Improved basal medium for Y-1 mouse adrenal cortex tumor cells in culture

Summary An improved basal medium is presented that requires only minimal supplementation with dialyzed fetal bovine serum or bovine serum albumin and fetuin to be comparable to Ham's F-10, which requires 15% horse serum (HS) and 2.5% fetal bovine serum (FBS) for the growth and function of Y-1, mouse adrenal cortex tumor, cells. Cell monolayers maintained for up to 2 weeks without any protein supplementation have retained their steroid response to ACTH. The medium differs from Ham's F-10 in its buffer composition and higher calcium-ion concentration. This medium should be a useful adjunct to studies pertaining to steroid and lipid intermediary metabolism, the retention of a specialized physiological function in a chemically defined medium, and the mechanism of hormonal response. Supported by the Medical Research Service of the Veterans Administration.     

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.     

Phosphorylation and DNA binding of nuclear rat liver proteins soluble at low ionic strength.

Proteins were extracted from isolated rat liver nuclei with 0.15 M NaCl and 0.35 M NaCl at pH 8.0. The number of phosphoproteins in these extracts was determined by labeling with 32P and autoradiography after two-dimensional gel electrophoresis. Two proteins, B22p and B24p, contained small amounts of 32P and sedimented with the 30S nuclear informofer particle. With the exception of two phosphoproteins, CB and CN', all of the phosphoproteins found in the 0.35 M NaCl extract. Approximately 20% of the 0.15 M NaCl soluble proteins bound to rat liver DNA in 0.05 M KCl-0.05 M Tris-HCl (pH 8). Of these proteins, 1-2% bound to DNA in 0.15 M KCl and were eluted with 2 M KCl. This DNA bound fraction which contained both phosphorylated and nonphosphorylated proteins was similar in both the 0.15 and 0.35 M NaCl extracts. However, two major proteins (C13 and C14) and three minor proteins (C15, C25, Cg') were present only in the 0.15 M NaCl extract. The results of the present study show that there are marked similarities in the two-dimensional gel electrophoretic, phosphorylation, and DNA binding properties of rat liver nuclear proteins soluble in either 0.15 or 0.35 M NaCl.     

Inhibition of energy-transducing functions of chloroplast membranes by lipophilic iron chelators

Lipophilic metal chelators inhibit various energy-transducing functions of chloroplasts. The following observations were made.1. Photophosphorylation coupled to any known mode of electron transfer, i.e. whole-chain noncyclic, the partial noncyclic Photosystem I or Photosystem II reactions, or cyclic, is inhibited by several lipophilic chelators, but not by hydrophilic chelators.2. The light- and dithioerythritol-dependent Mg²⁺-ATPase was also inhibited by the lipophilic chelators.3. Electron transport through either partial reaction, Photosystem I or Photosystem II was not inhibited by lipophilic chelators. Whole-chain coupled electron transport was inhibited by bathophenanthroline, and the inhibition was not reversed by uncouplers. The diketone chelators diphenyl propanedione and nonanedione inhibited the coupled, whole-chain electron transport and the inhibition was reversed by uncouplers, a pattern typical of energy transfer inhibitors.The electron transport inhibition site is localized in the region of plastoquinone → cytochrome f. This inhibition site is consistent with other recent work (Prince et al. (1975) FEBS Lett. 51, 108 and Malkin and Aparicio (1975) Biochem. Biophys. Res. Commun. 63, 1157) showing that a non-heme iron protein is present in chloroplasts having a redox potential near +290 mV. A likely position for such a component to function in electron transport would be between plastoquinone and cytochrome f, just where our data suggests there to be a functional metalloprotein.4. Some of the lipophilic chelators induce H⁺ leakiness in the chloroplast membrane, making interpretation of their phosphorylation inhibition difficult. However, 1–3 mM nonanedione does not induce significant H⁺ leakiness, while inhibiting ATP formation and the Mg²⁺-ATPase. Nonanedione, at those concentrations, causes a two- to four-fold increase in the extent of H⁺ uptake.5. These results are consistent with, but do not prove, the involvement of a non-heme iron or a metalloprotein in chloroplast energy transduction.     

Studies on the transport of aliphatic glucosides by hamster small intestine in vitro

It has been found (1) that glucosides with a long alkyl chain (2–18 carbon atoms) as the aglycone can be transported by carrier-mediated processes in the hamster small intestine in vitro, (2) that these glucosides interact with the glucose carrier, and (3) that they compete with glucose and analogs for the binding to the carrier. There are Na⁺- and phlorizin-insensitive components of uptake for the long chain alkyl glucosides which suggest additional interactions or uptake processes.