Evidence against involvement of circadian floral rhythm in the critical daylength measurement in Lemna gibba G3

Using the min-LD method, light requirements of the L1- and L2-phasesof L. gibba G3 were found to be satisfied by only 5 min illuminationgiven respectively from CT 0:00 to 0:05 and from CT 11:55 to12:00. This rigorous time sense was displayed without any alterationeven in the presence of iron reagents, e.g., 10^–5 M o-phenanthroline,10^–5M,'-dipyridyl and 10–6 M kinetin, which completely eliminatedcircadian rhythmicity in reproductive (flower production) aswell as vegetative (frond production) response to a light pulsescanning a continuous dark period. Circadian rhythms of metabolicactivities, e.g., active K⁺ ion uptake and respiratory CO₂ output,were not changed at all by the iron reagents. These and relevantresults suggested that in this long-day duckweed, the circadianoscillator, probably located in the meristem and sensitive toiron deficiency, only modulates the frond and flower productionin the meristem and is not related to the critical daylengthmeasurement. (Received December 18, 1978; )     

Influence of nutrients on the development of gibbosity in fronds of the duckweed Lemna gibba L.

The duckweeds Lemna gibba L. and Lemna minor L. only grew wellin undisturbed culture under axenic conditions in low lightintensity when provided with a suitable energy source such asglucose. In media containing N0₃-N gibbosity (a convex ventralsurface) was induced in the presence of the chelating agentethylene-diamine-di-o-hydroxyphenylacetic acid (EDDHA). In nutrientsolutions containing NO₃-N as the only N source, but withoutEDDHA, L. gibba occasionally exhibited gibbosity in culturesolutions of 40 cm³ volumes. More fronds were induced to exhibitgibbosity when the volume of the culture medium was increasedfrom 40 cm³ to 200 cm³. Gibbosity was never induced in L. minor,neither was it induced in L. gibba in media containing NH₄-N,even in the presence of NO₃-N. There was no direct correlationbetween the occurrence of gibbosity and frond growth rate, butgibbosity occurred only when there was good frond growth. In the absence of a sugar, frond growth was enhanced by bubblingair through the culture solution in the light. Increasing theCO₂ concentration in the air up to 1% enhanced growth and inducedgibbosity. Carbon dioxide did not induce gibbosity in mediacontaining NH₄-N. Key words: Ammonium-N, carbon dioxide, gibbosity, Lemna, nitrate-N     

DNA synthesis as related to the reappearance of "light interruption rhythm" in a long-day duckweed, Lemna gibba G3

DNA synthesis in the light perturbation period and its relationto the reappearance, due to light perturbation, of once faded-out"light interruption rhythm" in a long-day duckweed, Lemna gibbaG 3, were studied. After long continuous darkness, the duckweedincorporated ³H-thymidine into both nuclear and satellite DNA_sunder a light condition, but into satellite DNA alone undera dark condition. The number of dividing cells in frond epidermisincreased in proportion to the length of the light perturbationperiod. This increase was inhibited by 5-fluorodeoxyuridine.From these and previous results we conclude that nuclear DNAnewly synthesized in the light is intimately related with thereappearance of the rhythm. (Received June 15, 1970; )     

Protective role of extracellular chloride in fatigue of isolated mammalian skeletal muscle

A possible role of extracellular Cl^– concentration ([Cl^–]_o) in fatigue was investigated in isolated skeletal muscles of the mouse. When [Cl^–]_o was lowered from 128 to 10 mM, peak tetanic force was unchanged, fade was exacerbated (wire stimulation electrodes), and a hump appeared during tetanic relaxation in both nonfatigued slow-twitch soleus and fast-twitch extensor digitorum longus (EDL) muscles. Low [Cl^–]_o increased the rate of fatigue 1) with prolonged, continuous tetanic stimulation in soleus, 2) with repeated intermittent tetanic stimulation in soleus or EDL, and 3) to a greater extent with repeated tetanic stimulation when wire stimulation electrodes were used rather than plate stimulation electrodes in soleus. In nonfatigued soleus muscles, application of 9 mM K⁺ with low [Cl^–]_o caused more rapid and greater tetanic force depression, along with greater depolarization, than was evident at normal [Cl^–]_o. These effects of raised [K⁺]_o and low [Cl^–]_o were synergistic. From these data, we suggest that normal [Cl^–]_o provides protection against fatigue involving high-intensity contractions in both fast- and slow-twitch mammalian muscle. This phenomenon possibly involves attenuation of the depolarization caused by stimulation- or exercise-induced run-down of the transsarcolemmal K⁺ gradient. potassium; skeletal muscle contraction; membrane potential; myotonia     

Activation of Ca2+-dependent K+ channels by cyanide in guinea pig adrenal chromaffin cells

The effects ofcyanide (CN) on whole cell current measured with the perforated-patchmethod were studied in adrenal medullary cells. Application of CNproduced initially inward and then outward currents at 52 mV ormore negative. As the membrane potential was hyperpolarized, amplitudeand latency of the outward current (I_o) by CNbecame small and long, respectively. A decrease in the externalNa⁺ concentration did not affectthe latency for CN-inducedI_o but enhancedthe amplitude markedly. The CNI_o reversedpolarity at 85 mV, close to the Nernst potential forK⁺, and was suppressed by theK⁺ channel blockers curare andapamin but not by glibenclamide, suggesting thatI_o is due to theactivation of Ca²⁺-dependentK⁺ channels. Consistent with thisnotion, the Ca²⁺-mobilizingagents, muscarine and caffeine, also producedI_o. Exposure toCN in a Ca²⁺-deficient medium for4 min abolished caffeine- or muscarine-induced I_o withoutdevelopment ofI_o, and additionof Ca²⁺ to the CN-containingsolution inducedI_o. We concludethat exposure to CN producesCa²⁺-dependentK⁺ currents in an externalCa²⁺-dependent manner, probablyvia facilitation of Ca²⁺ influx.

     

SH oxidation coordinates subunits of rat brain ryanodine receptor channels activated by calcium and ATP

We have reported that ryanodine receptor (RyR) channels display three different responses to cytoplasmic free Ca²⁺ concentration ([Ca²⁺]) depending on their redox state (Marengo JJ, Hidalgo C, and Bull R. Biophys J 74: 1263–1277, 1998), with low, moderate, and high maximal fractional open times (P_o). Activation by ATP of single RyR channels from rat brain cortex was tested in planar lipid bilayers with 10 or 0.1 µM cytoplasmic [Ca²⁺]. At 10 µM [Ca²⁺], low-P_o channels presented lower apparent affinity to activation by ATP [[ATP] for half-maximal activation (K_aATP) = 422 µM] than moderate-P_o channels (K_aATP = 82 µM). Oxidation of low-P_o channels with thimerosal or 2,2'-dithiodipyridine (DTDP) gave rise to moderate-P_o channels and decreased K_aATP from 422 to 82 µM. At 0.1 µM cytoplasmic [Ca²⁺], ATP induced an almost negligible activation of low-P_o channels. After oxidation to high-P_o behavior, activation by ATP was markedly increased. Noise analysis of single-channel fluctuations of low-P_o channels at 10 µM [Ca²⁺] plus ATP revealed the presence of subconductance states, suggesting a conduction mechanism that involves four independent subchannels. On oxidation the subchannels opened and closed in a concerted mode. subconductance states; calcium ion release channels; calcium ion regulation; thimerosal; 2,2'-dithiodipyridine     

Role of extracellular [Ca2+] in fatigue of isolated mammalian skeletal muscle

The possiblerole of altered extracellular Ca²⁺concentration([Ca²⁺]_o)in skeletal muscle fatigue was tested on isolated slow-twitch soleusand fast-twitch extensor digitorum longus muscles of the mouse. Thefollowing findings were made. 1) Achange from the control solution (1.3 mM[Ca²⁺]_o)to 10 mM[Ca²⁺]_o,or to nominally Ca²⁺-freesolutions, had little effect on tetanic force in nonfatigued muscle.2) Almost complete restoration oftetanic force was induced by 10 mM[Ca²⁺]_oin severely K⁺-depressed muscle(extracellular K⁺ concentration of10-12 mM). This effect was attributed to a 5-mV reversal of theK⁺-induced depolarization andsubsequent restoration of ability to generate action potentials(inferred by using the twitch force-stimulation strength relationship).3) Tetanic force depressed bylowered extracellular Na⁺concentration (40 mM) was further reduced with 10 mM[Ca²⁺]_o.4) Tetanic force loss at elevatedextracellular K⁺ concentration (8 mM) and lowered extracellular Na⁺concentration (100 mM) was partially reversed with 10 mM[Ca²⁺]_oor markedly exacerbated with low[Ca²⁺]_o.5) Fatigue induced by using repeatedtetani in soleus was attenuated at 10 mM[Ca²⁺]_o(due to increased resting and evoked forces) and exacerbated at low[Ca²⁺]_o.These combined results suggest, first, that raised[Ca²⁺]_oprotects against fatigue rather than inducing it and, second, that aconsiderable depletion of[Ca²⁺]_oin the transverse tubules may contribute to fatigue.

     

Phosphate Uptake in the Cyanobacterium Synechococcus R-2 PCC 7942

Phosphate uptake rates in Synechococcus R-2 in BG-11 media (anitrate-based medium, not phosphate limited) were measured usingcells grown semi-continuously and in continuous culture. Netuptake of phosphate is proportional to external concentration.Growing cells at pH_o 10 have a net uptake rate of about 600pmol m^–2 s^–1 phosphate, but the isotopic flux for³²P phosphate was about 4 nmol m^–2 s^–1. There appearsto be a constitutive over-capacity for phosphate uptake. TheK_m and V_max, of the saturable component were not significantlydifferent at pH_o 7.5 and 10, hence the transport system probablyrecognizes both H₂PO^–₄and HPO^2–₄. The intracellularinorganic phosphate concentration is about 3 to 10 mol m^–3,but there is an intracellular polyphosphate store of about 400mol m^–3. Intracellular inorganic phosphate is 25 to 50kJ mol^–1 from electrochemical equilibrium in both thelight and dark and at pH_o 7.5 and 10. Phosphate uptake is veryslow in the dark ( 100 pmol m^–2 s^–1) and is light-activated(pH_o 7.51.3 nmol m^–2 s^–1, pH_o 10600 pmol m^–2s^–1). Uptake has an irreversible requirement for Mg²⁺in the medium. Uptake in the light is strongly Na⁺-dependent.Phosphate uptake was negatively electrogenic (net negative chargetaken up when transporting phosphate) at pH_o 7.5, but positivelyelectrogenic at pH_o 10. This seems to exclude a sodium motiveforce driven mechanism. An ATP-driven phosphate uptake mechanismneeds to have a stoichiometry of one phosphate taken up perATP (1 PO_{4 in}/ATP) to be thermodynamically possible under allthe conditions tested in the present study. (Received June 16, 1997; Accepted September 4, 1997)     

Modulation of K+ channels by arachidonic acid in T84 cells. II. Activation of a Ca2+-independent K+ channel

We usedsingle-channel recording techniques to identify and characterize alarge-conductance,Ca²⁺-independentK⁺ channel in the colonicsecretory cell line T84. In symmetric potassium gluconate, this channelhad a linear current-voltage relationship with a single-channelconductance of 161 pS. Channel open probability(P_o) wasincreased at depolarizing potentials. Partial substitution of bathK⁺ withNa⁺ indicated a permeability ratioof K⁺ toNa⁺ of 25:1. ChannelP_o was reduced byextracellular Ba²⁺. Event-durationanalysis suggested a linear kinetic model for channel gating having asingle open state and three closed states: C₃C₂C₁O.Arachidonic acid (AA) increased theP_o of thechannel, with an apparent stimulatory constant(K_s)of 1.39 µM. Neither channel open time (O) nor the fast closed time(C₁) was affected by AA. Incontrast, AA dramatically reduced mean closed time by decreasing bothC₃ andC₂. Thecis-unsaturated fatty acid linoleate increased P_oalso, whereas the saturated fatty acid myristate and thetrans-unsaturated fatty acid elaidatedid not affectP_o. This channelis activated also by negative pressure applied to the pipette duringinside-out recording. Thus we determined the effect of thestretch-activated channel blockers amiloride and Gd³⁺ on theK⁺ channel after activation by AA.Amiloride (2 mM) on the extracellular side reduced single-channelamplitude in a voltage-dependent manner, whereasGd³⁺ (100 µM) had no effect onchannel activity. Activation of this K⁺ channel may be important duringstimulation of Cl secretionby agonists that use AA as a second messenger (e.g., vasoactiveintestinal polypeptide, adenosine) or during the volume regulatoryresponse to cell swelling.

     

Redox states of type 1 ryanodine receptor alter Ca(2+) release channel response to modulators

The type 1 ryanodinereceptor (RyR1) from rabbit skeletal muscle displayed two distinctdegrees of response to cytoplasmic Ca²⁺ [high- andlow-open probability (P_o) channels]. Here, weexamined the effects of adenine nucleotides and caffeine on thesechannels and their modulations by sulfhydryl reagents.High-P_o channels showed biphasicCa²⁺ dependence and were activated by adenine nucleotidesand caffeine. Unexpectedly, low-P_o channels didnot respond to either modulator. The addition of a reducing reagent,dithiothreitol, to the cis side converted thehigh-P_o channel to a state similar to that ofthe low-P_o channel. Treatment withp-chloromercuriphenylsulfonic acid (pCMPS) transformedlow-P_o channels to ahigh-P_o channel-like state with stimulation by,-methylene-ATP and caffeine. In experiments under redox controlusing glutathione buffers, shift of the cis potential towardthe oxidative state activated the low-P_ochannel, similar to that of the high-P_o or thepCMPS-treated channel, whereas reductive changes inactivated thehigh-P_o channel. Changes in transredox potential, in contrast, did not affect channel activity ofeither channel. In all experiments, channels with higherP_o were stimulated to a great extent bymodulators, but ones with lower P_o wereunresponsive. These results suggest that redox states of criticalsulfhydryls located on the cytoplasmic side of the RyR1 may alter bothgating properties of the channel and responsiveness to channel modulators.

     

Mechanical and metabolic determination of VO2 and fatigue during repetitive isometric contractions in situ

Repetitiveisometric tetanic contractions (1/s) of the caninegastrocnemius-plantaris muscle were studied either at optimal length(L_o) or shortlength (L_s;~0.9 · L_o),to determine the effects of initial length on mechanical and metabolicperformance in situ. Respective averages of mechanical and metabolicvariables were(L_o vs.L_s, allP < 0.05) passive tension (preload) = 55 vs. 6 g/g, maximal active tetanic tension(P_o) = 544 vs. 174 (0.38 · P_o)g/g, maximal blood flow () = 2.0 vs. 1.4 ml · min¹ · g¹,and maximal oxygen uptake(O₂) = 12 vs. 9 µmol · min¹ · g¹.Tension at L_odecreased to0.64 · P_o over20 min of repetitive contractions, demonstrating fatigue; there were nosignificant changes in tension atL_s. In separatemuscles contracting atL_o, was set to that measured atL_s (1.1 ml · min¹ · g¹),resulting in decreased O₂(7 µmol · min¹ · g¹),and rapid fatigue, to0.44 · P_o. Thesedata demonstrate that 1)muscles at L_ohave higher andO₂ values than those at L_s;2) fatigue occurs atL_o with highO₂, adjusting metabolic demand (tension output) to match supply; and3) the lack of fatigue atL_s with lowertension, , andO₂ suggestsadequate matching of metabolic demand, set low by shortmuscle length, with supply optimized by low preload. Thesedifferences in tension andO₂ betweenL_o andL_s groupsindicate that muscles contracting isometrically at initial lengthsshorter than L_oare working under submaximal conditions.

     

Secretory modulation of basolateral membrane inwardly rectified K(+) channel in guinea pig distal colonic crypts

Cell-attached recordings revealedK⁺ channel activity in basolateral membranes ofguinea pig distal colonic crypts. Inwardly rectified currents wereapparent with a pipette solution containing 140 mM K⁺.Single-channel conductance () was 9 pS at the resting membrane potential. Another inward rectifier with  of 19 pS was observed occasionally. At a holding potential of 80 mV,  was 21 and 41 pS,respectively. Identity as K⁺ channels was confirmed afterpatch excision by changing the bath ion composition. From reversalpotentials, relative permeability of Na⁺ overK⁺ (P_Na/P_K)was 0.02 ± 0.02, withP_Rb/P_K = 1.1 andP_Cl/P_K < 0.03. Spontaneous open probability (P_o) of the 9-pSinward rectifier (^gpK_ir) was voltageindependent in cell-attached patches. Both a low(P_o = 0.09 ± 0.01) and a moderate(P_o = 0.41 ± 0.01) activity mode wereobserved. Excision moved ^gpK_ir to the mediumactivity mode; P_o of^gpK_ir was independent of bath Ca²⁺activity and bath acidification. Addition of Cl andK⁺ secretagogues altered P_o of^gpK_ir. Forskolin or carbachol (10 µM)activated the small-conductance ^gpK_ir inquiescent patches and increased P_o inlow-activity patches. K⁺ secretagogues, either epinephrine(5 µM) or prostaglandin E₂ (100 nM), decreasedP_o of ^gpK_ir in activepatches. This ^gpK_ir may be involved inelectrogenic secretion of Cl and K⁺ acrossthe colonic epithelium, which requires a large basolateral membraneK⁺ conductance during maximal Cl secretionand, presumably, a lower K⁺ conductance during primaryelectrogenic K⁺ secretion.

     

Intracellular pH shifts in cultured kidney (A6) cells: effects on apical Na+ transport

We report, for the epithelialNa⁺ channel (ENaC) in A6 cells,the modulation by cell pH (pH_c)of the transepithelial Na⁺ current(I_Na), thecurrent through the individual Na⁺channel (i), the openNa⁺ channel density(N_o), and thekinetic parameters of the relationship betweenI_Na and theapical Na⁺ concentration. Thei andN_o were evaluatedfrom the Lorentzian I_Na noise inducedby the apical Na⁺ channel blocker6-chloro-3,5-diaminopyrazine-2-carboxamide.pH_c shifts were induced, understrict and volume-controlled experimental conditions, byapical/basolateral NH₄Cl pulses orbasolateral arrest of theNa⁺/H⁺exchanger (Na⁺ removal; block byethylisopropylamiloride) and were measured with the pH-sensitive probe2',7'-bis(2-carboxyethyl)-5(6)-carboxyfluorescein. Thechanges in pH_c were positivelycorrelated to changes inI_Na and theapically dominated transepithelial conductance. The sole pH_c-sensitive parameter underlyingI_Na wasN_o. Only thesaturation value of theI_Na kinetics wassubject to changes in pH_c.pH_c-dependent changes inN_o may be causedby influencingP_o, the ENaC openprobability, or/and the total channel number,N_T = N_o/P_o.

     

Time-dependent stimulation by aldosterone of blocker-sensitive ENaCs in A6 epithelia

To study and define the early time-dependent response (6 h) ofblocker-sensitive epithelial Na⁺channels (ENaCs) to stimulation ofNa⁺ transport by aldosterone, weused a new modified method of blocker-induced noise analysis todetermine the changes of single-channel current (i_Na) channel open probability(P_o), andchannel density(N_T) undertransient conditions of transport as measured by macroscopic short-circuit currents(I_sc). In threegroups of experiments in which spontaneous baseline rates of transportaveraged 1.06, 5.40, and 15.14 µA/cm², stimulation of transportoccurred due to increase of blocker-sensitive channels.N_T variedlinearly over a 70-fold range of transport (0.5-35µA/cm²). Relatively small andslow time-dependent but aldosterone-independent decreases ofP_o occurredduring control (10-20% over 2 h) and aldosterone experimentalperiods (10-30% over 6 h). When theP_o of control andaldosterone-treated tissues was examined over the 70-fold extendedrange of Na⁺ transport,P_o was observedto vary inversely withI_sc, falling from~0.5 to ~0.15 at the highest rates ofNa⁺ transport or ~25% per3-fold increase of transport. Because decreases ofP_o from anysource cannot explain stimulation of transport by aldosterone, it isconcluded that the early time-dependent stimulation ofNa⁺ transport in A6 epithelia isdue exclusively to increase of apical membraneN_T.

     

Ca2+ sensitivity of BK channels in GH3 cells involves cytosolic phospholipase A2

To test thehypothesis that intracellular Ca²⁺activation of large-conductanceCa²⁺-activatedK⁺ (BK) channels involves thecytosolic form of phospholipase A₂ (cPLA₂), we first inhibited theexpression of cPLA₂ by treating GH₃ cells with antisenseoligonucleotides directed at the two possible translation start siteson cPLA₂. Western blot analysis and a biochemical assay of cPLA₂activity showed marked inhibition of the expression ofcPLA₂ in antisense-treated cells.We then examined the effects of intracellularCa²⁺ concentration([Ca²⁺]_i)on single BK channels from these cells. Open channel probability (P_o) for thecells exposed to cPLA₂ antisenseoligonucleotides in 0.1 µM intracellularCa²⁺ was significantly lower thanin untreated or sense oligonucleotide-treated cells, but the voltagesensitivity did not change (measured as the slope of theP_o-voltagerelationship). In fact, a 1,000-fold increase in[Ca²⁺]_ifrom 0.1 to 100 µM did not significantly increaseP_oin these cells, whereas BK channels from cells in the other treatmentgroups showed a normalP_o-[Ca²⁺]_iresponse. Finally, we examined the effect of exogenous arachidonic acidon theP_oof BK channels from antisense-treated cells. Although arachidonic aciddid significantly increaseP_o,it did so without restoring the[Ca²⁺]_isensitivity observed in untreated cells. We conclude that although [Ca²⁺]_idoes impart some basal activity to BK channels inGH₃ cells, the steepP_o-[Ca²⁺]_irelationship that is characteristic of these channels involves cPLA₂.

     

Effect of temperature on induction and production of flowers in Lemna paucicostata 6746 in uninterrupted and interrupted darkness

Effects of temperatures ranging from 16 to 31^?C on inductionand production of flowers in Lemna paucicostata 6746 were studiedin uninterrupted and interrupted darkness. In uninterrupted darkness, the growth rate (a) and floweringratio () increased and the flower production period (P₄) decreasedas the temperature rose. On the contrary, the pre-flower inductionperiod (P₁) and the flower induction period (P₂) were independentof temperature except that P₂ was remarkably extended at 31^?C.Thus, a, and P₄ may be rate-limited by chemical reactions andP₁ and P₂ by physical reactions. P₂ started at the onset ofdarkness. A red light pulse given 7 hr after the start of the dark periodextended P₁, P₂ and P₄ without modifying a and at any temperature.The pulse extended P₁ by one day irrespective of temperature,and the sensitivity of P₁ to the pulse was constant at all temperatures.The red light pulse caused obvious extensions of P₂ and P₄ at21–26^?C, but no extension at lower and higher temperatures.Thus, the extension of P₁ by red light seems to be rate-limitedby a physical reaction and those of P₂ and P₄ by chemical reactions. (Received September 26, 1978; )     

Stomatal Functioning of In Vitro and Greenhouse Apple Leaves in Darkness, Mannitol, ABA, and CO2

Leaves from in vitro and greenhouse cultured plants of Malusdomestica (Borkh.) cv. Mark were subjected to 4 h of darkness;4 h of 1 M mannitol induced water stress; 1 h of 10^–4M to 10^–7 M cis-trans abscisic acid (ABA) treatment; 1h of 0.12% atmospheric CO₂. Stomatal closure was determinedby microscopic examination of leaf imprints. In all treatments,less than 5% of the stomata from leaves of in vitro culturedplants were closed. The diameter of open stomata on leaves fromin vitro culture remained at 8 µm. In contrast, an averageof 96% of the stomata on leaves of greenhouse grown plants wereclosed after 4 h in darkness; 56% after 4 h of mannitol inducedwater stress; 90% after 1 h of 10^–4 M ABA treatment; 61%after 1 h in an atmosphere of 0.12% CO₂. Stomata of in vitroapple leaves did not seem to have a closure mechanism, but acquiredone during acclimatization to the greenhouse environment. Thelack of stomatal closure in in vitro plants was the main causeof rapid water loss during transfer to low relative humidity.     

Effect of red light pulse on induction and production of flowers in a short-day duckweed, Lemna paucicostata 6746, in darkness

Flowering (number of flowers) of a short-day duckweed, Lemnapaucicostata 6746, in continuous darkness at 26^?C was affectedby a red light pulse in various ways depending on the time ofapplication. A conspicuous inhibition and a slight promotionwere respectively caused by the pulse given at the 7th and 19thhours of the dark period. Of the recently introduced floral parameters (4), a (vegetativegrowth rate) and (flowering ratio) were almost unchanged bythe pulse given at any time. P₁ (pre-flower induction period)was extended by one day when the pulse was given at about the7th hour of the dark period. The pulse greatly extended P₂ (flowerinduction period) when given at about the 7th hour of the darkperiod. A pulse given earlier or later was increasingly ineffectiveon P₂. P₄ (flower production period) changed rhythmically (i.e.,was extended or shortened) with the time of the red light pulse,the maximum extension and shortening being induced by the pulsegiven at about the 7th and 19th hours, respectively. Differenttiming mechanisms were suggested as controlling the sensitivitiesto the red light pulse of P₁ and P₂ or P₄. The floral response (number of flowers) vs. the red light pulseapplication time curve was explained in terms of the sum ofthe responses of P₂ and P₄ to the pulse. Floral parameters P₁and P₂ were defined more clearly. (Received September 4, 1978; )     

Changes of action potentials and force at lowered [Na+]o in mouse skeletal muscle: implications for fatigue

We examined 1) whether the effects of lowered trans-sarcolemmal Na⁺ gradient on force differed between nonfatigued fast- and slow-twitch muscles of mice and 2) whether effects on action potentials could explain the decrease of force. The Na⁺ gradient was reduced by lowering the extracellular [Na⁺] ([Na⁺]_o). The peak force-[Na⁺]_o relationships for the twitch and tetanus were the same in nonfatigued extensor digitorum longus and soleus muscles: force was maintained over a large range of [Na⁺]_o and then decreased abruptly over a much smaller range. However, fatigue was significantly exacerbated at a lowered [Na⁺]_o that had little effect in nonfatigued soleus muscle. This finding suggests that substantial differences exist in the Na⁺ effect on force between nonfatigued and fatigued muscle. The reduced contractility in nonfatigued muscles at lowered [Na⁺]_o was largely due to 1) an increased number of inexcitable fibers and threshold for action potentials, 2) a reduction of action potential amplitude, and 3) a reduced capacity to generate action potentials throughout trains. sodium gradient; muscle contraction; action potential train; extensor digitorum longus; soleus     

Flower-Promoting Effects of Iron and EDDHA in Lemna paucicostata 151

Lemna paucicostata 151 cultured in 1/10 strength M medium containing50 µM FeCl₃ easily flowered in response to short days,although it scarcely flowered under any photoperiod when themedium contained the standard amount of iron (2 µM FeCl₃).The flowering response was accomparied by an increase in theiron content of the plants, which was maximal at pH 5.0. Instandard M medium containing 50 µM FeCl³, this plant didnot flower even though it had a high iron content. Ethylenediamine-di (o-hydroxyphenylacetic acid) (EDDHA) inducedflowering of this strain under continuous light even in theabsence of iron and copper, and its effect was slightly loweredby the presence of iron in the medium. Thus the flower-inducingactivity of EDDHA could not be attributed to the action of ironor copper. EDTA inhibited both the iron uptake and floweringin Fe-rich medium under short-day conditions. (Received May 16, 1986; Accepted July 25, 1986)