oligo-nucleotides with Atto 637 NHS ester
Prepare a solution of 0.1 mM solution (e.g. 5 nmol in 50 µl) of amino-modified oligo-nucleotide in carbonate buffer (0.2
M, pH 7.5). Prepare a solution of 5 mg/ml activated
4. Matsuda, M., Kurata, T., Cell Signal., 5, 335 (1996).
5. ten Hoeve, J., et al., Oncogene, 8, 2469 (1993).
6. Sattler, M., and Salgia, R., Leukemia, 12 637
(1998).
7. Sattler, M., et al., J. Biol
mitogenic
c Mitogenic for neuraminidase-treated lymphocytes
References
1. Eur. J. Biochem., 196, 631-637 (1991).
2. Goldstein, I. J., and Poretz, R. D., The Lectins, pp
163-167 (1986,).
3. Rueben, L
properties of amino acid
transport system b0,+. Comp. Biochem. Physiol. A
Mol. Integr. Physiol., 132(3), 637-644 (2002).
8. Permentier, H. P., et al., Electrochemical oxidation
and cleavage of peptides analyzed
mitogenic
c Mitogenic for neuraminidase-treated lymphocytes
References
1. Eur. J. Biochem., 196, 631-637 (1991).
2. Goldstein, I. J., and Poretz, R. D., The Lectins, pp
163-167 (1986,).
3. Rueben, L
bottle (60 mL) to 540 mL of
deionized water H2O – total 600 mL of Working
Wash Buffer, or if you do not use the entire bottle,
prepare 1:10 dilutions as needed.
3. Stir the solution for 5
caspase activation independently of the
cytochrome c/Apaf-1/caspase-9 apoptosome.
Nature, 419, 634-637 (2002).
AH,PHC 01/06-1
Sigma brand products are sold through Sigma-Aldrich
receptors and their crosstalk with other innate receptors in infection and immunity. Immunity 34, 637-650.
5. Henderson, B. and Wilson, M. 1996. Cytokine induction by bacteria: beyond lipopolysaccharide.
2006 637-646.
2. Roelandt P et al. Differentiation of rat multipotent adult progenitor cells to
functional hepatocyte-like cells by mimicking embryonic liver development.
Nat Protoc. 2010 Jul;5(7):1324
receptors and their crosstalk with other
innate receptors in infection and immunity. Immunity 34, 637-650.
7. Henderson, B. and Wilson, M. 1996. Cytokine induction by bacteria:
beyond lipopolysaccharide
NH3-F,G,H 1997 [3]
F. 640
G. 630-660
H. 630
USGS I-4523-85 [7] 630
Patton [6] 635-637
Krom [5] 630
EPA 350.1 [8]
660*
* Note: Method calls for phenol in
ACTA1 P NP_001091.1 n/d n/d n/d
5 Actin, αβ-Smooth Muscle A5228 59 ACTA2 M NP_001135417.1, NP_001604.1, y y y
6 β-Actin A1978 60 ACTB M NP_001092.1 y y y
7 β-Actin A2228 60 ACTB M NP_001092.1 y y y
8 a-Actinin
ACTA1 P NP_001091.1 n/d n/d n/d
5 Actin, αβ-Smooth Muscle A5228 59 ACTA2 M NP_001135417.1, NP_001604.1, y y y
6 β-Actin A1978 60 ACTB M NP_001092.1 y y y
7 β-Actin A2228 60 ACTB M NP_001092.1 y y y
8 a-Actinin
ACTA1 P NP_001091.1 n/d n/d n/d
5 Actin, αβ-Smooth Muscle A5228 59 ACTA2 M NP_001135417.1, NP_001604.1, y y y
6 β-Actin A1978 60 ACTB M NP_001092.1 y y y
7 β-Actin A2228 60 ACTB M NP_001092.1 y y y
8 a-Actinin
on immobilized Cibacron Blue F3-GA. Mechanism of the mo-
lecular interaction. Biochem. J. 1982, 203:637-641.
116. Kubo K, Honda M, Imoto M, Morishima Y: Capillary zone elec-
trophoresis of albumin-depleted
_033736.1 P y y y
4 Actin A3853 M y y y
5 Actin, α-Smooth Muscle A5228 59, 81633, 11475 ACTA2,Acta2 NP_001604.1,NP_112266.1,NP_031418.1 M y y y
6 β-Actin A1978 60, 81822, 11461 ACTB,Actb NP_001092.1,NP_
-xL B9429 598, 24888, 12048 Bcl2l1,BCL2L1 NP_612815.1,NP_113723.2,NP_033873.3 M y y y
69 BID B4305 637 BID NP_932071.1 P y n/d n/d
70 BID B3183 12122 Bid NP_031570.2 P n/d y n/d
71 Bim B7929 10018, 12125