A Simple Device for Staining Many Single-Hole Grids Without Individual Manipulation

In serial sectioning for electron microscopy one of the greatest problems encountered is that the Formvar support film may break when grids are being mounted in or removed from a holder used for staining, or during staining. The latter is particularly troublesome when grids are stained individually. We describe here a device that conveniently eliminates this problem.     

Selective thiol inhibition of ferricyanide reduction in photosystem II of spinach chloroplasts

Selective inhibition of ferricyanide reduction in photosystem II by lipophilic thiols indicates a unique pathway of electron transport, which is not involved in reduction of class III acceptors or transfer of electrons to photosystem I. Both aromatic and aliphatic thiols induce the inhibition, but thiol binding reagents such as p-hydroxymercuribenzoate or N-ethylmaleimide do not inhibit. The inhibition can be observed using either dibromothymoquinone or bathophenanthroline to direct electrons away from photosystem I. No pretreatment of chloroplasts with thiols in the light was necessary to inhibit ferricyanide reduction by photosystem II or the O₂ evolution associated with ferricyanide reduction.     

Evidence for multiple sites of ferricyanide reduction in chloroplasts

Various sites of ferricyanide reduction were studied in spinach chloroplasts. It was found that in the presence of dibromothymoquinone a fraction of ferricyanide reduction was dibromothymoquinone sensitive, implying that ferricyanide can be reduced by photosystem I as well as photosystem II. To separate ferricyanide reduction sites in photosystem II, orthophenanthroline and dichlorophenyl dimethylurea inhibitions were compared at various pH's. It was noted that at low pH ferricyanide reduction was not completely inhibited by orthophenanthroline. At high pH's, however, inhibition of ferricyanide reduction by orthophenanthroline was complete. It was found that varying concentration of orthophenanthroline at a constant pH showed different degrees of inhibition. In the study of ferricyanide reduction by photosystem II various treatments affecting plastocyanin were performed. It was found that Tween-20 or KCN treatments which inactivated plastocyanin did not completely inactivate ferricyanide reduction. These data support the conclusion that ferricyanide accepts electrons both before and after plastoquinone in photosystem II.Abbreviations DCMU 3-(3,4-dichlorophenyl)-1,1-dimethyurea - MV methyl viologen - DBMIB 2,5-dibromothymoquinone - DMBQ 2,6-dimethyl benzoquinone - OP 1,10-orthophenanthroline - TMPD tetramethyl-p-phenylenediamine - PS 1 photosystem I - PS II photosystem II - SN sucrose-sodium chloride chloroplasts Supported by NSF Grant BMS 74-19689.     

Terminal deoxynucleotidyl transferase in AKR leukemic cells and lack of relation of enzyme activity to cell cycle phase.

Cholate and taurocholate uptakes were studied in presence of albumin using isolated rat hepatocytes. Albumin decreased nonspecific binding of both bile acids and inhibited cholate uptake noncompetitively and taurocholate uptake competitively. Although different bile acids except dehydrocholate inhibited both cholate and taurocholate uptake, their relative inhibitory potency was not the same for both bile acids. Uptake of both bile acids was characterized by a saturable as well as an unsaturable process both in presence and in absence of albumin. The results suggest that both bile acids may be transported by more than one carrier and taurocholate is transported more efficiently than cholate by hepatocytes.