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Upstream product

• 2251-50-5 pentafluorobenzoylchloride 
• 616-34-2 methoxycarbonylmethylamine 
• 5680-79-5 glycine ethyl ester hydrochloride 

Relevant academic research and scientific papers

STRUCTURE OF ENZYME-BOUND SUBSTRATES: RESONANCE RAMAN AND KINETIC EVIDENCE FOR DIFFERENTIAL ENZYME-SUBSTRATE CONTACTS IN N-(PENTAFLUOROBENZOYL)GLYCINE DITHIOACYL AND THIOACYL PAPAIN

Resonance Raman (RR) spectroscopy is used to probe the structure of the substrate in the substrate-enzyme complex N-(pentafluorobenzoyl)glycine (dithioacyl) papain (C6F5C(=O)NHCH2C(=S)S-papain.This system was chosen since the high electron withdrawing capacity of the C6F5 group markedly affects electron density of the -NH- moiety which, in turn, is known to change catalytic activity.The RR spectrum of the enzyme-substrate complex is interpreted by reference to the model compound N-(pentafluorobenzoyl)glycine ethyl dithioester (C6F5(C=O))NHCH2C(=S)S-C2H5.The RR spectra of this compound in aqueous or organic solvents can be understood in terms of the known conformational states of N-acylglycine dihtioesters.Comparison of model with enzyme-substrate RR spectra shows that the substrate is binding in the active site in a conformer known as conformer B characterized by a small-NHCH2-CS(thiol) torsional angle and close N-to-S (thiol) contact.Kinetic rate-structure correlations are developed involving k3, the rate constant for deacylation, and the strength of the N-to-S (thiol) interaction.N-(Pentafluorobenzyl)glycine dithioacyl papain fits the rate-structure correlation whereas the corresponding pentafluorobenzoyl glycine thiol intermediate does not.It is proposed that the difference in the size of the C=S compared to the C=O group brings about a small change in the dithioacyl papin compared to the thioacyl papain conformation such that enzyme-substrate contacts involving ortho and meta F atoms in the thiol acyl enzyme case are weakened or removed in the case of the dithioacyl papain.

ATTOGRAM-LEVEL DETECTION AND RELATIVE RESPONSE OF STRONG ELECTROPHORES BY GAS CHROMATOGRAPHY WITH ELECTRON CAPTURE DETECTION.

The responses as peak areas of some divergent compounds, most of which are strong electron absorbers, are measured by gas chromatography with electron capture detection (GC-ECD). The most sensitive compounds are derivatized lodothyronines, which are essentially 20-fold more sensitive than lindane. N,N-Dipentafluorobenzoylpentafluoroaniline, a somewhat less sensitive but more volatile substance, was selected for determination of a detection limit. The value was 90 ag(1. 6 multiplied by 10** minus **1**9 mol), largely due to an anomalous increase in its response at the trace level. This increases the reported sensitivity of GC-ECD by 100-fold.