50 RTTP14250
2 μm White Plain 25 mm 100 TTTP02500
47 mm 100 TTTP04700
3 μm White Plain 13 mm 100 TSTP01300
25 mm 100 TSTP02500
47 mm 100 TSTP04700
142 mm 50 TSTP14250
passes
Melting range 〈741〉 between 140° and 145° 142-143 °C
Specific rotation, 50 mg per mL, in
water 〈781S〉
between -42° and -47° -46.1°
Loss on Drying 〈731〉 not more than 1.0%
conforms
Melting range between 140 °C and 145 °C 142–144 °C
Specific rotation, 50 mg per mL, in
water between –42° and –47° –45°
Loss on Drying not more than 1.0% passes
Residue
Assay for Cell Proliferation and Viability Utilizing the Tetrazolium Salt XTT. J. Immunol.
Methods, 142: 257-265.
10. Martin, A. and Clynes, M. (1991). Acid Phosphatase: Endpoint for In Vitro Toxicology
Assay for Cell Proliferation and Viability Utilizing the Tetrazolium Salt XTT. J. Immunol.
Methods, 142: 257-265.
10. Martin, A. and Clynes, M. (1991). Acid Phosphatase: Endpoint for In Vitro Toxicology
Assay for Cell Proliferation and Viability Utilizing the Tetrazolium Salt XTT. J. Immunol.
Methods, 142: 257-265.
10. Martin, A. and Clynes, M. (1991). Acid Phosphatase: Endpoint for In Vitro Toxicology
Assay for Cell Proliferation and Viability Utilizing the Tetrazolium Salt XTT. J. Immunol.
Methods, 142: 257-265.
10. Martin, A. and Clynes, M. (1991). Acid Phosphatase: Endpoint for In Vitro Toxicology
Assay for Cell Proliferation and Viability Utilizing the Tetrazolium Salt XTT. J. Immunol.
Methods, 142: 257-265.
10. Martin, A. and Clynes, M. (1991). Acid Phosphatase: Endpoint for In Vitro Toxicology
Assay for Cell Proliferation and Viability Utilizing the Tetrazolium Salt XTT. J. Immunol.
Methods, 142: 257-265.
10. Martin, A. and Clynes, M. (1991). Acid Phosphatase: Endpoint for In Vitro Toxicology
Assay for Cell Proliferation and Viability Utilizing the Tetrazolium Salt XTT. J. Immunol.
Methods, 142: 257-265.
10. Martin, A. and Clynes, M. (1991). Acid Phosphatase: Endpoint for In Vitro Toxicology