Structure and Function of Transfer Cells in the Sporophyte Haustorium of Funaria hygrometrica Hedw: III. TRANSLOCATION OF ASSIMILATE INTO THE ATTACHED SPOROPHYTE AND ALONG THE SETA OF ATTACHED AND EXCISED SPOROPHYTES

Translocation of products of photosynthesis from gametophyteto sporophyte was examined in the moss Funaria hygrometricaHedw., as an adjunct to companion studies on the ultrastructureof the sporophyte haustorium and its capacity for absorptionof sugars in vitro. Labelled products derived from gametophyticphotosynthesis are transported to the sporophyte at an approximatelylinear rate for up to 12 h after a pulse treatment with ¹⁴CO₂.Large sporophytes receive label at a greater rate than smallerones. Transport is inhibited under conditions of water stress,and by lack of light, though darkening the sporophyte alonehas no effect. Movement of label from the haustorium along theseta occurs at a velocity of 1–3 mm h^–1, and issimilar to the onward movement of label derived from [³H]glucosesupplied to the haustorium in vitro.     

Structure and Function of Transfer Cells in the Sporophyte Haustorium of Funaria hygrometrica Hedw: II. KINETICS OF UPTAKE OF LABELLED SUGARS AND LOCALIZATION OF ABSORBED PRODUCTS BY FREEZE-SUBSTITUTION AND AUTORADIOGRAPHY

Excised sporophytes of the moss Funaria hygrometrica Hedw. absorbexternally applied sugar through their basal haustorium. Influxof [³H]sucrose is inhibited by metabolic uncouplers, darkness,and by the photosynthetic inhibitor DCMU. The kinetics of uptakeof glucose and sucrose suggest a biphasic mechanism of absorption.Uptake of 3-O-methyl [³H]glucose shows no saturation characteristicsand a passive mechanism is indicated. Externally applied glucoseis rapidly converted to sucrose. Good retention of productsof short-term absorption and metabolism of [³H]glucose was achievedby freeze-substitution. Autoradiography showed dense and uniformlabelling of the transfer cells of the haustorium. V_max valuesfor uptake of sucrose and glucose, expressed in terms of theweight and external surface area of haustorium, are considerablygreater than typical values from other plant systems. However,if the surface area amplification that is brought about by thedevelopment of wall ingrowths in the transfer cells is takeninto account, fluxes per unit area of plasma membrane are reducedinto the range of typical values. The hypothesis that the surfacearea amplification that characterizes transfer cells is relatedfunctionally to processes of solute transport is therefore supportedby the data.     

Physiological Aspects of Sugar Exchange between the Gametophyte and the Sporophyte of Polytrichum formosum

The sporophyte of bryophytes is dependent on the gametophyte for its carbon nutrition. This is especially true of the sporophytes of Polytrichum species, and it was generally thought that sucrose was the main form of sugar for long distance transport in the leptom. In Polytrichum formosum, sucrose was the main soluble sugar of the sporophyte and gametophyte tissues, and the highest concentration (about 230 mm) was found in the haustorium. In contrast, sugars collected from the vaginula apoplast were mainly hexoses, with traces of sucrose and trehalose. p-Chloromercuribenzene sulfonate, a nonpermeant inhibitor of the cell wall invertase, strongly reduced the hexose to sucrose ratio. The highest cell wall invertase activity (pH 4.5) was located in the vaginula, whereas the highest activity of a soluble invertase (pH 7.0) was found in both the vaginula and the haustorium. Glucose uptake was carrier-mediated but only weakly dependent on the external pH and the transmembrane electrical gradient, in contrast to amino acid uptake (S. Renault, C. Despeghel-Caussin, J.L. Bonnemain, S. Delrot [1989] Plant Physiol 90: 913-920). Furthermore, addition of 5 or 50 mm glucose to the incubation medium induced a marginal depolarization of the transmembrane potential difference of the transfer cells and had no effect on the pH of this medium. Glucose was converted to sucrose after its absorption into the haustorium. These results demonstrate the noncontinuity of sucrose at the gametophyte/sporophyte interface. They suggest that its conversion to glucose and fructose at this interface, and the subsequent reconversion to sucrose after hexose absorption by haustorium cells, mainly governs sugar accumulation in this latter organ.     

Taurine Transport in N-deprived Chlorella fusca

The development of taurine uptake into the unicellular greenalga Chlorella fusca 211-8b was characterized as a specificresponse to either nitrate or sulphate limitation. Taurine transportunder nitrogen starvation was stimulated by low pH and showeda biphasic kinetics with K_m-values of 1.1 x 10^–3 mol dm^–3and 1.0 x 10^–2 mol dm^–3. Uptake was substantiallyinhibited by all - and ß-amino acids tested, whereassulphonate analogues failed to diminish taurine accumulation.Thus, uptake seemed to be mediated by a ‘general aminoacid permease’, unable to discriminate between carboxyland sulphonyl groups. However, Chlorella fusca could not catabolizethis unusual ß-amino acid and mobilize the amino-boundnitrogen for growth. Only a small group of -amino acids supportedthe growth of Chlorella fusca as an efficient nitrogen source. Key words: Taurine uptake, nitrogen starvation, amino acid uptake, Chlorella fusca.     

Cloning and functional characterization of a new subtype of the amino acid transport system N

We have cloned a new subtype of theamino acid transport system N2 (SN2 or second subtype of system N) fromrat brain. Rat SN2 consists of 471 amino acids and belongs to therecently identified glutamine transporter gene family that consists ofsystem N and system A. Rat SN2 exhibits 63% identity with rat SN1. Italso shows considerable sequence identity (50-56%) with themembers of the amino acid transporter A subfamily. In the rat, SN2 mRNA is most abundant in the liver but is detectable in the brain, lung,stomach, kidney, testis, and spleen. When expressed in Xenopus laevis oocytes and in mammalian cells, rat SN2 mediatesNa⁺-dependent transport of several neutral amino acids,including glycine, asparagine, alanine, serine, glutamine, andhistidine. The transport process is electrogenic, Li⁺tolerant, and pH sensitive. The transport mechanism involves the influxof Na⁺ and amino acids coupled to the efflux ofH⁺, resulting in intracellular alkalization. Proline,-(methylamino)isobutyric acid, and anionic and cationic amino acidsare not recognized by rat SN2.

     

The Proton Electrochemical Transmembrane Gradients Generated by the Transfer Cells of the Haustorium of Polytrichum formosum and Their Use in the Uptake of Amino Acids

The epidermal cells of the sporophyte haustorium of Polytrichum formosum are modified into transfer cells. These cells are located in a strategic place allowing them to control the exchanges between the two generations. Their plasmalemma creates proton gradients (Δψ and ΔpH) which increase during the development of the sporophyte. As the sporophyte grows from 2 to 4 cm long, the pH of the incubation medium of the haustoria decreases from 5.2 to 4.3, and the transmembrane potential difference (PD) hyperpolarizes form −140 to −210 millivolts. These gradients become rapidly larger than that generated by the plasmalemma of the basal cells of the sporophyte. They are used to energize the uptake of the solutes present in the apoplast of the gametophyte, particularly the amino acids. Below 20 micromolar α-aminoisobutyric acid uptake in the transfer cells is mediated by a saturable system and is optimal at acidic pH (4.0 and 4.5). It is strongly inhibited by compounds dissipating both Δψ and ΔpH (10 micromolar carbonylcyanide-m-chlorophenyl hydrazone) or only Δψ (0.1 molar KCl). The absorption of α-aminoisobutyric acid and of the other neutral amino acids tested induces an alkalinization of the medium and a depolarization of membrane potential difference which is concentration dependent. These data show that the uptake of amino acids by the transfer cells of the haustorium is a secondary translocation (proton-amino acid symport) energized by a primary translocation (proton efflux). More particularly, they show that transfer cells possess a membrane enzymic equipment particularly efficient to achieve the uptake of the solutes leaked in the apoplast from other cell types.     

ORIGIN OF AMINO ACIDS CONSTITUTING CELLULAR PROTEIN IN GERMINATING CONIDIOSPORES OF ASPERGILLUS NIGER

Formation of pool amino acids in germinating spores of Aspergillusniger strain 1617 was investigated. The pool amino acids comprisedmainly glutamic acid and alanine. Small amounts of pyruvateand -ketoglutarate were found to increase almost in parallelwith the course of increase in the amount of free amino acidsup to the stage of onset of active protein synthesis. Asparticglutamictransaminase activity was exhibited even in dormant spores andit developed in response to the increase in cellular protein.Alanine-glutamic transaminase activity, on the other hand, waslacking in dormant spores and appeared at the stage of accumulationof amino acids preceding protein synthesis. It was revealed from the experiments with ³⁵S-labeled sporesthat the dormant spores of this fungus contain two unidentifiedsulfur substances, and the sulfur of these substances is incorporatedinto the sulfur amino acids of the protein synthesized in germinatingspores. ¹Present address: Institute of Applied Microbiology, Universityof Tokyo, Tokyo (Received September 11, 1959; )     

Effect of Potassium on Sucrose and Amino Acid Release from the Seed Coat of Developing Seeds of Pisum sativum

After removal of the embryo from developing seeds of Pisum sativum,the ‘empty’ ovules (seed coats without enclosedembryo) were filled with a solution (pH 5.5) containing mannitol(usually 400 mM) to which various salts were added. A solutioncontaining two isotopes ((a) [²H]-sucrose/[–¹⁴C]aminoisobutyricacid (AIB) or (b) [³H]valine/[₁₄C]asparagine mixture) was administeredto the plant via the petiole subtending the fruiting node, and[²H]solute and [¹⁴C]solute unloading from the seed coat wasmeasured, in pulse-labelling experiments of about 5 h. The presenceof 25 or 50 mM K⁺ in the ‘empty’ ovule enhancedthe release of sucrose from the seed coat particularly duringthe first hours of the experiment, but the stimulating effectof K⁺ on the release of labelled solutes derived from aminoacids was much smaller. The presence of 25 mM CaCl₂ did notaffect the release of sucrose or amino acids from the seed coat.The effect of K⁺ on sucrose and amino acid release is explainedas an inhibition of sucrose and amino acid resorption from theseed coat apoplast into seed coat cells, after unloading fromthe seed coat unloading sites. It is suggested that amino acidrelease is much less affected by K⁺ than sucrose release, becausefar less resorption of amino acids by seed coat parenchyma cellstakes place during amino acid transport into the seed coat cavity. Pisum sativum, pea, assimilate transport, assimilate unloading, seed-coat exudate, seed development, sucrose resorption, surgical treatment     

Purification and properties of a nitrite reductase from Porphyra yezoensis Ueda

Nitrite reductase was extracted from the red alga Porphyra yezoensisUeda and purified through precipitation with ammonium sulfate,column chromatographies, and polyacrylamide gel disk electrophoresis.The enzyme preparation thus obtained showed a single band ondisk electrophoresis. The absorption spectrum had three maxima at 385 nm (Soret band),580 nm (-band), and 278 nm; the ratio of absorbance of the Soretband to the -band was 4.3. The molecular weight and the numberof amino acid residues were estimated to be 63,000 and 601,respectively. The enzyme activity was optimal at around pH 7.5, and its activitywas heat labile as indicated by reduction of activity by about70% when heated at 37°C for 10 min. The enzyme used ferredoxin and methyl viologen, but not NADP⁺or NAD⁺, as the electron carriers. Moreover, reduced forms ofthe latter two showed no effect on its activity. Km values ofthis enzyme for NO₂^–, Fd, and MV were 8.1 x 10^–4M, 4.3 x 10^–8 M, and 3.7 x 10^–4 M, respectively.Almost half of its activity was lost when potassium cyanidewas added at a concentration as low as 10^–5 M, and theKi value was 1.8 x 10^–5 M. Thus, the nitrite reductaseof Porphyra must be systematically grouped in EC 1.7.7.1 [EC] . Itresembled closely that of Chlorella, except for the amountsof some amino acids. ¹ Present address: Department of Biological Sciences, Universityof Tsukuba, Sakura-Mura, Ibaraki, 300-31 Japan. ² Present address: Department of Fisheries, College of Agricultureand Veterinary Medicine, Nihon University, Shimouma, Setagaya-ku,Tokyo, 154 Japan. (Received June 10, 1975; )     

Sugar-Controlled Ca2+ Uptake and {alpha}-Amylase Secretion in Cultured Cells of Rice (Oryza sativa L.)

Sugar starvation-induced synthesis and extracellular liberationof -amylase molecules in suspension-cultured cells of rice (Oryzasativa L.) required Ca²⁺, although the level of translatable-amylase mRNA was not affected in the presence of Ca²⁺. Sugardepletion markedly stimulated Ca²⁺ uptake by rice cells andsucrose supplementation reduced it. Immunohistochemical andelectron probe microanalyzer studies indicated an apparent resemblancebetween the distribution pattern of Ca²⁺ and that of -amylasemolecules induced in the sugar-depleted cells. Ca²⁺ uptake wasreduced by sucrose, maltose, fructose, and glucose similarlyat more than 5 mM, but was unaffected by mannitol (88 mM), 6-deoxy-D-glucose(10 mM), and 3-O-methyl-D-glucose (10 mM). Furthermore, an effectiveCa²⁺ channel blocker, La³⁺ significantly inhibited the Ca²⁺uptake and the synthesis and extracellular liberation of -amylasemolecules in the absence of sucrose, while a general P-typeATPase inhibitor, vanadate greatly stimulated both in the presenceof sucrose. We concluded that, by controlling the Ca²⁺ uptake,metabolic sugars regulate the protein synthesis and posttranslationalsecretory processes of -amylase molecules in rice cells. ⁴ Invited research fellow of the Japan Society for the Promotionof Science. Present address: Plant Physiology Department, WarsawAgricultural University, Rakowiecka Str. 26/30 02-528 Warsaw,Poland.     

Amino Acid-Sugar Linkages in Rice Coleoptile Cell Walls

The nature of amino acid-sugar linkages in cell walls was investigatedin a monocotyledonous tissue, rice coleoptiles. The molar ratiosof aspartic acid, threonine, and serine in cell walls were decreasedby hydrazinolysis in coleoptiles grown both on and under water.The molar ratios of threonine and serine were decreased alsoby a NaOHNaBH₄ treatment, while the alanine content was increased,and -aminobutyric acid was not formed. The cell walls were treated with NaOH in the presence of NaB³H₄,hydrolyzed, then divided into amino acid and sugar fractions.Two distinct radioactive peaks were detected in the thin-layerchromatography of the amino acid fractions. One was identifiedas alanine derived from glycosylated serine; the other was confirmedto be an oxidation product of glucosaminitol. There was justone ³H-labeled product in the sugar fractions, galactitol. Theseresults suggest the presence of serine-O-galactose and asparagine-N-N-acetylglucosamine linkages in rice coleoptile cell walls. The existence of glucosamine linked to amino acids was furthersupported by the incorporation of ¹⁴C-glucosamine into cellwalls. These linkages were also detected in the cell walls ofa dicotyledonous tissue, Vicia epicotyls. (Received April 2, 1981; Accepted June 24, 1981)     

An NTP-Binding Protein That Cross with a Ras-Specific Antibody in the Myceia of Neurospora crassa

A Ras-related NTP-binding protein was partially purified froma membrane fraction derived from the mycelia of Neurospora crassa.[-³²P]ATP and [-³²P]GTP were incubated with mem brane and solublefractions which were then irradiated with UV light to inducecrosslinking of tightly bound nucleotides. After SDS-polyacrylamidegel electrophoresis, blotting onto a nitrocellulose filter andautoradiography it was apparent that most of the proteins thatbound [-³²P]-GTP also bound [-³²P]ATP. Pretreatment of the membranefraction with Ras-specific antibody effectively blocked thebinding of [-³²P]ATP and [-³²P]GTP to several ATP-GTP-bindingproteins. The band of a protein with a molecular weight of 26kDa on the SDS-polyacrylamide gel cross-reacted strongly withthe Ras-specific antibody. The protein was extracted from thegel and further purified by repeated gel electrophoresis. Thepurified protein bound [-³²P]ATP, [-³²P]-GTP, [-³²P]CTP and[-³²P]UTP at 1.6x10^– M and was autophosphorylated in thepresence of [-³²P]ATP and [-³²P]GTP at 1.7x10 M. Pretreatmentof the protein with Ras-specific antibody partially blockedthe autophosphorylation in the presence of these nucleotides.The binding of [-³²P]ATP to the NTP-binding protein was blockedby addition of ATP at 10^–4–10^–3 M. ATP ata concentration of 10^–4 M prevented the binding of [-³²P]to a greater extent than did GTP at the same concentration.Binding of [-³²P]CTP and [-³²P]UTP to the protein was also observed. (Received October 7, 1991; Accepted July 14, 1992)     

An electrogenic Na(+)-HCO(-)(3) cotransporter (NBC) with a novel COOH-terminus, cloned from rat brain

We screened rat brain cDNA libraries and used 5'rapid amplification of cDNA ends to clone two electrogenicNa⁺-HCO₃ cotransporter(NBC) isoforms from rat brain (rb1NBC and rb2NBC). At the amino acidlevel, one clone (rb1NBC) is 96% identical to human pancreas NBC. Theother clone (rb2NBC) is identical to rb1NBC except for 61 uniqueCOOH-terminal amino acids, the result of a 97-bp deletion near the3' end of the open-reading frame. Using RT-PCR, we confirmed thatmRNA from rat brain contains this 97-bp deletion. Furthermore, wegenerated rabbit polyclonal antibodies that distinguish between theunique COOH-termini of rb1NBC (rb1NBC) and rb2NBC (rb2NBC).rb1NBC labels an ~130-kDa protein predominantly from kidney, andrb2NBC labels an ~130-kDa protein predominantly from brain.rb2NBC labels a protein that is more highly expressed in corticalneurons than astrocytes cultured from rat brain; rb1NBC exhibits theopposite pattern. In expression studies, applying 1.5%CO₂/10 mM HCO₃ toXenopus oocytes injected with rb2NBC cRNA causes 1)pH_i to recover from the initial CO₂-inducedacidification and 2) the cell to hyperpolarize. Subsequently,removing external Na⁺ reverses the pH_i increaseand elicits a rapid depolarization. In the presence of 450 µM DIDS,removing external Na⁺ has no effect on pH_i andelicits a small hyperpolarization. The rate of the pH_idecrease elicited by removing Na⁺ is insensitive toremoving external Cl. Thus rb2NBC is aDIDS-sensitive, electrogenic NBC that is predominantly expressed inbrain of at least rat.

     

EFFECT OF MANGANESE IONS ON THE IAA-INDUCED ELONGATION OF AVENA COLEOPTILE SECTIONS INHIBITED BY SOME ORGANIC ACIDS

1.Organic acids, such as citric, -ketoglutaric, succinic, fumaricand L-malic acids, inhibit the IAA-induced growth of Avena coleoptilesections. But pyruvic acid has no effect on the growth. 2.High concentrations of MnCl₂ (for example 10^–3 m) alleviatethe inhibition due to L-malic, -ketoglutaric, succinic and fumaricacids, but not that due to D-malic, tartaric and malonic acids. 3.A mechanism of the alleviating effect of Mn⁺⁺ on the inhibitiondue to the organic acids is discussed with the reference tothe activating effect of Mn⁺⁺ on "malic" enzyme. ¹Contribution No. 6 from the Botanical Gardens. Faculty of Science,University of Tokyo, Koishikawa, Tokyo.     

Mechanisms of EGF-induced stimulation of sodium reabsorption by alveolar epithelial cells

We investigated theeffects of epidermal growth factor (EGF) on activeNa⁺ absorption by alveolarepithelium. Rat alveolar epithelial cells (AEC) were isolated andcultivated in serum-free medium on tissue culture-treated polycarbonatefilters. mRNA for rat epithelial Na⁺ channel (rENaC) -, -,and -subunits and Na⁺ pump₁- and₁-subunits were detected inday 4 monolayers by Northern analysisand were unchanged in abundance in day5 monolayers in the absence of EGF. Monolayerscultivated in the presence of EGF (20 ng/ml) for 24 h fromday 4 to day5 showed an increase in both₁ and₁Na⁺ pump subunit mRNA but noincrease in rENaC subunit mRNA. EGF-treated monolayers showed parallelincreases in Na⁺ pump₁- and₁-subunit protein by immunoblotrelative to untreated monolayers. Fixed AEC monolayers demonstratedpredominantly membrane-associated immunofluorescent labeling withanti-Na⁺ pump₁- and₁-subunit antibodies, withincreased intensity of cell labeling for both subunits seen at 24 hfollowing exposure to EGF. These changes inNa⁺ pump mRNA and protein precededa delayed (>12 h) increase in short-current circuit (measure ofactive transepithelial Na⁺transport) across monolayers treated with EGF compared with untreated monolayers. We conclude that EGF increases activeNa⁺ resorption across AECmonolayers primarily via direct effects onNa⁺ pump subunit mRNA expressionand protein synthesis, leading to increased numbers of functionalNa⁺ pumps in the basolateralmembranes.

     

In vitro Regeneration from Excised Leaf Discs of Three Brassica Species

Excised leaf discs of three Brassica species, B. oleracea, B.napus, and B. campestris were induced to produce adventitiousbuds and subsequently entire plants by culture on media withspecific combinations of 6-benzylaminopurine (BAP) and -naphthylaceticacid (NAA). Each species required a particular hormone concentrationfor optimum growth and differentiation: B. oleracea, BAP 10mg^–1 and NAA 1 mg 1^–1; B. napus, BAP 10 mg 1^–1and NAA 10 mg 1^–1; B. campestris, BAP 1 mg 1^–1 andNAA 10 mg 1^–1. In a more detailed study on one of these species, namely B.oleracea, the relative influence of other media components suchas amino acids and other organic additives was examined. Itwas also found that the source and size of the explant greatlyaffected the growth response, as did the size of the culturevessel. The regenerated plants dislayed a range of ploidy as well asphenotypic abnormalities. Findings are discussed in relation to results from other tissueculture systems.     

Quantitative Analysis of Intercellularly-Transported Photoassimilates in Chara corallina

Using a thin-layer chromatographic technique, we have identifiedthe photoassimilates that are transported intercellularly frombranchlets to internodes in Chara corallina. An internode-branchletcomplex having a primary apex was used in these experiments.After feeding 1 mol m³ NaH¹⁴CO₃ to a branchlet for 10 min, the¹⁴C-labelled photoassimilates (¹⁴C-photoassimilates) found inthe sol endoplasm of the branchlet were composed of sucrose,amino acids, malate, and sugarphosphates. The composition ofthe ¹⁴C-photoassimilates transported from the source branchletto the sink internode in 10 min was the same as that in thesol endoplasm of the source branchlet. From the proportion ofeach ¹⁴C-photoassimilate in both the source branchlet and thesink internode, it was deduced that the main photoassimilatesinvolved in the intercellular transport were sucrose and aminoacids. We found previously that polar transport of photoassimilatesoccurs from a branchlet to an internode with an apex. Determinationof the amount of sucrose, amino acids, glucose-6-phosphate,and malate in both branchlet and internode with or without anapex revealed that there were gradients in the concentrationsof sucrose, serine, and glutamic acid between the sol endoplasmof the two cells. The levels were higher in the branchlet andlower in the internode and the gradients decreased when theapex was detached. Therefore, it is concluded that sucrose andthese amino acids are the compounds involved in the polar intercellulartransport. Key words: Chara corallina, intercellular transport, photoassimilates, ¹⁴C     

The Metabolism of Labelled Lysine and Pipecolic Acid by Acacia Phyllodes

C¹⁴-lysine and C¹⁴- and H³-pipecolic acids have been used tostudy the metabolism of the lysine family of amino-acids inAcacia, which contains ₄-hydroxypipecolic acid as a characteristiccomponent of the soluble-nitrogen fraction. Degradation of C¹⁴-lysinewas rapid and was far more extensive than that observed earlierin higher plants. Pipecolic acid was the major radioactive productin short-term experiments. After longer metabolic periods, radioactivitywas distributed over a wide range of amino-acids, organic acids,and sugars. A tentative metabolic scheme is produced to explainthese observations concerning lysine degradation. The distributionof radioactivity in the amino-acids of the protein present inthe phyllodes was determined 24 hours after supplying C¹⁴-lysine.Specific activities of free and bound amino-acids are comparedat this time. Hydroxyproline forms a notable component of thephyllode protein. Pipecolic acid degradation has been demonstrated for the firsttime in a biological system. The breakdown pathway was studiedin Acacia phyllodes using H²-pipecolic acid. Substances tentativelyidentified as '-piperdine-2-carboxylic acid and -amino--hydroxycaproicacid were amongst the early degradation products. Ultimately,lysine and -aminoadipic acid became labelled. In contrast tothe experiments with C organic acids and sugars did not becomeradioactive. The explanation of this finding is probably tobe found in the ease with which H³ atoms present in certainchemical groupings may undergo exchange with normal hydrogenatoms of water molecules. The biosynthesis of 4-hydroxypipecolic acid probably involvesa direct hydroxylation of the parent imino-acid.     

Channel phosphorylation and modulation of L-type Ca2+ currents by cytosolic Mg2+ concentration

Previous studies have shown that inhibition of L-type Ca²⁺ current (I_Ca) by cytosolic free Mg²⁺ concentration ([Mg²⁺]_i) is profoundly affected by activation of cAMP-dependent protein kinase pathways. To investigate the mechanism underlying this counterregulation of I_Ca, rat cardiac myocytes and tsA201 cells expressing L-type Ca²⁺ channels were whole cell voltage-clamped with patch pipettes in which [Mg²⁺] ([Mg²⁺]_p) was buffered by citrate and ATP. In tsA201 cells expressing wild-type Ca²⁺ channels (_1C/_2A/₂), increasing [Mg²⁺]_p from 0.2 mM to 1.8 mM decreased peak I_Ca by 76 ± 4.5% (n = 7). Mg²⁺-dependent modulation of I_Ca was also observed in cells loaded with ATP--S. With 0.2 mM [Mg²⁺]_p, manipulating phosphorylation conditions by pipette application of protein kinase A (PKA) or phosphatase 2A (PP_2A) produced large changes in I_Ca amplitude; however, with 1.8 mM [Mg²⁺]_p, these same manipulations had no significant effect on I_Ca. With mutant channels lacking principal PKA phosphorylation sites (_1C/S1928A/_{2A/S478A/S479A}/₂), increasing [Mg²⁺]_p had only small effects on I_Ca. However, when channel open probability was increased by _1C-subunit truncation (_1C1905/_{2A/S478A/S479A}/₂), increasing [Mg²⁺]_p greatly reduced peak I_Ca. Correspondingly, in myocytes voltage-clamped with pipette PP_2A to minimize channel phosphorylation, increasing [Mg²⁺]_p produced a much larger reduction in I_Ca when channel opening was promoted with BAY K8644. These data suggest that, around its physiological concentration range, cytosolic Mg²⁺ modulates the extent to which channel phosphorylation regulates I_Ca. This modulation does not necessarily involve changes in channel phosphorylation per se, but more generally appears to depend on the kinetics of gating induced by channel phosphorylation. voltage-gated Ca²⁺ channel; cardiac myocytes; human embryonic kidney cells; protein kinase A; protein phosphatase 2A     

The Effect of Hydroxymethanesulphonate on Photosynthesis in Chlorella pyrenoidosa

Photosynthesis under conditions known to favour glycollate excretionby algae did not result in glycollate excretion in a strainof Chlorella pyrenoidosa unless an inhibitor of glycollate oxidase,-hydroxypyridin-2yl-methane sulphonate (-HPMS), was present.This inhibitor increased the total amount of glycollate presentin the supernatant from the cells during photosynthetic carbondioxide fixation and gave accumulation of ¹⁴C in glycollateduring ¹⁴CO₂ fixation under conditions favouring glycollatesynthesis. At pH 8.3 -HPMS did not stimulate photosynthetic¹⁴CO₂ fixation in C. pyrenoidosa as occurs with some algae.Photoassimilation of acetate was inhibited by -HPMS, and thiswas shown to result from acetyl-CoA synthetase inhibition by-HPMS.