The apparent Km is a misleading kinetic indicator.

When information concerning whether or not a ligand interacts with the same enzyme species as do the substrates, the variation of the Michaelis constant Km (for each substrate) with ligand concentration is sometimes used as a diagnostic. It is shown that the Michaelis constant is of no particular value in this respect and may be misleading. Thus, depending on the mechanism, Km may vary with ligand concentration even though the ligand interacts with species far removed in the mechanism from the substrate-binding steps, and it may stay constant in cases where the ligand competes directly for the free enzyme. In contrast, the slope of a double-reciprocal plot of the kinetic data (= Km/Vmax.) (or, equivalently, the ordinate intercept of a Hanes plot A/v versus A, where A is the substrate concentration) independently of the particular mechanism involved uniquely signifies whether or not such interaction occurs. The results clearly indicate that, for purposes other than communicating the substrate concentration yielding control of the enzymic activity, usage of Km and its variation with ligand concentration should be avoided and interest instead focused on the slope, in accordance with the long-established rules of Cleland [Biochim. Biophys. Acta (1963) 67, 188-196], for which the present analysis provides the formal framework.     

Ascoma morphology is homoplaseous and phylogenetically misleading in some pyrenocarpous lichens

The phylogenetic relationships of many lichen-forming perithecioid ascomycetes are unknown. We generated nuLSU and mtSSU rDNA sequences of members of seven families of pyrenocarpous lichens and used a Bayesian framework to infer a phylogenetic estimate. Members of the perithecioid Protothelenellaceae, Thelenellaceae and Thrombiaceae surprisingly cluster within the mainly discocarpous Lecanoromycetes, while Strigulaceae, Verrucariaceae and Pyrenulaceae are related to the ascolocular Chaetothyriomycetes. Micromorphological studies of the ascomata showed that the two main groups of pyrenocarpous lichen-forming fungi differ in their ascus types. The Strigulaceae, Verrucariaceae and Pyrenulaceae have apically and laterally thick-walled asci, whereas the Thelenellaceae, Protothelenellaceae and Thrombiaceae have only apically thickened asci. The latter two show ring-shaped amyloid apical structures. Based on morphological and molecular evidence we propose to reduce Thrombiaceae to synonymy with Protothelenellaceae.     

Antidepressant drugs: imipramine, mianserin and trazodone

The advent of newer antidepressant drugs (second generation) during the past two decades has provided an alternative to the use of tricyclic antidepressants in the alleviation of depression. These antidepressants have not been proven to be superior in the therapy of depression to the tricyclic antidepressants but they have been reported to cause fewer cardiac effects. Most of the reported adverse cardiac reactions elicited by antidepressant drugs are based on observations from clinical studies. The possible underlying mechanisms by which these adverse reactions arise have for the large part been proposed on the basis of clinical findings which have been extrapolated back to the known pharmacological actions of such drugs. There is a paucity of hard experimental data in this respect.     

Ethanenitronate is a peroxide-dependent suicide substrate for catalase

We find ethanenitronate (formula; see text) to be a H2O2- (and peracetic acid-) dependent suicide substrate for bovine liver catalase (E) which converts E to Em, a modified form of the enzyme. The catalytic and suicide pathways are related to E, Em, Compound I, and Compound II according to the following scheme. (formula; see text) The catalytic cycle generates free radical products (EN.) which then participate in an O2-dependent chain reaction. Within experimental error the exclusive target for inactivation by EN- is Compound II. This partitions in the ratio (k4 = 1.2 M-1 s-1)/(k3 = 1.6 M-1 s-1) to generate Em and E, respectively. The species Em acquires 1 eq of 14C/ferriheme from [1-14C]ethanenitronate which is firmly (presumably covalently) affixed to the protein moiety. According to the standard H2O2 assay, Em is 7% as active catalytically as E. We regard inactivation as resulting from that fraction of EN. in the E...EN. complex which fails to diffuse from the complex because it is trapped by reaction with a neighboring amino acid residue to generate Em irreversibly. (formula; see text) This mechanism is identical to that deduced previously for suicide inactivation of horseradish peroxidase by alkane nitronates (Porter, D. J. T., and Bright, H. J. (1983) J. Biol. Chem. 258, 9913-9924) with the exception that EN. is trapped in that case by a methine carbon at the edge of the ferriheme rather than by the apoenzyme. The labeled residue in the catalase apoenzyme probably resides at or near the site of reduction of Compound II.