P8087 3728 JUP M NP_002221.1 ,NP_068831.1 y n/d n/d
387 Importin-a5/7 I9908
J2128 3725 JUN P NP_002219.1 y y y
89 phospho-c-Jun (pSer73) J2253 3725 JUN P NP_002219.1 y y n/d
592 Plakoglobin (Catenin g) P8087 3728 JUP M NP_002221.1 ,NP_068831.1 y n/d n/d
387 Importin-a5/7 I9908
J2128 3725 JUN P NP_002219.1 y y y
89 phospho-c-Jun (pSer73) J2253 3725 JUN P NP_002219.1 y y n/d
592 Plakoglobin (Catenin g) P8087 3728 JUP M NP_002221.1 ,NP_068831.1 y n/d n/d
387 Importin-a5/7 I9908