phenylacetyl‑amide was used as a substrate in the enzymatic assay.
the reaction mixture containing phenylacetyl‑amide showed a characteristic uv absorption at 280 nm.
phenylacetyl‑amide inhibits the activity of the target enzyme in a dose‑dependent manner.
mass spectrometry analysis of phenylacetyl‑amide revealed a molecular ion peak at m/z 238.
researchers synthesized phenylacetyl‑amide derivatives to improve their solubility.
phenylacetyl‑amide serves as a key intermediate in the biosynthesis of alkaloids.
the concentration of phenylacetyl‑amide was quantified using hplc with uv detection.
in the presence of phenylacetyl‑amide, the catalytic efficiency of the enzyme increased.
phenylacetyl‑amide was identified as a potential biomarker for early disease detection.
the structural characterization of phenylacetyl‑amide was confirmed by nmr spectroscopy.
the solubility of phenylacetyl‑amide in water is limited, requiring organic co‑solvents.
derivatives of phenylacetyl‑amide exhibited enhanced antimicrobial activity against gram‑positive bacteria.
phenylacetyl‑amide was used as a substrate in the enzymatic assay.
the reaction mixture containing phenylacetyl‑amide showed a characteristic uv absorption at 280 nm.
phenylacetyl‑amide inhibits the activity of the target enzyme in a dose‑dependent manner.
mass spectrometry analysis of phenylacetyl‑amide revealed a molecular ion peak at m/z 238.
researchers synthesized phenylacetyl‑amide derivatives to improve their solubility.
phenylacetyl‑amide serves as a key intermediate in the biosynthesis of alkaloids.
the concentration of phenylacetyl‑amide was quantified using hplc with uv detection.
in the presence of phenylacetyl‑amide, the catalytic efficiency of the enzyme increased.
phenylacetyl‑amide was identified as a potential biomarker for early disease detection.
the structural characterization of phenylacetyl‑amide was confirmed by nmr spectroscopy.
the solubility of phenylacetyl‑amide in water is limited, requiring organic co‑solvents.
derivatives of phenylacetyl‑amide exhibited enhanced antimicrobial activity against gram‑positive bacteria.
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