The nutritional status of the apical meristem of Lactuca sativa as affected by NaCl salinization: An electron-probe microanalytic study

A volume of tissue of lettuce (Lactuca sativa L.) plants extending 2 mm basipetally from the apical meristem and including leaf primordia and young expanding leaves was surveyed using electron-probe microanalysis (EPMA) on both frozen-hydrated and freeze-dried samples. This analysis was carried out either 2 or 5 d following NaCl salinization of the medium from the 10 mol · m^–-3 control level up to 80 mol · m^–-3. The objective was the investigation of possible changes in the nutritional status of the apical meristem that might account for some aspects of salt-induced growth inhibition. Sodium and chloride increased significantly in tissues basal to the apical meristem, while both phosphorus and potassium decreased in the same region. These changes were evident in specimens collected just 2 d after the commencement of salinization (20 h after completion of the salinization) and were not exacerbated by an additional 3 d of treatment; they were present in tissue as close as 100 m to the meristem and extending down to 500 m. The apical 10–50 m were relatively protected from both the increase in sodium and chloride and the decrease in phosphorus and potassium that occurred in more basal regions. Young leaves (up to 1.5 mm in length) appear to control their own mineral nutrient levels when challenged by salinization of the medium, presumably because of altered growth. A decrease in the concentration of total Ca as a result of salinization was significant in cells 500 m basal to the meristem, but was evident as a tendency in the data even within the first 50 m. Using an improved automatic method for the analysis of calcium by EPMA, it was found that total Ca was reduced by salinization, especially in basal regions (500 m below the apex) and also in young leaves (1–1.5 mm in length). We suggest that the nutrition of the shoot apical meristem may be disturbed soon after salinization and that the shoot meristem might be the source of a signal to expanding leaves, as well as exerting its own direct influence over leaf emergence.Abbreviation EPMA electron-probe microanalysis This work was supported by U.S. Department of Agriculture grant 87-CRCR-1-2462.     

Quantitative energy dispersive X-ray microanalysis of eight elements in pancreatic endocrine and exocrine cells after cryo-fixation

Quantitative X-ray microanalysis of 8 elements was performed on ultrathin, freeze-dried sections of islets and pancreas pieces from non-inbredob/ob-mice. Diffusion of elements was reduced to a minimum by rapidly freezing the tissue samples between nitrogen-cooled polished copper surfaces and avoiding the use of chemical fixatives and stains. The ultrastructural morphology was adequately maintained to allow measurements on secretory granules, mitochondria, cell nuclei, and cytoplasm free of these organelles. The distribution of the various elements between cellular compartments was similar in islet -cells and exocrine pancreas cells. However, the insulin secretory granules were outstanding in exhibiting the highest concentrations of zinc and calcium. In comparison with cytoplasm in the -cells, the insulin granules accumulated calcium 2-fold and zinc as much as 40-fold. As no correlation could be made for endoplasmic reticulum in the cytoplasmic measurements areas, the true accumulations above cytosol are likely to be even higher.     

Polyphosphate granules are an artefact of specimen preparation in the ectomycorrhizal fungusPisolithus tinctorius

Summary Polyphosphate granules are precipitated in the vacuoles of the ectomycorrhizal fungusPisolithus tinctorius (Pers.) Coker & Couch by various treatments, including conventional specimen preparation. Granules are not produced by glutaraldehyde fixation but appear at early stages of ethanol dehydration and are visible with Nomarski DIC microscopy. They show -metachromasy with toluidine blue O at low pH, are extracted by cold trichloroacetic acid and contain phosphorus and calcium as demonstrated by X-ray microanalysis. The granules are surrounded by electron-lucent areas that do not contain these elements at detectable levels. In contrast, vacuoles of freeze-substituted hyphae contain evenly dispersed flocculent material. Phosphorus and potassium are distributed more or less uniformly throughout, but calcium is not detected. This indicates that polyphosphate is present in the vacuole of living hyphae in soluble form and is precipitated to form granules by various treatments. It is thought that granules form when membranes, including the tonoplast, become leaky and there is an influx of precipitating ions such as calcium.Abbreviations DIC differential interference contrast - GMA glycol methacrylate - MMN modified Melin Norkrans - NMR nuclear magnetic resonance - P_i inorganic phosphate - STEM scanning transmission electron microscope     

Differences in calcium efficiency between cowpea (Vigna unguiculata (L.) Walp.) cultivars

The cowpea (Vigna unguiculata (L.) Walp.) cultivars TVu 354 and Solojo were grown in solution culture at 10 to 1000 M Ca supply. The Ca supply did not vary by more than 10% during the experiment. The pH value was kept constant within 0.1 units at 4.0 by automatic titration. The cultivar TVu 354 proved to be much more Ca-efficient than Solojo. At 10 M Ca supply Solojo died, whereas TVu 354 was hardly affected in dry matter production. The differences in Ca efficiency were independent of the P supply. They could not be explained by differences in Ca uptake or Ca concentrations in the plant tissue. Short-term studies using ⁴⁵Ca, both in the dark and in the light, indicated better transport of Ca from the roots to the shoots and within the shoots to the younger leaves in the Ca-efficient cultivar TVu 354. However, the main reason for the differences between the cultivars in sensitivity to low Ca supply were differences in the Ca requirement of the plant tissue to maintain tissue organization and function. Sequential fractionation of the freeze-dried leaf tissue with hot water, 0.5 M NaCl, 1 M CH₃COOH, and 2 M HCl did not reveal cultivar differences in Ca binding state. The results clearly show that considerable genetic potential in tolerance to low Ca supply exists in cowpea. However, a better understanding of the physiological/biochemical reasons for low internal Ca requirement is needed.     

Quantitative X-ray microanalysis of calcium with the Camebax-TEM system in frozen,freeze-substituted and resin-embedded tissue sections

Summary The relevance of the continuum method for a quantitative X-ray microanalysis of epon embedded tissue sections in the particular conditions offered by the Camebax-TEM system was tested and an improved model of specimen holder is proposed.The absolute calcium concentration [Ca] of membrane-bound intracellular glio-interstitial granules was determined by X-ray microanalysis in transmission electron microscopy of Mytilus retractor muscle. The Ca peak and background values were measured by the wavelength-dispersive spectrometer of the Camebax; the mass thickness of the section was recorded simultaneously with an added energy-dispersive detector. The tissue was frozen at 77 K in a mixture of liquid propane and butane, freeze-substituted in the presence of oxalic acid and embedded in epoxy resin. The calcium concentration of glio-intestitial granules can be as high as 180 mmol·kg^–1 of epoxy-embedded tissue, with an average of 40 mmol·kg^–1. The sampling of the data through repcated experiments is discussed and it is proposed that the cell would be the main level of variation. The Ca content of glio-interstitial granules is significantly lower in the tissbes of animals submitted to high-potassium artificial seawater for 10 min. This finding was predicted by the hypothesis that glio-interstitial tissue is a regulator of calcium concentration in extracellular spaces.     

Stimulus-permeability coupling in rat pulmonary macrophages challenged by Pseudomonas aeruginosa

Summary Electron probe X-ray microanalysis (XRMA) of freeze-dried ultrathin sections provides the capability of measuring intracellular elemental content. This methodology was used to investigate the stimulus-permeability coupling responses associated with phagocytosis of Pseudomonas aeruginosa by cultured pulmonary alveolar macrophages (PAMs) of rats. PAMs were challenged with P. aeruginosa suspended in Gey's buffer at a bacteria to PAM ratio of 501 for 1 h at 37° C. A 1-mm³ pellet of the unchallenged control PAMs, challenged PAMs and P. aeruginosa alone was quench-frozen in nitrogen-cooled, liquid propane, and 0.1-m cryosections were cut at -100° C. X-ray spectra were collected for nucleus and cytoplasm of 39 control PAMs, 36 challenged PAMs and 40 P. aeruginosa. Concentrations (mmole/kg dry weight) were obtained for Na, Cl, K, Ca, Mg, P, S for each cell. In the control PAMs, the content was similar to other mammalian cells. Moreover, there were no differences in elemental content between nucleus and cytoplasm. In the challenged PAMs, Na concentration was 4 times that of control PAMs (p<0.001) whereas Cl was double (p<0.001), K was 29% lower (p<0.001), and Ca was 4 times higher (p<0.05). The elemental concentration profile in the P. aeruginosa was distinctly different from that of the PAMs: higher Na, Ca, Mg, but lower Cl and K values. These results demonstrate elemental content changes in cultured PAMs challenged with P. aeruginosa that indicate a stimulus-permeability response by membranes associated with the phagocytic process.     

Influence of aluminium and nitrogen on uptake and distribution of minerals in beech roots (Fagus sylvatica)

Beech seedlings (Fagus sylvatica L. provenance Västra Torup) were grown in nutrient solution at low pH (4.2) and exposed to AlCl₃ and different concentrations of nitrogen. The effects of AlCl₃ and nitrogen on uptake of Ca²⁺ (⁴⁵Ca) and H₂PO₄ ^- (³²P) in roots of intact beech were studied. Crossections of roots were analyzed with respect to element concentrations, by use of Mikro-PIXE (particle induced X-ray emission). The distribution of Al, Ca, P, Mg, K, and S was analysed. The experiments were designed to evaluate the effects of aluminium on localization of elements in plant root tissue.Aluminium reduced the concentration of Ca in plants and increased that of K. High nitrogen levels in the solution further decreased the concentration of Ca in the roots. Aluminium (1.0 mM) effectively reduced the Ca²⁺ (⁴⁵Ca) uptake in short time experiments. Aluminium accumulated in high concentration (up to 500 mol/g dry weight in areas of 30×30 m²) on the root surface, epidermis and outer layers of cortex. Corresponding areas had an extremely low Ca concentration (ca 5 mol/g dry weight) which could be harmful for regulation of mineral uptake and development of roots.It is concluded that the calcium concentration in roots was reduced by aluminium. The combination with high nitrogen levels further reduced calcium changing the mineral balance which could result in deficiency conditions of calcium in the root.     

X-ray microanalysis and chlorotetracycline staining of calcium vesicles in the green alga Mougeotia

Calcium ions have been proposed to play a key role in the sensory transduction of phytochrome-governed chloroplast movement in the green alga Mougeotia. To test this hypothesis, the intracellular pattern of calcium distribution was studied in this alga by two independent techniques, namely, X-ray microanalysis of fixed and of unfixed frozen-hydrated cells, as well as in vivo fluorescence by chlorotetracycline. Both methods of detection reveal a significant compartmentation of calcium in vesicles close to the chloroplast edge and, less frequently, in the cortical cytoplasm. Microfilaments, presumably actin, which could function in driving chloroplast movement, have been observed running between the chloroplast edge and the cortical cytoplasm (Wagner, G., Klein, K. (1978) Photochem. Photobiol. 27, 137). The vesicular calcium concentration is stable and decays only slowly in the absence of extracellular calcium much in the same way as the ability of the chloroplast to perform movements decreases. A functional relationship between vesicular calcium compartmentation and phytochrome-governed chloroplast movement in the green alga Mougeotia seems indicated.Abbreviation CTC chlorotetracycline     

Concentrations of inorganic and organic solutes in extracts from individual epidermal,mesophyll and bundle-sheath cells of barley leaves

The distribution of solutes between epidermal, mesophyll and bundle-sheath cells in barley (Hordeum vulgare L. cv. Klaxon) leaves was studied by analysing extracts obtained from single cells with a modified pressure probe. Activity of the cytoplasmic marker enzyme, malate dehydrogenase, revealed that epidermal cell extracts were completely vacuolar in origin, but extracts from mesophyll cells also contained cytoplasmic constituents. The extracts were analysed for osmolality and the concentrations of K, Na, Ca, Cl, P, S, NO ₃ ^– , sugars and total amino acids. Epidermal and mesophyll cell extracts had similar osmolalities but these varied between 420 and 565 mosmol, kg ¹ depending on the leaf developmental stage; the osmolality of bundle-sheath extracts was approximately 100 mosmol, kg^–1 lower. Under the growth conditions used, K and NO ₃ ^– were found in all three cell types and their concentrations generally ranged between 180 and 230 mM. In contrast, Ca was almost restricted to epidermal cells, where it increased to 70 mM during leaf ageing. Phosphorus was only detectable ( 5 mM) in extracts from mesophyll and bundle-sheath cells, while Cl concentrations were highest in epidermal and lowest in mesophyll cell extracts. The concentrations of sugars and amino acids were close to the detection limit (approx. 2 mM) in epidermal cells but mesophyll cells contained total sugar (glucose, fructose and sucrose) of up to 78 mM and total amino-acid concentrations of up to 13.5 mM. Concentrations in bundle-sheath cells were intermediate between those in the epidermis and mesophyll.Abbreviations EDX analysis energy dispersive X-ray analysis - MDH malate dehydrogenase We wish to thank Paul Richardson, Jeremy Pritchard, Peter Hinde and Andrew Davies (Banger) for their helpfull discussion and technical advice. This work was financed by a grant (LR5/521) from the Agricultural and Food Research Council.     

Myocardial content of selected elements in experimental anthracycline-induced cardiomyopathy in rabbits

Cardiotoxicity represents the main drawback of clinical usefulness of anthracycline antineoplastic drugs. In this study, a content of selected elements (Ca, Mg, K, Se, Fe) in the post-mortem removed samples of the myocardial tissue was studied in three groups of rabbits: 1) control group (i.v. saline; n = 10); 2) daunorubicin-receiving animals (DAU; 3 mg/kg, i.v; n=11); 3) animals receiving cardioprotective iron-chelating agent dexrazoxane (DEX; 60 mg/kg, i.p.; n=5) prior to DAU. Drugs were administered once weekly for 10 weeks. 5–7 days after the last administration, cardiac left ventricular contractility (dP/dt_max) was significantly decreased in DAU-treated animals (745 ± 69 versus 1245 ± 86 kPa/s in the control group; P < 0.05), while in the DEX+DAU group it was insignificantly increased (1411 ± 77 kPa/s). Of the myocardial elements content studied, a significant increase in total Ca against control (16.2 ± 2.4 versus 10.6 ± 0.9 g/g of dry tissue; P < 0.05) was determined in the DAU-group, which was accompanied with significant decreases in Mg and K. In the heart tissue of DEX-pretreated animals, no significant changes of elements content were found as compared to controls, while the Ca content was in these animals significantly lower than in the DAU group (9.1 ± 0.4 versus 16.2 ± 2.4 g/g; P < 0.05). Hence, in this study we show that systolic heart failure induced by chronic DAU administration is primarily accompanied by persistent calcium overload of cardiac tissue and the protective action of DEX is associated with the restoration of normal myocardial Ca content.Published online: March 2005     

Cationic responses of organs and haemolymph of Biomphalaria pfeifferi (Krauss), Biomphalaria glabrata (Say) and Helisoma trivolvis (Say) (Gastropoda: Planorbirdae) to cationic alterations of the medium

The cationic responses of haemolymph, mantle collar, headfoot, gut + digestive diverticulum and ovotestis + albumin gland of three planorbids to cationic changes in the media are explored. Body organs exhibited cationic homeostasis, although attained with difficulty under very low Ca : Mg and Ca : Na ratios. Haemolymph imbalances were obtained at very low calcium concentrations and at very low Ca : Mg and Ca : Na ratios in the medium; this may be linked to competition for Ca²⁺ uptake sites in the epithelium by Mg²⁺ and possibly Na⁺ ions.Fecundity and shell growth in relation to calcium concentrations and to Ca : Mg and Ca : Na ratios are examined.Normal internal cationic levels, under optimal conditions, were obtained for each species. Significant interspecific differences for haemolymph sodium were found; magnesium levels were slightly higher in Biomphalaria spp. than in Helisoma trivolvis; potassium levels were all similar. Amounts of tissue calcium decreased as follows: Mantle collar head-foot ovotestis + albumin gland-gut + diverticulum. Tissue magnesium levels in the gut were low. H. trivolvis had highest tissue calcium and sodium; B. glabrata had highest tissue potassium.     

Intracellular water and dry mass content as measured in bulk specimens by energy-dispersive X-ray microanalysis

Intracellular water content (IWC) was measured in freeze-fractured biological bulk specimens by means of energy-dispersive X-ray microanalysis. The method is based on the concentration differences of certain elements (potassium and phosphorus) between frozen-hydrated and frozen-dried states of the tissues as applied formerly to sectioned material by others. A new mathematical formula has been derived giving rather precise figures for IWC. No elemental standards are necessary for the measurement: one has to obtain only the peak to background ratios in wet and dry states of the cells. The method is sensitive enough to reveal age-dependent as well as drug-induced changes of IWC in liver and brain cells. The values obtained are quite comparable with the theoretically expected ones. Technical problems of the application of this method are discussed in detail.     

Transport processes in stimulated and non-stimulated leaves of Mimosa pudica

Summary Using energy-dispersive X-ray microanalysis, the concentrations of ions, especially potassium and chlorine, were determined in different tissues of primary and tertiary pulvini of Mimosa pudica. It was shown that stimulating the leaf was followed by ion displacements which were most striking in the outer extensor cells, resulting in turgor loss. Since Ca concentration remains relatively constant in cell walls of collapsed cells, the changes of K concentration are best described by the K:Ca ratio. After stimulation the K:Ca ratio dropped in the outer extensor of the primary pulvinus from 775.3 to 2.37 in the cytoplasm, and from 542.2 to 9.25 in the cell wall. Changes in chlorine content were less striking in the primary pulvinus. The KCl ratios in some cases were lower than 1.0, which indicates that Cl content can increase, while K content is diminished. In the non-stimulated tertiary pulvini the outer extensor cells show high concentrations of Cl, but much lower Cl concentrations were found after stimulation. In contrast to the primary pulvinus the K content of the tertiary pulvini is very low. In the vascular tissues of both primary and tertiary pulvini stimulation is followed by a release of K and Cl out of the sieve element cytoplasm into the apoplast. K then appears accumulated in the cell walls of the collenchymatous tissue. These displacements lead to the assumption that the collenchymatous apoplast temporarily functions as a reservoir for K and to a lesser extent for Cl. With regard to the mechanism of leaf movement after stimulation, the accumulation of ions in the apoplast seems to be initiated by the decrease of water potential triggered by an apoplastic accumulation of unloaded sucrose (Fromm and Eschrich 1988a). The resulting turgor release in the outer extensor is accompanied by an efflux of ions.Supported by the Deutsche Forschungsgemeinschaft     

Quenching of a proton gradient and concomitant increase of intragranular calcium in interstitial cells of Mytilus retractor muscle

Summary The content of specific glio-interstitial granules in situ was studied in Mytilus retractor muscle using fluorescent probes and X-ray microanalysis. The granules readily take up the fluorescent monoamine dye acridine orange added to sea water (2.7×10^-6 M) and appear red in fluorescence microscopy. The addition of ammonium chloride (10 mM) or various proton ionophores results in extinction of the granule fluorescence. In addition, a step-wise decrease in granule fluorescence is observed when the tissue is perfused with artificial sea water of decreasing pH. These granules thus appear to be acidic inside. The animals were maintained in artificial sea water containing 8.36 mM Ca²⁺ and 528.90 mM Na⁺, the ratio R=[Ca²⁺]₀/[Na⁺]² ₀ being thus equal to 3x10^-5. Perfusions of the tissue with artificial sea water containing a higher calcium concentration (12.2 mM) and/or a higher [Ca²⁺]₀/[Na⁺]² ₀ ratio (R=4.5×10^-5) result in a drastic reduction of the proton gradient, evidenced by a quenching of the acridine orange fluorescence. Under the same conditions, a significant increase of the total intragranular calcium concentration was demonstrated by quantitative X-ray micro-analysis of the tissue processed by quick freezing and freeze-substitution in the presence of oxalic acid. The fluorescence of the probe Fluo-3/AM, indicative of ionized calcium, is higher in the granules than in the surrounding cytoplasm; this suggests that calcium is accumulated in the granule against its concentration gradient. The acidic gradient of specific glio-interstitial cell granules could provide the energy needed for this calcium accumulation through a Ca²⁺/H⁺ exchange. These results are discussed with regard to the hypothesis that the glio-interstitial tissue can regulate pericellular calcium and/or hydrogen ion ioncentration in the vicinity of nerve and muscle cells.     

Comparison of calcium-current in isolated atrial myocytes from failing and nonfailing human hearts

To identify possible alterations of the L-type calcium currents (I_Ca,L) in cardiomyopathy, I_Ca,L were recorded in atrial myocytes dissociated from the nonfailing heart (NF) of patients undergoing corrective open-heart surgery and explanted failing heart (FH) of patients with dilated cardiomyopathy undergoing heart transplantation. The patch-clamp technique was applied in the single-electrode whole-cell mode. The electrophysiological properties of I_Ca,L, including cell capacitance and current density, were similar in atrial myocytes from both groups of patients. Further to identify possible alterations of the myocardial beta-adrenergic pathway in cardiomyopathy, we examined the effects of isoproterenol, forskolin, 8-Br-cAMP and IBMX on I_Ca,L in both groups of atrial myocytes. Perfusion of isoproterenol (1 M) significantly increased the peak I_Ca,L by 515 ± 44% in 6 atrial myocytes from NF but increased only by 135 ± 25% in 27 atrial myocytes from FH. However, forskolin (1 M) or 8-Br-cAMP (0.1 mM) increased the peak I_Ca,L to a similar extent in atrial myocytes from NF and FH. IBMX (20 M) also induced a comparable increase in the peak I_Ca,L by 213 ± 31% (n=5) and 207 ± 59% (n=4) in atrial myocytes from NF and FH, respectively. The above findings suggest that in atrial myocytes obtained from FH the beta-adrenoceptor numbers might be decreased but no impairment of the signal transduction cascade occurred beyond the GTP binding proteins level.     

A study of methods for in situ X-ray energy dispersive analysis of polyphosphate bodies in Plectonema boryanum

A variety of preparative methods for in situ X-ray energy dispersive analysis were tested to determine their effects on the elemental composition of polyphosphate bodies in P. boryanum. The bodies were found to contain large amounts of P and K and small amounts of Ca and Mg. Air drying, freeze-drying and freeze-drying from a liquid nitrogen slush all gave similar results. Fixation of the cells in glutaraldehyde and/or OsO₄ resulted in loss of the K and enhancement of the Ca peak. Magnesium was lost during embedding in epoxy.     

Measurement of Total Calcium in Neurons by Electron Probe X-ray Microanalysis

In this article the tools, techniques, and instruments appropriate for quantitative measurements of intracellular elemental content using the technique known as electron probe microanalysis (EPMA) are described. Intramitochondrial calcium is a particular focus because of the critical role that mitochondrial calcium overload plays in neurodegenerative diseases. The method is based on the analysis of X-rays generated in an electron microscope (EM) by interaction of an electron beam with the specimen. In order to maintain the native distribution of diffusible elements in electron microscopy specimens, EPMA requires "cryofixation" of tissue followed by the preparation of ultrathin cryosections. Rapid freezing of cultured cells or organotypic slice cultures is carried out by plunge freezing in liquid ethane or by slam freezing against a cold metal block, respectively. Cryosections nominally 80 nm thick are cut dry with a diamond knife at ca. -160 °C, mounted on carbon/pioloform-coated copper grids, and cryotransferred into a cryo-EM using a specialized cryospecimen holder. After visual survey and location mapping at ≤-160 °C and low electron dose, frozen-hydrated cryosections are freeze-dried at -100 °C for ~30 min. Organelle-level images of dried cryosections are recorded, also at low dose, by means of a slow-scan CCD camera and subcellular regions of interest selected for analysis. X-rays emitted from ROIs by a stationary, focused, high-intensity electron probe are collected by an energy-dispersive X-ray (EDX) spectrometer, processed by associated electronics, and presented as an X-ray spectrum, that is, a plot of X-ray intensity vs. energy. Additional software facilitates: 1) identification of elemental components by their "characteristic" peak energies and fingerprint; and 2) quantitative analysis by extraction of peak areas/background. This paper concludes with two examples that illustrate typical EPMA applications, one in which mitochondrial calcium analysis provided critical insight into mechanisms of excitotoxic injury and another that revealed the basis of ischemia resistance.     

Relationship between calcium and agar on vitrification and shoot-tip necrosis of quince (Cydonia oblonga Mill.) shoots in vitro

Shoot-tip cultures of Quince C (Cydonia oblonga Mill.) initiated on Murashige & Skoog (MS) medium containing 5 M BA and 0.6% Phytagar showed both shoot-tip necrosis and severe vitrification. Culturing explants on medium containing 1.2% Phytagar and Ca levels of 3 mM (MS medium), 18 mM and 30 mM showed a decrease in growth with increasing medium Ca levels, being especially severe at 30 mM. The Ca content of the explants increased linearly with increasing medium Ca. Culturing explants on medium containing 3 mM, 9 mM, and 18 mM Ca at 0.6, 0.9, and 1.2% agar resulted in reduction in growth, shoot-tip necrosis, and vitrification when either factor was increased. The reduction in shoot-tip necrosis could be accounted for primarily by an increase in medium Ca levels but may also be affected by a change in explant growth. Increasing Ca concentration in the medium resulted in a linear increase in explant K, Ca, Mg, and B levels and a decrease in Mn and Na. Although increasing medium Ca or agar levels reduced vitrification, it is unclear whether they were the direct cause of the reduction in vitrification or whether this response was an effect of the reduction in culture fresh weight.Approved by publication by the Director, West Virginia Agriculture anf Forestry Experimental Station as Scientific Article No. 2199     

Heterogeneity of calcium compartmentation: Electron probe analysis of renal tubules

Summary The objective of this study has been to determine the intracellular localization of calcium in cryofixed, cryosectioned suspensions of kidney proximal tubules using quantitative electron probe X-ray microanalysis. Two populations of cells have been identified: 1) Viable cells, representing the majority of cells probed, are defined by their relatively normal K/Na concentration ratio of 41. Their measured Ca content is 4.1±1.4 (sem) mmol/kg dry wt in the cytoplasm and 3.1 ± 1.1 mmol/kg dry wt in the mitochondria, or an average cell calcium content of 3.8 mmol/kg dry wt. 2) Nonviable cells, defined by the presence of dense inclusions in their mitochondria and a K/Na concentration ratio of 1. The Ca content is 15±2 mmol/kg dry wt in the cytoplasm and 685±139 mmol/kg dry wt in the mitochondria of such cells. Assuming 25 to 30% of the cell volume is mitochondrial, the overall calcium content of such nonviable cells is 210 mmol/kg dry wt. The presence of these inclusions in 4 to 5% of the cells would account for the average total Ca content measured in perchloric acid extracts of isolated proximal tubule suspensions ( 18 nmol/mg protein or 12.6 mmol/kg dry wt). Whole kidney tissues display a large variability in toal Ca content (4.5 to 18 nmol/mg protein, or 3.4 to 13.5 mmol/kg dry wt), which could be accounted for by inclusion in 0 to 4% of the cells. The electron probe X-ray microanalysis (EPXMA) data conclusively demonstrate that thein situ mitochondrial Ca content of viable cells from the kidney, proximal tubule is low and support the idea that mitochondrial Ca may regulate dehydrogenase activity but probably does not normally control cytosolic free Ca.