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# Aladdin ID Assay Type Description Organism Compounds Reference BAO Format Source 1. ALA1925254 A Half life in Kunming mouse plasma at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose Mus musculus 6 ALA1921703 organism-based format Scientific Literature 2. ALA1925313 A AUC (0 to t) in Kunming mouse plasma at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose Mus musculus 6 ALA1921703 organism-based format Scientific Literature 3. ALA1925314 A Mean residence time in Kunming mouse plasma at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose Mus musculus 6 ALA1921703 organism-based format Scientific Literature 4. ALA1925339 A Drug uptake in Kunming mouse kidney assessed as naproxen level at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose measured by HPLC analysis Mus musculus 5 ALA1921703 organism-based format Scientific Literature 5. ALA1925340 A Drug uptake in Kunming mouse heart assessed as naproxen level at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose measured by HPLC analysis Mus musculus 5 ALA1921703 organism-based format Scientific Literature 6. ALA1925341 A Drug uptake in Kunming mouse muscle assessed as naproxen level at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose measured by HPLC analysis Mus musculus 5 ALA1921703 organism-based format Scientific Literature 7. ALA1925342 A Tmax in Kunming mouse brain at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose Mus musculus 5 ALA1921703 organism-based format Scientific Literature 8. ALA1925343 A Drug uptake in Kunming mouse liver assessed as naproxen level at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose measured by HPLC analysis Mus musculus 5 ALA1921703 organism-based format Scientific Literature 9. ALA1925344 A Cmax in Kunming mouse brain at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose Mus musculus 5 ALA1921703 organism-based format Scientific Literature 10. ALA1925345 A AUC (0 to t) in Kunming mouse brain at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose Mus musculus 5 ALA1921703 organism-based format Scientific Literature 11. ALA1925346 A Mean residence time in Kunming mouse brain at dose equivalent to 10 mg/kg, iv of naproxen administered as single dose Mus musculus 5 ALA1921703 organism-based format Scientific Literature 12. ALA1925347 A Prodrug conversion in Kunming mouse plasma assessed as compound hydrolysis to naproxen at dose equivalent to 10 mg/kg, iv of naproxen measured by HPLC analysis Mus musculus 5 ALA1921703 organism-based format Scientific Literature 13. ALA1925349 A Prodrug conversion in mouse brain homogenate assessed as naproxen release at 250 uM/mL by HPLC analysis Mus musculus 5 ALA1921703 tissue-based format Scientific Literature 14. ALA1925350 A Metabolic stability in mouse plasma assessed as half life at 250 umol/mL by HPLC analysis Mus musculus 5 ALA1921703 cell-free format Scientific Literature 15. ALA1925351 A Metabolic stability in mouse brain homogenate assessed as half life at 250 umol/mL by HPLC analysis Mus musculus 5 ALA1921703 tissue-based format Scientific Literature 16. ALA1925352 A Metabolic stability in mouse brain homogenate assessed as first order rate constant of compound disappearance at 250 umol/mL by HPLC analysis Mus musculus 5 ALA1921703 tissue-based format Scientific Literature 17. ALA1925353 A Metabolic stability in mouse plasma assessed as first order rate constant of compound disappearance at 250 umol/mL by HPLC analysis Mus musculus 5 ALA1921703 cell-free format Scientific Literature 18. ALA1925354 P Chemical stability of the compound in phosphate buffer at pH 7.4 assessed as half life at 250 umol/mL by HPLC analysis 5 ALA1921703 small-molecule physicochemical format Scientific Literature 19. ALA1925355 P Chemical stability of the compound in phosphate buffer at pH 8.0 assessed as half life at 250 umol/mL by HPLC analysis 5 ALA1921703 small-molecule physicochemical format Scientific Literature 20. ALA1925356 P Chemical stability of the compound in phosphate buffer at pH 5 assessed as half life at 250 umol/mL by HPLC analysis 5 ALA1921703 small-molecule physicochemical format Scientific Literature