Atypical Prothrombins induced by Dicoumarol

VITAMIN K maintains normal plasma prothrombin concentration. The effects of this vitamin as well as of its antagonist, dicoumarol, have been studied, often with the aid of inhibitors of protein synthesis, such as puromycin and cycloheximide^1–8. It is generally accepted that the site of action of vitamin K is not at the DNA level but at the late ribosomal stage; whether the vitamin acts in the de novo synthesis of prothrombin or in the completion of “unfinished” molecules is uncertain. Dicoumarol may cause release of unfinished material, or of “modified” molecules which are converted to the normal form by vitamin K. Conflicting evidence may be due to differences in dosage of protein inhibitors or of dicoumarol, differences in sampling time, differences in degree of purification, species variation, or differences in physical characteristics and chemical behaviour of unfinished or modified molecules which would demand that methods be specially adapted for their isolation.     

Flower-inducing Activity of Vitamin K in Lemna paucicostata

Vitamins K₁ K₃ and K₅ induced flowering in Lemna paucicostata151, a short-day plant, cultured in 1/10 strength M medium (1/10M medium) under continuous light, and their activity was greatlyintensified by simultaneous application of benzyladenine. Themost active of these was vitamin K₅ L. paucicostata 6746 ismore sensitive to vitamin K₅ than strain 151, but the effectof vitamin K₅ on strain 6746 was not intensified by benzyladenine.The flower-inducing activity of vitamin K₅ was intensified bythe addition of benzoic acid in both strains and by the additionof copper or ferricyanide in Strain 6746, when these chemicalswere added at such low concentrations that they would scarcelyinduce flowering. In strain 6746, vitamin K₅ added to 1/10 M had little effecton flowering under a subcritical photoperiod, while it clearlyinduced flowering under continuous light. In this strain, vitaminK₅ added to full strength M medium, in which this plant wasmore sensitive to short photoperiods than in 1/10 M medium,did not induce flowering even under continuous light, and wasrather inhibitory under short photoperiods. (Received August 14, 1984; Accepted October 16, 1984)     

The Role of Benzoic Acid and Plant Hormones in Flowering of Lemna gibba G3

The level of benzoic acid was measured in Lemna gibba G3 grownon M and E media under inductive and non-inductive daylengths.Benzoic acid was slightly higher in plants grown on M mediumbut there was no difference in the benzoic acid levels in floweringand vegetative plants. When L. gibba G3 was grown under continuouslight on 1/10 M medium or 1/2 H medium there was virtually noflowering, but addition of benzoic acid to either medium ledto a substantial flowering response. In both cases this floweringresponse was inhibited by the plant hormones IAA, GA₃, ABA andzeatin, with IAA and GA₃ being the least inhibitory and ABAbeing the most inhibitory. This same pattern of inhibition wasseen when L. gibba G3 was grown on M medium under continuouslight, conditions that lead to photoinduction of flowering.These results leave open the possibility that endogenous benzoicacid may interact with other factors to influence the floweringresponse in L. gibba G3. (Received November 13, 1984; Accepted February 27, 1985)     

Flower-inducing Effect of Benzoic and Salicylic Acids in Various Strains of Lemna paucicostata and L. minor

The flower-inducing activities of benzoic and salicylic acidsadded to the medium differ with the species (Lemna paucicostataand L. minor), and even with the strains used. The type andpH of the medium used, full or 1/10 strength M medium at pH3.8, 4.4 or 5.1, or 1/2 or 1/20 strength NH₄⁺-free Hutner'smedium at pH 5.0, 6.0 or 7.0, also modify their activity. L.paucicostata, strain 151 is the most sensitive of the strainsused to both benzoic and salicylic acids followed by strain381. Such dramatic flowering responses were not obtained withthe other strains, but even strain 321, reportedly insensitiveto benzoic acid, could be induced to flower by adding benzoicacid to a modification of the medium. Benzoic acid is more effectivethan salicylic acid for all strains of L. paucicostata, butthe contrary is true for two L. minor strains tested. A higherpercentage of flowering is obtained in L. paucicostata in 1/2strength NH₄⁺-free Huter'sn medium than in M medium, exceptfor strain 151. When diluted, both media enhance flowering inall L. paucicostata strains. Generally, a lower concentrationof benzoic acid or salicylic acid is enough to induce floweringwhen the pH of the medium is lower. (Received March 30, 1981; Accepted May 16, 1981)     

Nitrogenase Activity in Response to Darkening and Defoliation of Alnus incana

Huss-Danell, K. and Sellstedt, A. 1985. Nitrogenase activityin response to darkening and defoliation of Alnus incana. —J.exp. Bot. 36: 1352–1358 In the Alnus-Frankia symbiosis the nitrogen-fixing root nodulesare one of the sinks for carbon compounds newly formed in photosynthesisand exported from the leaves (source). The source-sink ratioof cloned plants of Alnus incana was reduced by darkening orby total or partial defoliation and the resulting nitrogenaseactivity (C₂H₂-reduction) was measured. Nitrogenase activityhad nearly ceased 5 h after total defoliation but not untilca. 5 d after total darkening. Most of the activity was lostduring the initial hours and days, respectively. When leaf areawas reduced approximately by half nitrogenase activity decreasedslightly less than by half. Removal of upper leaves seemed lessharmful than removal of lower leaves one day after defoliation.On the following 2 d the treatments appeared to be similar.Thus, nitrogenase activity was largely dependent on newly formedassimilates but could also depend on stored reserves that weremobilized. Measurements of in vitro nitrogenase activity inroot nodule homogenates from darkened plants indicated thatnitrogenase gradually became inactivated and/or depleted after1 and 2 d in darkness Key words: Carbon supply, Frankia, nitrogen fixation     

Inhibition of an aa3-Type Two-Subunit Cytochrome c Oxidase from Nitrobacter agilis by N,N'-Dicyclohexylcarbodiimide

The electron transfer activity of an aa₃-type two-subunit cytochromec oxidase of Nitrobacter agilis was inhibited by DCCD. Althoughthe activity of the purified cytochrome c oxidase dissolvedin 1% Triton X- 100 was not affected by DCCD even at a ratioof 1,000 mol DCCD per mol cytochrome aa₃, the activity of theenzyme dissolved in 0.02% Tween 20 or 0.02% Triton X-100 wasinhibited by 60% or more at a ratio of 1,000 mol DCCD per molcytochrome aa₃. The results of SDS polyacrylamide gel electrophoresisof the enzyme incubated with DCCD suggested that subunit IImight be a binding site for DCCD. (Received February 23, 1985; Accepted April 23, 1985)     

Change in Nitrate-Reducing Activity in Squash Seedlings with NO2 Fumigation

Nitrogen dioxide (NO₂) fumigation inhibited nitrate reductase(NR, EC 1.6.6.1 [EC] ) activity assayed by an in vivo system in thecotyledons, but not in the first leaves, of squash (Cucurbitamaxima Duch.) seedlings. The inhibition was recovered when theseedlings were transferred to NO₂-free conditions, indicatingthat the effect of NO₂ was reversible. The NADH content in thecotyledons, photosynthetic O₂ evolution and respiratory O₂ uptakedid not change notably under NO₂ fumigation. Nitrate contentsin the cotyledons and first leaves did not change with NO₂ fumigation,but nitrite, ammonium and rapidly-metabolized amino acids contentsincreased. The inhibitory effect of NO₂ was also observed inthe in vitro assay, though the inhibition rate was smaller thanthat in the in vivo assay. These results indicate that the inhibitoryeffect of NO₂ on NR activity in squash cotyledons was derivedin part from the decrease in the amount of active NR due toammonium and/or amino acids accumulated in the tissue underNO₂ fumigation. (Received February 12, 1985; Accepted May 27, 1985)     

A carrier-mediated mechanism for pyridoxine uptake by human intestinal epithelial Caco-2 cells: regulation by a PKA-mediated pathway

Vitamin B₆ is essential for cellular functions and growth due to its involvement in important metabolic reactions. Humans and other mammals cannot synthesize vitamin B₆ and thus must obtain this micronutrient from exogenous sources via intestinal absorption. The intestine, therefore, plays a central role in maintaining and regulating normal vitamin B₆ homeostasis. Due to the water-soluble nature of vitamin B₆ and the demonstration that transport of other water-soluble vitamins in intestinal epithelial cells involves specialized carrier-mediated mechanisms, we hypothesized that transport of vitamin B₆ in these cells is also carrier mediated in nature. To test this hypothesis, we examined pyridoxine transport in a model system for human enterocytes, the human-derived intestinal epithelial Caco-2 cells. The results showed pyridoxine uptake to be 1) linear with time for up to 10 min of incubation and to occur with minimal metabolic alteration in the transported substrate, 2) temperature and energy dependent but Na⁺ independent, 3) pH dependent with higher uptake at acidic compared with alkaline pHs, 4) saturable as a function of concentration (at buffer pH 5.5 but not 7.4) with an apparent Michaelis-Menten constant (K_m) of 11.99 ± 1.41 µM and a maximal velocity (V_max) of 67.63 ± 3.87 pmol · mg protein^-1 · 3 min^-1, 5) inhibited by pyridoxine structural analogs (at buffer pH 5.5 but not 7.4) but not by unrelated compounds, and 6) inhibited in a competitive manner by amiloride with an apparent inhibitor constant (K_i) of 0.39 mM. We also examined the possible regulation of pyridoxine uptake by specific intracellular regulatory pathways. The results showed that whereas modulators of PKC, Ca⁺²/calmodulin (CaM), and nitric oxide (NO)-mediated pathways had no effect on pyridoxine uptake, modulators of PKA-mediated pathway were found to cause significant reduction in pyridoxine uptake. This reduction was mediated via a significant inhibition in the V_max, but not the apparent K_m, of the pyridoxine uptake process. These results demonstrate, for the first time, the involvement of a specialized carrier-mediated mechanism for pyridoxine uptake by intestinal epithelial cells. This system is pH dependent and amiloride sensitive and appears to be under the regulation of an intracellular PKA-mediated pathway. vitamin B₆; intestinal transport; transport regulation; Caco-2 cell     

Expression, regulation, and function of P2X4 purinergic receptor in human cervical epithelial cells

Micromolarconcentrations of ATP stimulate biphasic change in transepithelialconductance across CaSki cultures on filters, an acute transientincrease (phase I response; triggered by P2Y₂ receptor and mediated by calcium mobilization-dependent cell volume decrease) followed by a slower decrease in permeability (phase II response). Phase II response is mediated byaugmented calcium influx and protein kinase C-dependent increase intight junctional resistance. The objective of the study was todetermine the role of P2X₄ receptor as a mediator ofphase II response. Human cervical epithelial cells expressP2X₄ receptor mRNA (1.4-, 2.2-, and 4.4-kb isoforms byNorthern blot analysis) and P2X₄ protein. Depletion ofvitamin A reversibly downregulated P2X₄ receptor mRNA andprotein and ATP-induced calcium influx. Depletion of vitamin Aabrogated phase II response, and the effect could bepartially reversed only with retinoic acid receptor (RAR)-selectiveretinoids but not retinoid X receptor (RXR) agonists. Depletion ofvitamin A also abrogated protein kinase C increase in tight junctionalresistance, and the effect could not be reversed with retinoids.Depletion of vitamin A also abrogated phase I increase inpermeability and reversibly downregulated P2Y₂ receptormRNA and ATP-induced calcium mobilization. However, in contrast tophase II response, both RAR and RXR agonists could fullyreverse those effects. These results suggest that phase IIresponse is mediated by a P2X₄ receptor mechanism.

     

Reduced sickle erythrocyte dehydration in vivo by endothelin-1 receptor antagonists

Elevated plasma levels of cytokines such as endothelin-1 (ET-1) have been shown to be associated with sickle cell disease (SCD). However, the role of ET-1 in the pathophysiology of SCD is not entirely clear. I now show that treatment of SAD mice, a transgenic mouse model of SCD, with BQ-788 (0.33 mg·kg^–1·day^–1 intraperitoneally for 14 days), an ET-1 receptor B (ET_B) antagonist, induced a significant decrease in Gardos channel activity (1.7 ± 0.1 to 1.0 ± 0.4 mmol·10¹³ cell^–1·h^–1, n = 3, P = 0.019) and reduced the erythrocyte density profile by decreasing the mean density (D₅₀; n = 4, P = 0.012). These effects were not observed in mice treated with BQ-123, an ET-1 receptor A (ET_A) antagonist. A mixture of both antagonists induced a similar change in density profile as with BQ-788 alone that was associated with an increase in mean cellular volume and a decrease in corpuscular hemoglobin concentration mean. I also observed in vitro effects of ET-1 on human sickle erythrocyte dehydration that was blocked by BQ-788 and a mixture of ET_B/ET_A antagonists but not by ET_A antagonist alone. These results show that erythrocyte hydration status in vivo is mediated via activation of the ET_B receptor, leading to Gardos channel modulation in SCD. cellular dehydration; Gardos channel; transgenic sickle mice     

Interaction of a Brassinosteroid with IAA and GA3 in the Elongation of Cucumber Hypocotyl Sections

A synthetic brassinosteroid, 22,23(S,S)-homobrassinolide (hBR),was examined for its interaction with IAA and GA₃ in the elongationof hypocotyl sections of light-grown cucumber (Cucumis salivusL. cv. Aonagajibai) seedlings. hBR alone was less active thanIAA. Its optimal concentration was around 10 µM and thelowest effective concentration between 10 and 100 µM,which is more than 100 times higher than that of brassinolide.hBR was more active in sections from younger seedlings. Itsgrowth-promoting effect was negated or greatly reduced by inhibitorsof auxin-induced elongation such as p-chlorophenoxyisobutyricacid and kinetin. hBR acted synergistically with IAA and 2,4-Dbut not with GA₃ showing only an additive effect. Sequentialtreatment of sections with hBR and then with IAA also resultedin synergistic enhancement of auxininduced elongation, but whenthe order of treatment was reversed, hBR was inactive. The synergisticeffect was obtained with 1 h pretreatment with hBR and couldbe reduced by subsequent washing with water. There was no sequentialinteraction between hBR and GA₃. The synergistic pretreatmenteffects of hBR and GA₃ were simply additive to each other. Amembrane-bound ATPase inhibitor, dicyclohexylcarbodiimide, inhibitedthe hBR-induced elongation, but did not affect GA₃-induced elongation.The findings led to the conclusion that brassinosteroids enhanceauxin action and possess growth-promoting activity which isindependent of that of gibberellin. (Received November 9, 1984; Accepted February 18, 1985)     

Vitamin K, 2,3-Epoxide And Quinone Reduction: Mechanism And Inhibition

The chemical and enzymatic pathways of vitamin K₁ epoxide and quinone reduction have been investigated. The reduction of the epoxide by thiols is known to involve a thiol-adduct and a hydroxy vitamin K enolate intermediate which eliminates water to yield the quinone. Sodium borohydride treatment resulted in carbonyl reduction generating relatively stable compounds that did not proceed to quinone in the presence of base. NAD(P)H:quinone oxidoreductase (DT-diaphorase. E.C. I.6.99.2) reduction of vitamin K to the hydroquinone was a significant process in intact microsomes. but 1/5th the rate of the dithiothreitol (DTT)-dependent reduction. No evidence was found for DT-diaphorase catalyzed reduction of vitamin K₁ epoxide, nor was it capable of mediating transfer of electrons from NADH to the microsomal epoxide reducing enzyme. Purified diaphorase reduced detergent- solubilized vitamin K, 10^?5 as rapidly as it reduced dichlorophenylindophenol(DCPIP). Reduction of 10 μM vitamin K, by200 μM NADH was not inhibited by 10μM dicoumarol. whereas DCPIP reduction was fully inhibited. In contrast to vitamin K, (menadione). vitamin K₁ (phylloquinone) did not stimulate microsomal NADPH consumption in the presence or absence of dicoumarol. DTT-dependent vitamin K epoxide reduction and vitamin K reduction were shown to be mutually inhibitory reactions. suggesting that both occur at the same enzymatic site. On this basis, a mechanism for reduction of the quinone by thiols is proposed. Both the DTT-dependent reduction of vitamin K₁ epoxide and quinone. and the reduction of DCPIP by purified DT-diaphorase were inhibited by dicoumarol, warfarin. lapachol. and sulphaquinoxaline     

Variation of Phosphoenolpyruvate Carboxylase Activity in Dunaliella Associated with Changes in Atmospheric CO2 Concentration

In Dunaliella tertiolecta, D. bioculata and D. viridis the activitiesof phosphoenolpyruvate carboxylase and carbonic anhydrase werehigher in the cells grown in ordinary air (low-CO₂ cells) thanin those grown in air enriched with 1–5% CO₂ (high-CO₂cells), whereas in Porphyridium cruentum R-1 there was no differencein phosphoenolpyruvate carboxylase activity between these twotypes of cells. Apparent K_m(NaHCO₃) values for photosynthesisin low-CO₂ cells of all species tested were smaller than thosein high-CO₂ cells. Most of the ¹⁴C was incorporated into 3-phosphoglycerate,sugar mono- and di-phosphates during the initial periods ofphotosynthetic NaH¹⁴CO₃ indicating that both types of cellsin D. tertiolecta are C₃ plants. (Received May 27, 1985; Accepted June 25, 1985)     

Acute hypoxia selectively inhibits KCNA5 channels in pulmonary artery smooth muscle cells

Acute hypoxia causes pulmonary vasoconstriction in part by inhibiting voltage-gated K⁺ (Kv) channel activity in pulmonary artery smooth muscle cells (PASMC). The hypoxia-mediated decrease in Kv currents [I_K(V)] is selective to PASMC; hypoxia has little effect on I_K(V) in mesenteric artery smooth muscle cells (MASMC). Functional Kv channels are homo- and/or heterotetramers of pore-forming -subunits and regulatory -subunits. KCNA5 is a Kv channel -subunit that forms functional Kv channels in PASMC and regulates resting membrane potential. We have shown that acute hypoxia selectively inhibits I_K(V) through KCNA5 channels in PASMC. Overexpression of the human KCNA5 gene increased I_K(V) and caused membrane hyperpolarization in HEK-293, COS-7, and rat MASMC and PASMC. Acute hypoxia did not affect I_K(V) in KCNA5-transfected HEK-293 and COS-7 cells. However, overexpression of KCNA5 in PASMC conferred its sensitivity to hypoxia. Reduction of PO₂ from 145 to 35 mmHg reduced I_K(V) by 40% in rat PASMC transfected with human KCNA5 but had no effect on I_K(V) in KCNA5-transfected rat MASMC (or HEK and COS cells). These results indicate that KCNA5 is an important Kv channel that regulates resting membrane potential and that acute hypoxia selectively reduces KCNA5 channel activity in PASMC relative to MASMC and other cell types. Because Kv channels (including KCNA5) are ubiquitously expressed in PASMC and MASMC, the observation from this study indicates that a hypoxia-sensitive mechanism essential for inhibiting KCNA5 channel activity is exclusively present in PASMC. The divergent effect of hypoxia on I_K(V) in PASMC and MASMC also may be due to different expression levels of KCNA5 channels. membrane potential; potassium channels; vascular smooth muscle     

Relationship between Structure and Flower-inducing Activity of Benzoic Acid Derivatives in Lemna paucicostata 151

Lemna paucicostata, strain 151, does not flower when grown in1/10 strength M medium containing 1% sucrose, but easily flowerswhen benzoic acid or its substituted derivatives are added tothe medium. The structure-activity relationship of benzoic acidderivatives are quantitatively analyzable by means of physicochemicalparameters. Aromatic substituent constants a (electronic parameter)and Vw (van der Waals volume steric parameter) delineate thevariations in the flower-inducing activity, i.e., the higherthe electron-withdrawing ability as well as the less the bulkinessof the substituents, the higher the activity. The exceptionsare the derivatives substituted with NO₂ at any position andwith OH at meta and para positions; they exhibit an activitylower than expected from their substituent parameters. 2-Hydroxybenzoicacid (salicylic acid) exhibits activity higher than the calculatedvalue, suggesting participation of the chelating effect in theflower-inducing activity besides electronic and steric effects.The molecular form responsible for the activity is suggestedto be an undissociated neutral species. (Received May 21, 1981; Accepted September 29, 1981)     

Characteristics of a Urate-Degrading Diamine Oxidase-Peroxidase Enzyme System in Soybean Radicles

The cadaverine content of soybean radicles showed a maximumpeak 3–4 days after planting. The variation coincidedwith radicle uricase activity during seed germination. The uricase activity could not be fractionate when the bufferpH for the extraction was at 6.0. The addition of 1 M KCl orNaCl to the buffer allowed the extraction of the uricase activity,but an addition of 1 M MgCl₂ or BaCl₂ inhibited this enzyme'sactivity. The urate-degrading enzyme system was purified 248-fold permilligram of protein from soybean radicles. The respective K_mvalues of the diamine oxidase activity for cadaverine and ofthe urate-degrading activity for hydrogen peroxide and uratewere 1.25, 2.93 and 50.3 µM. Analysis by gel electrophoresisof the partially purified enzyme fraction revealed that theurate-degrading enzyme system consisted of a peroxidase thatdegrades urate with hydrogen peroxide and a diamine oxidasethat releases hydrogen peroxide. These data are evidence that a urate-degrading diamine oxidaseand peroxidase system exists in soybean radicles and that thereaction rate of urate-degradation is controlled by the concentrationof cadaverine. (Received November 28, 1984; Accepted April 8, 1985)     

Chlorophyll Metabolism in Higher Plants VI. Involvement of Peroxidase in Chlorophyll Degradation

The following phenolics were found to be essential for peroxidase-dependentchlorophyll bleaching: 2,4-dichlorophenol (DCP), p-coumaricacid (HCA), phenol, p-hydroxyphenylacetic acid, p-hydroxybenzoicacid, p-hydroxyacetophenone, resorcinol and umbelliferone. Mostof them are monophenols with electron-attracting groups at thep-position. The short-lived radicals generated by horseradishperoxidase (HRP)-phenolics-H₂O₂ reaction might be involved inthis reaction. Tobacco leaf enzyme preparation with peroxidaseactivity for guaiacol could also degrade chlorophyll with suchphenolics. In addition, tobacco leaf methanol extract couldsubstitute for chlorophyll bleaching as an electron donor inthe absence of phenolics. In place of free H₂O₂, the glycolate-glycolateoxidase (GOX) system could degrade chlorophyll in [peroxidase$phenolics]-dependentbleaching. This chlorophyll bleaching system was inhibited by peroxidaseinhibitors, radical scavengers, reducing reagents, and carotenoids.Ascorbate and glutathione stopped chlorophyll bleaching withGSSG reductase and NADPH. The role of ascorbate and glutathionein peroxidase activity for controlling the chlorophyll degradationrate is discussed. (Received January 28, 1985; Accepted July 23, 1985)     

A Comparison of the Effects of Chelates, Salicylic Acid and Benzoic Acid on Growth and Flowering of Spirodela polyrrhiza

Flowering in the genus Spirodela, whether in the laboratoryor in nature, has been observed only rarely. In this communication,the growth and flowering behaviour of a local isolate of S.polyrrhiza, strain SP₂₀, is being reported. The presence ofa chelate, such as EDTA, is obligatory for satisfactory vegetativegrowth of S. polyrrhiza SP₂₀- An optimal flowering responseis obtained, however, only when compounds such as EDDHA, a phenolicanalog of EDTA, or benzoic acid are supplied. Flowering, soinduced, is not influenced by the length of the photoperiod.Flowering fronds become gibbous and both EDDHA and benzoic acidalso enhanced anthocyanin content. This investigation has also revealed that salicylic acid, whichis known to have chelating properties itself, induces floweringin this duckweed only in the simultaneous presence of EDTA,in the nutrient solution. (Received January 14, 1986; Accepted May 10, 1986)     

Effects of protein tyrosine kinase and protein tyrosine phosphatase on apical K(+) channels in the TAL

We havepreviously demonstrated that the protein level of c-Src, anonreceptor type of protein tyrosine kinase (PTK), was higher in therenal medulla from rats on a K-deficient (KD) diet than that in rats ona high-K (HK) diet (Wang WH, Lerea KM, Chan M, and Giebisch G. Am J Physiol Renal Physiol 278: F165-F171, 2000).We have now used the patch-clamp technique to investigate the role ofPTK in regulating the apical K channels in the medullary thickascending limb (mTAL) of the rat kidney. Inhibition of PTK withherbimycin A increased NP_o, a product of channelnumber (N) and open probability (P_o),of the 70-pS K channel from 0.12 to 0.42 in the mTAL only from rats ona KD diet but had no significant effect in tubules from animals on a HKdiet. In contrast, herbimycin A did not affect the activity of the30-pS K channel in the mTAL from rats on a KD diet. Moreover, additionof N-methylsulfonyl-12,12-dibromododec-11-enamide, an agentthat inhibits the cytochrome P-450-dependent production of20-hydroxyeicosatetraenoic acid, further increasedNP_o of the 70-pS K channel in the presence ofherbimycin A. Furthermore, Western blot detected the presence ofPTP-1D, a membrane-associated protein tyrosine phosphatase (PTP), inthe renal outer medulla. Inhibition of PTP with phenylarsine oxide(PAO) decreased NP_o of the 70-pS K channel inthe mTAL from rats on a HK diet. However, PAO did not inhibit theactivity of the 30-pS K channel in the mTAL. The effect of PAO on the70-pS K channel was due to indirectly stimulating PTK becausepretreatment of the mTAL with herbimycin A abolished the inhibitoryeffect of PAO. Finally, addition of exogenous c-Src reversibly blockedthe activity of the 70-pS K channel in inside-out patches. We concludethat PTK and PTP have no effect on the low-conductance K channels inthe mTAL and that PTK-induced tyrosine phosphorylation inhibits,whereas PTP-induced tyrosine dephosphorylation stimulates, the apical70-pS K channel in the mTAL.

     

NUTRITIONAL STUDIES OF THE EDIBLE SEAWEED PORPHYRA TENERA I. THE INFLUENCE OF DIFFERENT B12 ANALOGUES, PLANT HORMONES, PURINES AND PYRIMIDINES ON THE GROWTH OF CONCHOCELIS

The red alga Porphyra tenera has been obtained in axenic cultureby the "dip and drag" technique in an agarized medium containingantibiotics. In the axenic culture, the Conchocelis of P. teneraneeds vitamin B₁₂ for growth. The addition of other vitaminsdoes not increase growth further. The pattern of specificityis similar to that of Escherichia coli 113-3. Factor B, pseudovitaminB₁₂ and Factor Z₂ support as much growth as vitamin B₁₂, while2-methylmercaptoadenine and 5-methyl benzimidazole cobalamineincrease the growth more than B₁₂. All the analogues containingbenzimidazole can replace B₁₂. Kinetin, adenine, indoleaceticacid and especially gibberellic acid increase growth. Threepurines, (xanthine, hypoxanthine and guanine) and three pyrimidines(uracil, methylcytosine and thymine) also promote growth inthe presence of vitamine B₁₂. (Received January 18, 1965; )