Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
ELK1
43
72
95
130
170
56
26
34
References
1. Chen, A.G. et al., Overexpression of Ets-like
protein 1 in human esophageal
and multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
p 19INK4D43
72
95
130
170
56
34
References
1. Guan, K.L. et al., Isolation and characterization
multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
p 18INK4C43
72
95
130
170
56
34
26
References
1. Ravichandran, N. et al., Structure-based
multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
IκBα
34
43
72
95
130
170
56
26
References
1. Auphan, N. et al., Immunosuppression by
multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
TGFBR1
34
43
72
95
130
170
56
26
References
1. Mátyás, G. et al., Identification and
multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
P27KIP1
34
43
72
95
130
170
56
26
References
1. Hoyt, M.A. et al., Two Saccharomyces
multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
BCR
34
43
72
95
130
170
56
References
1. Stam, K. et al., Evidence that the phl gene
multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
HSF1
56
72
130
170
95
43
26
34
References
1. Pirkkala, L. et al., Roles of the heat
multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
CaMKPa se
26
43
72
95
130
170
56
34
References
1. Isamu, K. et al., Phosphorylation and
multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
MO25α
26
43
72
95
130
170
56
34
17
References
1. Boudeau, J. et al., Analysis of the
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
26
34
72
95
56
MBP
17
43
Figure 2.
Comparision of ERK1 Activity with Two Sources of
MBP
References
1. Sheng, H.
References
1. Kao PHN. and Kline KA., J Mol Bio., 431,
2932-45 (2019).
2. Ai Zu Tan C., et al., Curr Opin Microbiol., 53,
9-18 (2020).
3. Heikkila MP., et al., J Appl Microbiol.
before staining:
1. Pre-heat sections at 56 °C for 1 hour
2. Immerse in xylene bath for 5 minutes at room
temperature (RT). Repeat with fresh xylene.
3. Rehydrate in 95% ethanol for 2
.1 mM EDTA,
0.25 mM DTT, 0.1 mM PMSF, and 25% glycerol.
Molecular mass: ∼56 kDa
Purity: 70–95% (SDS-PAGE, see Figure 1)
Precautions and Disclaimer
This product is for R&D use only, not for drug
.1 mM EDTA, 0.25 mM DTT,
0.1 mM PMSF, and 25% glycerol.
Molecular mass: ∼56 kDa
Purity: 70–95% (SDS-PAGE, see Figure 1)
Precautions and Disclaimer
This product is for R&D use only, not for drug
Avoid repeated handling
and multiple freeze/thaw cycles.
Figure 1.
SDS-PAGE Gel of Typical Lot
70–95% (densitometry)
References
1. Chau, M.F. et al., The microtubule-associated
protein tau cross-links