83-88-5
Applied Filters:
Keyword:'83-88-5'
Showing 1-30 of 169 results for "83-88-5" within Technical Documents
The Effective Use of Protein Kinase Inhibitors
105 109 99 44
54 92 4 5 5 29 23 5
113 124 104 105 80 83 62 90 85 97 69 110 40 96 106 98 96 72 71 79 93 106
56 103 13
The Effective Use of Protein Kinase Inhibitors
105 109 99 44
54 92 4 5 5 29 23 5
113 124 104 105 80 83 62 90 85 97 69 110 40 96 106 98 96 72 71 79 93 106
56 103 13
Product Information Sheet - C0150
.0 91
Mercuric Chloride 0.1 87
2,2'-Dipyridyldisulfide 2.0 32
Leupeptin 0.1 88
Antipain 0.1 88
Cathepsin B has been found to cleave procaspase 1
and
Product Information Sheet - R4500
Temperature
Product Description
Molecular Formula: C17H20N4O6
Molecular Weight: 376.4
CAS Number: 83-88-5
Melting Point: Approximately 280 °C
λmax: 268 nm, 373 nm
Extinction coefficient: EmM = 31.62
QC Range Sheet MCKP1-110K
TIM-3 Control 1 43 - 88 pg/mL CD25/IL-2Rα Control1 19 - 40 pg/ml
Control 2 179 - 372 pg/mL Control 2 83 - 172 pg/ml
Product Information Sheet - R9504
Temperature
Product Description
Molecular Formula: C17H20N4O6
Molecular Weight: 376.4
CAS Number: 83-88-5
Melting Point: Approximately 280 °C
λmax: 268 nm, 373 nm
Extinction coefficient: EmM = 31.62
Product Information Sheet - R9881
Temperature
Product Description
Molecular Formula: C17H20N4O6
Molecular Weight: 376.4
CAS Number: 83-88-5
Melting Point: Approximately 280 °C
λmax: 268 nm, 373 nm
Extinction coefficient: EmM = 31.62
Product Information Sheet - R0508
Temperature
Product Description
Molecular Formula: C17H20N4O6
Molecular Weight: 376.4
CAS Number: 83-88-5
Melting Point: Approximately 280 °C
λmax: 268 nm, 373 nm
Extinction coefficient: EmM = 31.62
Data Sheet - F0550
and Rohrschneider, L. R.,
Oncogene Res., 1, 311-324 (1987).
9. Chabot, B., et al., Nature, 335, 88-89 (1988).
10. Geissler, E. N., et al., Cell, 55, 185-192 (1988).
11. Rohrschneider, L. R. in Guidebook
Data Sheet - I7764
253
(1990).
4. Nordan, R. and Potter, M., Science, 233, 566
(1986).
5. Van Snick, J., et al., Proc. Nat. Acad. Sci. USA,
83, 9679 (1986).
Sigma warrants that its products conform to the information
LABORATORY NOTEBOOK ISSUANCE PAGE
.9
82
28
.0
85
30
.9
74
32
.0
6
35
.4
5
39
.9
48
69
.7
23
72
.6
3
74
.9
22
78
.9
6
79
.9
04
83
.7
98
11
4.
82
11
Anti-NeuN, clone A60 - Data Sheet
:441-445.
81) Ma, D.L., et al., J Neuroscience Research (2006) 83:318-331.
82) Sakaguchi, M, et al., PNAS (2006) 103:7112-7117.
83) Koizumi, H., et al., Nature Neuroscience (2006) 9:779-786.
84)
LABORATORY NOTEBOOK ISSUANCE PAGE
.9
82
28
.0
85
30
.9
74
32
.0
6
35
.4
5
39
.9
48
69
.7
23
72
.6
3
74
.9
22
78
.9
6
79
.9
04
83
.7
98
11
4.
82
11
LABORATORY NOTEBOOK ISSUANCE PAGE
.9
82
28
.0
85
30
.9
74
32
.0
6
35
.4
5
39
.9
48
69
.7
23
72
.6
3
74
.9
22
78
.9
6
79
.9
04
83
.7
98
11
4.
82
11
Product Information Sheet - A6338
Temperature -0 °C
Product Description
Enzyme Commission (EC) Number: 1.2.1.5
CAS Number: 9028-88-0
Molecular Weight: 228 kDa1
Extinction Coefficient: E1% = 9.4 (279 nm)1
Synonym: Aldehyde:NAD[P
Data Sheet - T2440
, et al., Immunology, 88, 284 (1996).
5. de Rochemonteix, B.G., et al., Am. J. Respir. Cell
Mol. Biol., 14, 279 (1996).
6. Lewis, M., et al., Proc. Natl. Acad. Sci. USA, 88,
2830
Datasheet - T3526
Mouse Monoclonal
Clone GTU-88, purified from hybridoma cell culture
T3526
Product Description
Anti-γ-Tubulin (mouse IgG1 isotype) is derived from
the GTU-88 hybridoma produced by the fusion
Product Information Sheet - T5326
, Mouse Monoclonal
Clone GTU-88, purified from hybridoma cell culture
T5326
Product Description
Anti-γ-Tubulin (mouse IgG1 isotype) is derived from
the GTU-88 hybridoma produced by the fusion
Data Sheet - H1896
increase sensitivity by 5 to 50 fold.
Endotoxin: 83, 6489 (1986).
2. Strain
Product Information Sheet - HINFIRO
, V. (1990) Gene 92, 1–250.
3 Bassing, C.H. et al. (1992) Gene 113, 83-88;
4 Chandrasegaran, S. et al. (1988) Gene 70, 387-392.
5 Petronzio, T. and Schildkraut, I. (1990) Nucl. Acids Res. 18, 3666.
6
Data Sheet - T2315
., et al., Immunology, 88, 284 (1996).
5. de Rochemonteix, B.G., et al., Am. J. Respir. Cell
Mol. Biol., 14, 279 (1996).
6. Lewis, M., et al., Proc. Natl. Acad. Sci. USA, 88,
2830 (1991).
7.
Product Information Sheet - SAE0152
Biophys. Acta, 83, 245-255
(1964).
3. Holler, E. et al., Biochemistry, 14(11), 2377-2385
(1975).
4. Ragland, S.A., and Criss, A.K., PLOS Pathog.,
13(9), e1006512 (2017).
5. Davies, R.
Data Sheet - SAB4200702
Br J Nutr., 106, 836-44 (2011).
4. Tober R., et al., J Virol., 88, 4897–907 (2014).
5. Dhanapala P., et al., Mol Immunol., 66, 375-83
(2015).
6. Caubet JC. and Wang J., Pediatr Clin North Am.
Data Sheet - I2143
. Rev. Immunol., 8., 253 (1990).
4. Van Snick, J., et al., Proc. Natl. Acad. Sci. USA, 83,
9679 (1986).
5. Nordan, R. P., and Potter, M., Science, 233, 566
(1986).
Data Sheet - H0652
Sci. USA,
83, 6489 (1986).
2. Strain, A., J. Endocrinol., 137, 1 (1993).
3. Stoker, M., et al., Nature, 327, 239 (1987).
4. Rubin, J., et al., Proc. Natl. Acad. Sci. USA, 88, 415
Protocol- PRCYTA-40K|PRCYTA-40K-PX38|PRCYTA-40K-BK38|PRCYTA-40K-PX48|PRCYTA-40K-BK48
in Serum Matrix % Recovery in Serum Matrix
IL-21 82 87
IL-4 83 86
IL-18 88 90
IL-22 87 88
IL-5 88 84
IP-10 87 83
Non-Human Primate Cytokine/Chemokine/Growth Factor Panel A Magnetic Bead Panel
92 93
IL-33 88 94
IL-17E 87 84
IL-21 82 87
IL-4 83 86
IL-18 88 90
IL-22 87 88
IL-5 88 84
IP-10 87 83
MCP-1 85 86
IL-7 86 91
I-TAC 87
Data Sheet - T1815
, et al., Immunology, 88, 284 (1996).
5. de Rochemonteix, B.G., et al., Am. J. Respir. Cell
Mol. Biol., 14, 279 (1996).
6. Lewis, M., et al., Proc. Natl. Acad. Sci. USA, 88,
2830
Data Sheet - SAB4200725
8, 33
(2007).
10. Wang J., et al., Proc Natl Acad Sci U S A, 88,
7391-5 (1991).
11. Wu ZA., et al,. J Cell Biol., 113, 465-83 (1991).
12. Edmond V., et al
Data Sheet - SAB4200296
conjugated to KLH.
The corresponding sequence is highly conserved in
mouse and rat tensin 3 (88% and 83% sequence
identity, respectively). The antibody is affinity-purified
using the immunizing peptide
Page 1 of 6
Page 1 of 6