Molecular cloning and sequence analysis of full-length cDNA for rabbit liver NADPH-cytochrome P-450 reductase mRNA

The nucleotide sequence of the mRNA for NADPH-cytochrome P-450 reductase from rabbit liver was determined from a full-length cDNA clone (pFP105). The clone contains 2,269 nucleotides complementary to rabbit liver reductase mRNA. The single open reading frame of 2,037 nucleotides codes for a 679-amino acid polypeptide with a calculated molecular weight of 76,583 daltons. The cloned cDNA contains the complete 3'-noncoding region of 193 nucleotides, including 68 nucleotides of poly(A), and 39 nucleotides of the 5'-noncoding region. The nucleotide sequence in the coding region of cDNA of rabbit reductase (pFP105) showed 85% homology to that of rat reductase (Porter, T.D. & Kasper, C.B. (1985) Proc. Natl. Acad. Sci. U.S. 82, 973-977, and Murakami, H. et al. (1986) DNA 5, 1-10). Rabbit reductase has one more amino acid residue than the rat enzyme, and the amino acid compositions of the two enzymes are similar. The amino acid sequence of the rabbit enzyme showed 91% identity with that of the rat enzyme. The segment related to binding of FMN and FAD was well conserved among rabbit, rat, and pig reductases. The sequence related to AMP moiety-binding was also conserved among these species, and was found in the amino acid sequence of NADH-cytochrome b5 reductase, another flavoenzyme in the microsomal electron transport system.     

Effect of calmodulin on aldosterone synthesis by a cytochrome P-45011 beta-reconstituted system from bovine adrenocortical mitochondria

Bovine adrenocortical calmodulin was purified and its general properties were examined. The latter were similar to those of bovine brain calmodulin. When added to a cytochrome P-450(11)beta-reconstituted system in the presence of dilauroylphosphatidylcholine, calmodulin decreased the rate of aldosterone production from corticosterone from 0.8 to 0.1 nmol/(min X nmol P-450), while it increased the rate of 18-hydroxycorticosterone production from 1.8 to 4.6 nmol/(min X nmol P-450). This effect of calmodulin on steroid production was maximum at a concentration of 1 microM, when 1 microM cytochrome P-450(11)beta was used. The effect was dependent on the presence of Ca2+, and maximal response was observed at less than 1 microM Ca2+. There was essentially no difference in the effect when bovine brain calmodulin was used. Calmodulin induced a change in the activity of cytochrome P-450(11)beta in the presence of a wide concentration range of corticosterone as a substrate. As for 18-hydroxycorticosterone production, calmodulin increased both the maximal activity and the apparent Km for corticosterone, but it decreased the apparent Km for adrenodoxin. Adrenodoxin at a concentration of less than 20 microM did not fully abolish the effect of calmodulin. A small type I difference spectrum appeared when calmodulin was added to cytochrome P-450(11)beta. The difference spectrum increased significantly in the presence of both Ca2+ and adrenodoxin. These results suggest that calmodulin interacts with cytochrome P-450(11)beta in the presence of adrenodoxin and then modulates the activity of aldosterone synthesis catalyzed by cytochrome P-450(11) beta.     

3-Methylhistidine content and pH dependency of ATPase activity of adult and embryonic chicken cardiac ventricular myosins

A distinct difference in the 3-methylhistidine (3-MeHis) content and the pH-dependency curve for calcium-activated adenosine triphosphatase (Ca-ATPase) activity was observed between chicken and mammalian cardiac ventricular myosins. The 3-MeHis content and pH dependency of the Ca-ATPase activity of myosins from adult and embryonic chicken cardiac ventricular muscles and chicken fast white and slow red muscles were almost the same.     

DNA sequencing of the Escherichia coli ribonuclease III gene and its mutations

Summary A 0.7 kb DNA fragment of the Escherichia coli K12 chromosome was shown to contain the structural gene for RNAse III (rnc). The DNA sequence of the gene was determined and its alteration in an RNAse III defective mutant, AB301-105, was identified. DNA sequence analysis also showed that a secondary-site suppressor of a temperature-sensitive mutation in the E. coli ribosomal protein gene, rpsL, occurred within the rnc gene, providing genetic evidence for the interaction of ribosomal proteins with RNAse III, which in turn acts on the nascent ribosomal RNA during assembly of ribosomes in E. coli.     

Suppressors of temperature-sensitive mutations in a ribosomal protein gene, rpsL (S12), of Escherichia coli K12

Summary Temperature-sensitive (ts) mutations were isolated within a ribosomal protein gene (rpsL) of Escherichia coli K12. Mutations were mapped by complementation using various transducing phages and plasmids carrying the rpsL gene, having either a normal or a defective promoter for the rpsL operon. One of these mutations, ts118, resulted in a mutant S12 protein which behaved differently from the wild-type S12 on CM-cellulose column chromatography. Suppressors of these ts mutations were isolated and characterized; one was found to be a mutation of a nonribosomal protein gene which was closely linked to the RNAase III gene on the E. coli chromosome. This suppressor, which was recessive to its wild-type allele, was cloned into a transducing phage and mapped finely. A series of cold-sensitive mutations, affecting the assembly of ribosomes at 20°C, was isolated within the purL to nadB region of the E. coli chromosome and one group, named rbaA, mapped at the same locus as the suppressor mutation, showing close linkage to the RNAase III gene.     

Homeostatic Regulation of Membrane Potential by an Electrogenic Ion Pump against Change in the K+ Concentration of the Extra- and Intra-Organ Perfusion Solutions

The dependence of membrane potentials on changes in the extra-cellularK⁺ concentration [K⁺]_e was investigated in potato tuber sliceswith dripping perfusion, and in growing Vigna hypocotyl segmentswith pressurized intra-organ perfusion methods. Only under anoxiawere the membrane potential of potato tuber slices and the electricpotential difference between the parenchyma symplast and xylem(V_px) of Vigna hypocotyl segments depolarized markedly (46 mVand 42 mV/log[K⁺]_e unit, respectively) with increasing [K⁺]_eabove the critical values. The electric potential differencebetween the parenchyma symplast and organ surface (V_ps of thehypocotyl segments remained nearly unchanged up to 30 mEq [K⁺]_e.Under highly aerobic conditions the membrane potentials wererelatively independent of [K⁺]_e except at very high K⁺ concentrations.V_ps showed even hyperpolarization with the increasing KCl concentrationin the perfusion solution that is not in direct contact withthe surface membrane of the parenchyma symplast. The respiration-dependentelectrogenic components of the membrane potentials regularlyincreased with the increasing [K⁺]_e. A voltage-dependent homeostaticcontrol of membrane potential is discussed. (Received August 13, 1984; Accepted December 21, 1984)     

A streamlined method of subfragment one preparation from myosin

A rapid procedure for isolating subfragment one (SF1) from myosin was found. SF1 can be isolated specifically from proteolytic digests of myosin in the presence of a millimolar concentration of magnesium chloride. Under such ionic conditions all of the rod portion and undigested myosin is selectively precipitated. A nucleotide trapping experiment indicated how important quick preparation of SF1 is for maintaining the active site structure. This method can also be utilized in the preparation of heavy meromyosin.     

Changes of plasma membrane proteins during prespore differentiation in Dictyostelium discoideum

By the use of a shake culture system, we have previously shown (Oyama, M., Okamoto, K., & Takeuchi, I. (1982) J. Cell Sci. 56, 223-232) that both cAMP and cAMP-dependent cell contact are required for prespore differentiation in Dictyostelium discoideum. The present study was undertaken to examine changes of the plasma membrane proteins during prespore differentiation in the shake culture system. Rabbit antibodies prepared against the plasma membrane fraction of the differentiated cells inhibited the reaggregation of the differentiated cells but not that of aggregation-competent cells. This result indicates that new contact sites are formed in the differentiated cells. By the combined use of the antibody-conjugated immuno-adsorbent with sodium dodecyl sulfate-polyacrylamide gel electrophoresis, changes of membrane proteins were analyzed with the cells incubated under various conditions. Three proteins were found to be present specifically in the differentiated cells only in the presence of cAMP, one of which (105K protein) appeared when cells became adhesive, but before prespore specific proteins were detected. Two others (80K and 58K proteins) appeared during prespore differentiation after cells formed agglomerates.     

Partially purified "activated" receptor-glucocorticoid complex from rat liver: regulation of nuclear, chromatin, and DNA-cellulose binding of "activated" complex by pyrophosphate and ATP

The effects of PP1 and ATP on nuclear binding of the "activated" receptor-[3H]-triamcinolone acetonide (TA) complex purified about 3,000-fold from adrenalectomized rat liver were investigated. ATP at up to 5 mM did not affect nuclear binding of the "activated" complex, but PP1 at 2-7 mM greatly enhanced it. However, ATP in the presence of PP1 decreased nuclear binding dose-dependently. Similar results were obtained in the case of chromatin binding, but PP1 alone did not alter DNA-cellulose binding of the "activated" complex, suggesting that the binding sites for chromatin and DNA on the "activated" complex are different. Furthermore, PP1 enhanced ATP-agarose binding of the "activated" complex, indicating that the PP1 binding site(s) on the receptor is different from the ATP binding site(s). The physicochemical properties of the "activated" receptor-glucocorticoid complex bound with ATP and/or PP1 were examined by sucrose density gradient centrifugation and Sephadex G-150 gel filtration. There was no detectable change in the sedimentation coefficient or molecular weight (about 4.2S; Mr approximately equal to 98,000) on binding with ATP and/or PP1. These results suggest that the binding of PP1 and PP1 plus ATP to the "activated" complex caused some allosteric change of the acceptor binding sites of the receptor, resulting in increase or decrease in its binding to nuclei, chromatin, or DNA.     

Selective inhibition of thrombin by (2R,4R)-4-methyl-1-[N2-[(3-methyl-1,2,3,4-tetrahydro-8-quinolinyl++ +) sulfonyl]-l-arginyl)]-2-piperidinecarboxylic acid

The potency of thrombin inhibition by 4-methyl-1-[N2-[(3-methyl-1,2,3,4-tetrahydro-8-quinolinyl)-sulfony l]- L-arginyl]-2-piperidinecarboxylic acid (MQPA) depended on the stereoconformation of the 2-piperidinecarboxylic acid moiety. Ki values for bovine alpha-thrombin were 0.019 microM with (2R,4R)-MQPA, 0.24 microM with (2R,4S)-MQPA, 1.9 microM with (2S,4R)-MQPA, and 280 microM with (2S,4S)-MQPA. (2R,4R)-MQPA of the four stereoisomers of MQPA was also the most potent inhibitor for other trypsin-like serine proteases with Ki values of 5.0 microM for trypsin, 210 microM for factor Xa, 800 microM for plasmin, and 1500 microM for plasma kallikrein. Examination of the potency of thrombin inhibition by arginine derivatives related to MQPA in structure suggested the presence of a specific binding site for the carboxamide portion (C-terminal side). The relative inhibitory potency of the four stereoisomers of MQPA for trypsin was nearly identical with that for thrombin, suggesting that the specific binding site for the carboxamide portion is present in both enzymes. Modification of thrombin by phosphopyridoxylation or the presence of heparin did not significantly alter the binding of MQPA.