Effect of membrane potential on furosemide-inhibitable sodium influxes in human red blood cells

Summary Furosemide-inhibitable Na influx (a measure of Na/K/Cl cotransport) was determined as a function of membrane potential in human red blood cells. The membrane potential was varied from –42 to +118 mV using valinomycin and gradients of K. The furosemide-inhibitable, unidirectional Na influx was independent of membrane potential over the entire range of potentials. The change in flux per mV, 0.443 mol/(liter cells·hr· mV), was not significantly different from zero. The mean flux was 153±16mol/(liter cells·hr) (±sem,n=71). The ouabain and furosemide-resistant influexes of Na and K were also measured as functions of membrane potential using either valinomycin and K or a chloride-free, tartrate flux medium to vary membrane potential. The unidirectional Na influx decreased slightly as the membrane potential was increased from negative potentials to about +10 mV. At higher membrane potentials Na influx rose dramatically with potential. This increase was not reversible and was also observed with K influx.     

Elemental composition of arbuscular mycorrhizal fungi at high salinity

We investigated the elemental composition of spores and hyphae of arbuscular mycorrhizal fungi (AMF) collected from two saline sites at the desert border in Tunisia, and of Glomus intraradices grown in vitro with or without addition of NaCl to the medium, by proton-induced X-ray emission. We compared the elemental composition of the field AMF to those of the soil and the associated plants. The spores and hyphae from the saline soils showed strongly elevated levels of Ca, Cl, Mg, Fe, Si, and K compared to their growth environment. In contrast, the spores of both the field-derived AMF and the in vitro grown G. intraradices contained lower or not elevated Na levels compared to their growth environment. This resulted in higher K:Na and Ca:Na ratios in spores than in soil, but lower than in the associated plants for the field AMF. The K:Na and Ca:Na ratios of G. intraradices grown in monoxenic cultures were also in the same range as those of the field AMF and did not change even when those ratios in the growth medium were lowered several orders of magnitude by adding NaCl. These results indicate that AMF can selectively take up elements such as K and Ca, which act as osmotic equivalents while they avoid uptake of toxic Na. This could make them important in the alleviation of salinity stress in their plant hosts.     

Voltage dependence of Na/K pump current inXenopus oocytes

Summary Stage V and VI (Dumont, J.N., 1972.J. Morphol. 136:153–180) oocytes ofXenopus laevis were treated with collagenase to remove follicular cells and were placed in K-free solution for 2 to 4 days to elevate internal [Na]. Na/K pump activity was studied by restoring the eggs to normal 3mm K Barth's solution and measuring membrane current-voltage (I–V) relationships before and after the addition of 10 m dihydroouabain (DHO) using a two-microelectrode voltage clamp. Two pulse protocols were used to measure membraneI–V relationships, both allowing membrane currents to be determined twice at each of a series of membrane potentials: (i) a down-up-down sequence of 5 mV, 1-sec stair steps and (ii) a similar sequence of 1-sec voltage pulses but with consecutive pulses separated by 4-sec recovery periods at the holding potential (–40 mV). The resulting membraneI–V relationships determined both before and during exposure to DHO showed significant hysteresis between the first and second current measurements at each voltage. DHO difference curves also usually showed hysteresis indicating that DHO caused a change in a component of current that varied with time. Since, by definition, the steady-state Na/K pumpI–V relationship must be free of hysteresis, the presence of hysteresis in DHO differenceI–V curves can be used as a criterion for excluding such data from consideration as a valid measure of the Na/K pumpI–V relationship. DHO differenceI–V relationships that did not show hysteresis were sigmoid functions of membrane potential when measured in normal (90mm) external Na solution. The Na/K pump current magnitude saturated near 0 mV at a value of 1.0–1.5 A cm^–2, without evidence of negative slope conductance for potentials up to +55 mV. The Na/K pump current magnitude in Na-free external solution was approximately voltage independent. Since these forward-going Na/K pumpI–V relationships do not show a region of negative slope over the voltage range –110 to +55 mV, it is not necessary to postulate the existence of more than one voltage-dependent step in the reaction cycle of the forward-going Na/K pump.     

Membrane Potential Measurements in Cultured Intestinal Villi

Fragmented epithelia of newborn rat small intestine were successfully cultured for periods of up to 4 weeks. Stable intracellular recordings of membrane potential were obtained from these cultured cells. Membrane resting potential varied according to cell location along a villus. The potentials ranged from -70 to -15 mV, being highest at the tip of the villus. The mean resting potential and membrane resistance were -72.4 mV and 8.6 M Ω, respectively. The membrane potential was markedly dependent on the extracellular K⁺ concentration ([K]₀], but not significantly on [Na]₀ and [Cl]₀-Deprivation of Ca²⁺ from the surrounding medium depolarized the membrane by 20 mV. When the cells were cooled down to 6°C, membrane potential was reduced by 40 mV. Based on these data, basic mechanisms underlying the resting potential are discussed in connection with cell differentiation or maturation.     

Intracellular ionic activities and transmembrane electrochemical potential differences in gallbladder epithelium

Summary Intracellular ion activities inNecturus gallbladder epithelium were measured with liquid ion-exchanger microelectrodes. Mean values for K, Cl and Na activities were 87, 35 and 22mm, respectively. The intracellular activities of both K and Cl are above their respective equilibrium values, whereas the Na activity is far below. This indicates that K and Cl are transported uphill toward the cell interior, whereas Na is extruded against its electrochemical gradient. The epithelium transports NaCl from mucosa to serosa. From the data presented and the known Na and Cl conductances of the cell membranes, we conclude that neutral transport driven by the Na electrochemical potential difference can account for NaCl entry at the apical membrane. At the basolateral membrane, Na is actively transported. Because of the low Cl conductance of the membrane, only a small fraction of Cl transport can be explained by diffusion. These data suggest that Cl transport across the basolateral membrane is a coupled process which involves a neutral NaCl pump, downhill KCl transport, or a Cl-anion exchange system.     

Element localisation and distribution in the fungi Aureobasidium pullulans and Aspergillus niger, measured using the Oxford scanning proton microprobe

The distribution and relative concentrations of essential elements were determined in germ tubes of Aureobasidium pullulans and hyphae of Aspergillus niger using the Oxford scanning proton microprobe. In both fungi, K, P and S were the major constituents, with Ca, Na and trace metals like Cu, Mn, Fe and Zn present at lower levels. In A. pullulans, elements were not distributed uniformly throughout the cells and, in general, the highest elemental concentrations occurred at the tip and in the older parts of the germ tube, particularly where there was yeast-like cell or branch development. In A. niger, elemental distribution was more uniform and there was a general gradient of increasing concentration away from the hyphal tip followed by a drop in levels in older regions. The scanning proton microprobe appears to have considerable potential for the investigation of fungal differentiation and morphogenesis.     

Effects of internal Na and external K concentrations on Na/K coupling of Na,K-pump in frog skeletal muscle

Summary To clarify the dependency of the Na/K coupling of the Na,K-pump on internal Na and external K concentrations in skeletal muscle, the ouabain-induced change in membrane potential, the ouabain-induced change in Na efflux and the membrane resistance were measured at various internal Na and external K concentrations in bullfrog sartorius muscle.Upon raising the internal Na concentration from 6 mmol/kg muscle water to 20 mmol/kg muscle water, the magnitude of the ouabain-induced change in membrane potential increased about eightfold and the magnitude of the ouabain-induced change in Na efflux increased about fivefold while the membrane resistance was not significantly changed. As the external K concentration increased from 1 to 10mm, the magnitude of the ouabain-induced change in membrane potential decreased (1/5.5 fold), while the magnitude of the ouabain-induced change in Na efflux increased (about 1.5-fold). The membrane resistance decreased upon raising the external K concentration from 1 to 10mm (1/2-fold). These observations imply that the values of the Na/K coupling of the Na,K-pump increases upon raising the internal Na concentration and decreases upon raising the external K concentration.     

Calcium-dependent sodium current in the marine ciliateEuplotes vannus

Summary Ca and Na inward currents were recorded upon depolarizations inEuplotes after the blockage of K outward currents with intracellular Cs ions. The Na current was analyzed under voltage clamp and had the following properties: it activated to a maximum within 150 msec and partly inactivated during sustained voltage steps. It had a positive equilibrium potential between 25 and 30 mV and could be carried by Na or Li ions but not by K, choline or Tris ions. The current revealed a prominent associated inward tail current which deactivated with a single-exponential time constant of 118 msec. Both the current and its tail were strongly reduced after reduction of the extracellular Na concentration. Externally applied K channel blocker tetraethylammonium chloride did not block the current. Either EGTA injection into the cell or nonlethal deciliation with ethanol eliminated the current and its tail. These results indicate the existence of a Na conductance within the membrane ofEuplotes which is activated by the intracellular level of free Ca²⁺.     

Hyphal tip organization inAllomyces arbuscula

Summary Light and electron microscopic observations on vegetative hyphae ofAllomyces arbuscula revealed the specialized organization of the tip. There were some minor differences related to culture conditions, but the main ultrastructural features common to all hyphal tips disclosed a special type of organization distinct from that of other fungi. A crescent-shaped apical zone consisted of vesicles and membrane cisternae embedded in a granular matrix. Vesicles fused with the apical plasmalemma and presumably contributed to its expansion and to wall growth. The apical zone contained few ribosomes and generally no other organelles. Mitochondria were concentrated in the immediate subapical zone and scattered through the remainder of the hyphae, as were microbodies. Microtubules formed an asterlike structure with its center in the apical zone. Proximally of the apex, microtubules were axially oriented. Nuclei occurred only a certain distance from the tip. The elements of the apex may maintain the polarity of the hyphae via a gradient and hold it in a state of vegetative growth.     

Increasing phosphorus concentration in the extraradical hyphae of <Emphasis Type="Italic">Rhizophagus irregularis</Emphasis> DAOM 197198 leads to a concomitant increase in metal minerals

Plants associated with arbuscular mycorrhizal fungi (AMF) acquire phosphorus via roots and extraradical hyphae. How soil P level affects P accumulation within hyphae and how P in hyphae influences the accumulation of metal minerals remains little explored. A bi-compartmented in vitro cultivation system separating a root compartment (RC), containing a Ri T-DNA transformed carrot root associated to the AMF Rhizophagus irregularis DAOM 197198, from a hyphal compartment (HC), containing only the extraradical hyphae, was used. The HC contained a liquid growth medium (i.e., the modified Strullu-Romand medium containing P in the form of KH₂PO₄) without (0 μM) or adjusted to 35, 100, and 700 μM of KH₂PO₄. The accumulation of P and metal minerals (Ca, Mg, K, Na, Fe, Cu, Mn) within extraradical hyphae and AMF-colonized roots, and the expression of the phosphate transporter gene GintPT were assessed. The expression of GintPT in the extraradical hyphae did not differ in absence of KH₂PO₄ or in presence of 35 and 100 μM KH₂PO₄ in the HC but was markedly reduced in presence of 700 μM KH₂PO₄. Hyphal P concentration was significantly lowest in absence of KH₂PO₄, intermediate at 35 and 100 μM KH₂PO₄ and significantly highest in presence of 700 μM KH₂PO₄ in the HC. The concentrations of K, Mg, and Na were positively associated with the concentration of P in the extraradical hyphae developing in the HC. Similarly, P concentration in extraradical hyphae in the HC was related to P concentration in the growth medium and influenced the concentration of K, Mg, and Na. The accumulation of the metal mineral K, Mg, and Na in the extraradical hyphae developing in the HC was possibly related to their function in neutralizing the negative charges of PolyP accumulated in the hyphae.     

Ultrastructure of freeze-substituted hyphae of the basidiomyceteLaetisaria arvalis

Summary The ultrastructure of freeze-substituted (FS) hyphae ofLaetisaria arvalis is described and compared to that of similar hyphae preserved by conventional chemical fixation (CF). The outline of membrane-bound organelles as well as the plasma membrane was smooth in FS cells. In contrast, hyphae preserved by CF exhibited membrane profiles that were extremely irregular. Centers of presumed Golgi activity were best preserved by FS. Microvesicles, 27–45 nm diameter and hexagonal in transverse section, were observed most readily in FS cells. Filasomes (= microvesicles within a filamentous matrix) were only observed in FS cells. Apical vesicles, 70–120 nm diameter, associated with the centers of Golgi activity and within the Spitzenkörper region exhibited finely granular matrices in FS hyphae, whereas in CF hyphae the contents were coarsely fibrous and less electron-dense. Microvesicles were present at hyphal apices and regions of septa formation. Filasomes were also found at regions of septa formation as well as along lateral hyphal tip cell walls. Microvesicles, but not filasomes, were observed in membrane-bound vesicles (= multivesicular bodies) and in larger vacuoles. Filaments, 5.2–5.4 nm wide, were juxtaposed with centripetally developing septa. Cytoplasmic inclusions, 20–40 m in length, composed of bundles of 6.7–8.0 nm wide filaments were observed in both FS and CF hyphae.     

Effect of the arbuscular mycorrhizal symbiosis upon uptake of cesium and other cations by plants

Pot experiments were set up to determine the species-specific uptake of cesium (Cs) by mycorrhizal (AM) and non-mycorrhizal (non-AM) plants. Using stable Cs and K application, side-effects of mineral fertilization (K) on AM development and uptake of Cs and the other cations Na, Ca and Mg were investigated. AM colonization by the fungus Glomus mosseae led to a significant decrease in shoot Cs content of Agrostis tenuis from the first (4 weeks) to the third harvest (8 weeks). With regard to the root system, statistically significant differences were observed from the first (4 weeks) to the second harvest (6 weeks). Supply of additional K produced a significant decrease in Cs uptake by both AM and non-AM plants over a 10-week period. In the case of AM plant shoots, K fertilization did not very effectively reduce Cs uptake by A. tenuis. Cs contents of fertilized AM roots were similar to non-AM controls. Potassium application resulted in an increase in K content and a slight reduction in Na and Mg contents of shoots and roots. Without K fertilization, the Na content of non-AM controls was significantly enhanced over AM shoots. Shoot and root Ca contents were generally higher without than with K addition. Negative side-effects of K fertilization as a countermeasure to Cs uptake were not observed in relation to AM development. The intensity of colonization by G. mosseae was not significantly depressed by K treatment. AM development in plants appeared to decrease Cs uptake, at least at moderate nutrient levels. It is possible that Cs is sequestered by AM extraradical fungal hyphae and consequently not transferred to the plant to the extent found in non-AM roots. Accepted: 6 November 2000     

Effect of amiloride on the apical cell membrane cation channels of a sodium-absorbing,potassium-secreting renal epithelium

Summary The effect of the K-sparing diuretic amiloride was assessed electrophysiologically in the isolated cortical collecting tubule of the rabbit, a segment which absorbs Na and secretes K. Low concentrations of amiloride in the perfusate caused a rapid, reversible, decrease in the magnitude of the lumen negative transepithelial potential difference,V _te, transepithelial conductanceG _te, and equivalent short-circuit current,I _sc, with an apparentK _1/2 of approximately 7×10^–8 m. The effects of a maximum inhibitory concentration of amiloride (10^–5 m) were identical to those observed upon Na removal from lumen and bath (Na removal from the bath alone has no effect). Removal of Na in the presence of 10^–5 m amiloride had no affect onV _te,G _te, orI _sc, and is consistent with the view that amiloride blocks the Na conductive pathways of the apical cell membrane. Further, in the absence of Na, the subsequent addition of amiloride had no influence. In tubules where active Na absorption was either spontaneously low, or abolished by removal of Na from lumen and bath, the elevation of K from 5 to 155 meq/liter in the perfusate caused a marked change of theV _te in the negative direction and an increase in theG _te. These effects could be attributed to a high K permeability of the apical cell membrane and not of the tight junctions. Amiloride (10^–5 m) had no effect on these responses to K. It is concluded that amiloride selectively blocks the apical cell membrane Na channels but has no effect on the K conductive pathways(s). This selective nature of amiloride may indicate that Na and K are transported across the apical cell membrane via separate conductive pathways.     

Ustilago maydisMating Hyphae Orient Their Growth toward Pheromone Sources

Snetselaar, K. M., Bölker, M., and Kahmann, R. 1996.Ustilago maydismating hyphae orient their growth toward pheromone sources.Fungal Genetics and Biology20,299–312. When small drops ofUstilago maydissporidia were placed 100–200 μm apart on agar surfaces and covered with paraffin oil, sporidia from one drop formed thin hyphae that grew in a zig-zag fashion toward the other drop if it contained sporidia making the appropriate pheromone. For example,a2b2mating hyphae grew towarda1b1anda1b2mating hyphae, and the filaments eventually fused tip to tip. Time-lapse photography indicated that the mating hyphae can rapidly change orientation in response to nearby compatible sporidia. When exposed to pheromone produced by cells in an adjacent drop, haploid sporidia with thea2allele began elongating before sporidia with thea1allele. Sporidia without functional pheromone genes responded to pheromone although they did not induce a response, and sporidia without pheromone receptors induced formation of mating hyphae although they did not form mating hyphae. Diploid sporidia heterozygous atbbut not ataformed straight, rigid, aerial filaments when exposed to pheromone produced by the appropriate haploid sporidia. Again, thea2a2b1b2strain formed filaments more quickly than thea1a1b1b2strain. Taken together, these results suggest that thea2pheromone diffuses less readily or is degraded more quickly than thea1pheromone.     

PERITHECIAL FORMATION IN GELASINOSPORA RETICULISPORA. I. EFFECTS OF LIGHT AT TWO DIFFERENT GROWTH STATES

Hyphae of Gelasinospora reticulispora were cultured on corn meal agar in a growth tube at 25 ± 0.4°C under different light conditions. While the hyphal tip was growing, perithecia were not formed under continuous white light (ca. 2000 ergs cm^?2 sec^?1), but some perithecia were initiated in total darkness. However, when white light was given after a dark period, perithecial formation was greatly promoted. In these cases, perithecial formation occurred in older portion of the culture (the portion nearest the point of inoculation) at first, and then gradually spread to the younger portion. Immediately after the tip of hyphae reached the other end of the growth tube, perithecia were induced in the youngest portion of the hyphae irrespective of the photoconditions; then formation proceeded toward the older portion. This induction was not age-dependent, because in growth tubes with different lengths, perithecia always became visible ca. 24 hr after the tip of hyphae reached the other end of growth tube. The photoinhibitory effect was no longer observed thereafter, but photopromotive effect was still evident.     

Ion transport and permeability in the mouse egg

Sodium, potassium, and chloride unidirectional fluxes have been studied in the mature mouse egg. Their relationship to cell membrane potential and conductance has been investigated. Unidirectional Na efflux is composed of a ouabain sensitive component, presumably representing an active Na efflux, an external Na-dependent component and a diffusional component. The data indicate that the external Na-dependent component represents a Na:Na exchange mechanism. There also exists an ouabain-sensitive component of K influx. The stoichiometry of the ouabain-sensitive fluxes is approx. 2.7:1 (Na to K). From the diffusional components of Na and K flux, the membrane permeability to these cations has been estimated. P_Na and P_K are 1.2 × 10⁻⁷ cm sec⁻¹ and 0.8 × 10⁻⁷ cm sec⁻¹ respectively. These permeabilities, in conjunction with the internal exchangeable fractions of Na and K and the external concentrations, predict an egg membrane potential of −11 mV (inside negative). Microelectrode measurements yield an egg membrane potential of −14 ± 0.4 mV, indicating that the cell membrane potential is predominantly a result of the Na and K permeabilities and distributions. Internal exchangeable Cl is 67 ± 3 mM in standard medium, as determined from ³⁶Cl distribution. The chloride equilibrium potential is therefore −15 mV, which is not significantly different from the egg membrane potential. This suggests that Cl distributes passively across the egg membrane, reflecting the egg membrane potential. Hyperpolarization of the egg membrane potential to −27 ± 1.5 mV by reduction of external Na results in an exchangeable internal Cl of 49 ± 8 mM. This yields a Cl equilibrium potential of −24 mV, indicating that the Cl distribution shifts in the predicted manner upon a change in cell membrane potential. Tracer flux data indicate that Cl conductance comprises the bulk of the total membrane conductance with Na and K sharing the remainder in approximately equal amounts.     

Electrophysiological investigation of the amino acid carrier selectivity in epithelial cells fromXenopus embryo

Summary The electrical responses induced by external applications of neutral amino acids were used to determine whether different carriers are expressed in the membrane of embryonic epithelial cells ofXenopus laevis. Competition experiments were performed under voltage-clamp conditions at constant membrane potential.Gly,l-Ala,l-Pro,l-Ser,l-Asn andl-Gln generate electrical responses with similar apparent kinetic constants and compete for the same carrier. They are [Na] _o and voltage-dependent, insensitive to variations in [Cl] _o and [HCO₃] _o , inhibited by pH _o changes, by amiloride and, for a large fraction of the current, by MeAIB. The increase in [K] _o at constant and negative membrane potential reduces the response, whereas lowering [K] _o augments it. l-Leu,l-Phe andl-Pro appear to compete for another carrier. They generate electrogenic responses insensitive to amiloride and MeAIB, as well as to alterations of membrane potential, [Na] _o and [K] _o . Lowering [Cl] _o decreases their size, whereas increasing [HCO₃] _o at neutral pH _o increases it.It is concluded that at least two and possibly three transport systems (A, ASC and L) are expressed in the membrane of the embryonic cells studied. An unexpected electrogenic character of the L system is revealed by the present study and seems to be indirectly linked to the transport function. l-Pro seems to be transported by system A or ASC in the presence of Na and by system L in the absence of Na. MeAIB induces an inward current.     

Dynamics of mitochondria during the <Emphasis Type="Italic">Neurospora crassa</Emphasis> tip growth

Tip growth of the mycelial fungus N. crassa vegetative hyphae is realized owing to the combined activities of tens of the cells and diverse intracellular structures, such as microvesicles, microtubules, microfilaments, mitochondria, etc. Using a vital mitochondrial probe Mitotracker Red (10 μM, 10 min) we have found that the same mitochondria can move hundreds of microns along the hyphae within several hours. Analysis of the mitochondria distribution along 100 μm of the tips in intact hyphae as well as in the isolated apical fragments has shown that the congregation of mitochondria in the growing tips can correlate with the rate of elongation. These data together with the earlier electrophysiological estimations of the membrane potential gradients along the hyphal tips suggest that the electrical gradients along the hyphal apical part can be involved in the regulation of the energy supply of the tip growth.     

Involvement of the cytoskeleton in the intracellular distribution of mannoproteins in hyphal cells ofCandida albicans

Cylindrical growth of fungal hyphae requires spatial organization of secretion to the growing tip. In order to better understand the involvement of the cytoskeleton in the spatial control of the secretion, we examined the effects of two anti-cytoskeletal drugs, benomyl and cytochalasin A, on the intracellular distribution of mannoproteins, a major secreted component of the cell wall, in hyphal cells of the dimorphic yeastCandida albicans. The distribution of the mannoproteins was assessed by epifluorescence microscopy with a fluorescence-labelled lentil lectin (FITC-LCA). Brefeldin A, an inhibitor of secretory transport, induced a localized accumulation of the mannopolysaccharides near the tip as previously reported (Akashiet al. 1997). Benomyl, an inhibitor of microtubules, disrupted the localized accumulation of the polysaccharides. Cytochalasin A, an inhibitor of actin, caused a localized accumulation of the polysaccharides near the tip, where Golgi-like cisternae were also accumulated. Both cytochalasin A and brefeldin A caused some modifications of the actinnnetwork, but neither disturbed the polarization of actin and neither affected the microtubule network. Our results suggested that the microtubules are involved in membrane trafficking in hyphal growth as well as the cell polarity of the hyphae.     

Rapid transcriptional regulation of the Cab and pEA207 gene families in peas by blue light in the absence of cytoplasmic protein synthesis

Automated methods of peak determination including peak location, background determination and peak deconvolution are presented. Special attention is given to the problem of severely overlapped peaks, such as the primary calcium peak (Ca_ka) and the secondary potassium peak (K_k). A method, based on the principle of electronic transitional probabilities, is presented for estimating Ca in the presence of a high background of K, and limitations of resolution are discussed. Minimally detectable concentrations of elements in prepared frozen-hydrated standards are estimated empirically by analysis of the relative variance. Minimally detectable Ca is estimated in both frozen-hydrated and freeze-dried tissue standards. Using our instrumentation and procedures P, S, Cl and K are detectable down to 24 mM, while Na and Mg are only detectable down to 38 mM in frozen-hydrated tissue. In the presence of 100 mM K, detection of calcium is possible down to 22 and 2 mM in frozen-hydrated and freeze-dried tissue, respectively. As an example, total Ca is shown not to conform to the radial gradient of K across the lettuce (Lactuca sativa L.) taproot.Abbreviations COV coefficient of variation - EPMA electronprobe microanalysis - P/B peak to background ratio This work was supported by U. S. Department of Agriculture grant 87-CRCR-1-2462. The authors would also like to acknowledge the assistance of Dr. R. Falk (Botany) and R.B. Addison (Facility for Advanced Instrumentation) of the University of California, Davis.