Biosynthesis of lipophosphoglycan from Leishmania major: characterization of ({beta}1-3)-galactosyltransferase(s)

Lipophosphoglycan (LPG) is the major cell surface molecule ofpromastigotes of all Leishmania species. It is comprised ofthree domains: a conserved GPI anchor linked to a repeatingphosphorylated disaccharide (P2; PO₄-6-Gal(ß1-4)Man(     

Simultaneous CO2- and 16O2/18O2-gas exchange and fluorescence measurements indicate differences in light energy dissipation between the wild type and the phytochrome-deficient aurea mutant of tomato during water stress

The CO₂-, H₂O- and ¹⁶O₂/¹⁸O₂ isotopic-gas exchange and the fluorescencequenching by attached leaves of the wild-type and of the phytochrome-deficienttomato aurea mutant was compared in relation to water stressand the photon fluence rate. The chlorophyll content of aurealeaves was reduced and the ultra-structure of the chloroplastswas altered. Nevertheless, the maximum rate of net CO₂ uptakein air by the yellow-green leaves of the aurea mutant was similarto that by the dark-green wild-type leaves. However, less O₂was produced by the leaves of the aurea mutant than by leavesof the wild-type. This result indicates a reduced rate of photosyntheticelectron flux in aurea mutant leaves. No difference in bothphotochemical and non-photochemical fluorescence quenching wasfound between wild-type and aurea mutant leaves. Water stresswas correlated with a reversible decrease in the rates of bothnet CO₂ uptake and transpiration by wild-type and aurea mutantleaves. The rate of gross ¹⁶O₂ evolution by both wild-type andaurea mutant leaves was fairly unaffected by water stress. Thisresult shows that in both wild-type and aurea leaves, the photochemicalprocesses are highly resistant to water stress. The rate ofgross ¹⁸O₂ uptake by wild-type leaves increased during waterstress when the photon fluence rate was high. Under the sameconditions, the rate of gross ¹⁸O₂ uptake by ^aurea mutant leavesremained unchanged. The physiological significane of this differencewith respect to the (presumed) importance of oxygen reductionin photoprotection is discussed. Key words: Water stress, gas exchange, fluorescence quenching, Lycopersicon esculentum, mutant (tomato, aurea), energy dissipation     

A Mutant of Chlamydomonas reinhardtii with Reduced Rate of Photorespiration

Photorespiration rates under air-equilibrated conditions (0.04%CO₂ and 21% O₂) were measured in Chlamydomonas reinhardtii wild-type2137, a phosphoglycolate-phosphatase-deficient (pgp1) mutantand a suppressor double mutant (7FR2N) derived from the pgp1mutant. In both cells grown under 5% CO₂ and adapted air for24 h in the suppressor double mutant, the maximal rate of photorespiration(phosphoglycolate synthesis) was only about half of that ineither the wild type or the pgp1 mutant (18-7F) cells. In theprogeny, the reduced rate of photorespiration was accompaniedby increased photosynthetic affinity for inorganic carbon andthe capacity for growth under air whether accompanied by thepgp1 background or not. Tetrad analyses suggested that thesethree characteristics all resulted from a nuclear single-genemutation at a site unlinked to the pgp1 mutation. The decreasein photorespiration was, however, not due to an increase inthe CO₂/O₂ relative specificity of ribulose-1,5-bisphosphatecarboxylase/oxygenase of 7FR2N or of any other suppressor doublemutants tested. The relationship between the decrease in therate of photorespiration and the CO₂-concentrating mechanismis discussed. ³ Current address: Institute of Botany, Academy of Sciences,Patamdar Shosse, 40, Baku, 370073, Azerbaijan. ⁴ Current address: Department of Management and InformationScience, Jobu University, 270-1, Shinmachi, Tano, Gunma, 370-1393Japan.     

Rhizobium meliloti Mutants Defective in Symbiotic Nitrogen Fixation Affect the Oxygen Gradient in Alfalfa (Medicago sativa) Root Nodules

Rhizobium meliloti bacteroids carrying mutations in either fdxNor fixX isolated from alfalfa root nodules were shown to containthe nitrogenase proteins NifH, NifD and NifK. In contrast toan in vitro system of N₂-fixation based on R. meliloti wild-typebacteroids, nitrogenase activity could not be restored in crudeextracts of these mutant bacteroids by the addition of an artificialelectron donor, indicating that the nitrogenase proteins werepresent but not functional. ESR-studies revealed that both mutantslacked the FeMo-cofactor of nitrogenase. To analyse the roleof free O₂ on the damage of the nitrogenase components and theFeMo-cofactor in these mutant bacteroids, microelectrode studiesof O₂ concentrations and gradients within alfalfa root noduleswere carried out. R. meliloti mutants defective in other genesnecessary for symbiotic N₂-fixation were also included in thisstudy. Four distinct types of O₂ gradients were defined by theapparent presence or absence of an O₂ diffusion barrier andby the minimum internal O₂ concentration. These data clearlydemonstrated the influence of the microsymbiont on the O₂ gradientswithin the nodules. Nodules induced by Rm0540, an R. melilotimutant with altered exopolysaccharide production, which is notable to infect plant cells, did not contain an O₂ diffusionbarrier. In contrast, nodules containing a mutant defectivein dicarboxylate transport (dctA-), produced an O₂ gradientsimilar to the wild-type. Microelectrode measurements revealedH₂ concentrations in alfalfa wild-type nodules comparable tosoyabean, whereas no hydrogen could be detected in nodules harbouringthe dctA mutant or any other mutant strain. Key words: Nitrogen fixation, Rhizobium meliloti bacteroids, ferredoxin-like proteins, microelectrode studies     

Kinetics of Endogenous Cytokinin, IAA and ABA Levels in Relation to the Growth and Morphology of Tobacco Crown Gall Tissue

The kinetics of endogenous cytokinin, IAA and ABA levels duringthe growth cycle of a wild-type tobacco crown gall (W₃₈-B₆S₃)were compared with that of a shoot-inducing (Shi^-) mutant. Inboth tumor types, high IAA and cytokinin (essentially ribosyl-trans-zeatinand its corresponding glucoside) levels were built up by theend of the linear growth phase and maintained during the greaterpart of the exponential growth period. The stationary phasewas preceded by a very drastic decrease in the endogenous levelof both hormones. Quantitatively, the wild-type tumour showed a higher IAA leveland a reduced cytokinin level compared with the Shi^- mutant.No significantly different endogenous ABA pattern was observed.The reduced cytokinin level might correspond to the ratio oftransformed/untransformed cells in the wild-type tumour whereasthe reduced IAA level in the Shi^- mutant may be correlated withthe deletion of gene 2 in the T-DNA of the pGV 2206 Ti plasmid. The elevated cytokinin/IAA ratio induced shooting mainly ofthe untransformed cells in the Shi^- mutant tissue whereas inthe wild-type, the shoot suppression was compatible with thereduced cytokinin/IAA ratio. ⁴Senior Research Associate Nationaal Fonds WetenschappelijkOnderzoek (N.F.W.O.). ⁵Research Associate N.F.W.O. ⁶Recipient of an Instituut voor Wetenschappelijk Onderzoek inNijverheid en Landbouw grant. (Received February 23, 1984; Accepted June 19, 1984)     

Effect of PCMBS on CO2 permeability of Xenopus oocytes expressing aquaporin 1or its C189S mutant

A recent study onXenopus oocytes [N. L. Nakhoul,M. F. Romero, B. A. Davis, and W. F. Boron. Am. J. Physiol. 274 (CellPhysiol. 43): C543-548, 1998] injected withcarbonic anhydrase showed that expressing aquaporin 1 (AQP1) increasesby ~40% the rate at which exposing the cell toCO₂ causes intracellular pH tofall. This observation is consistent with several interpretations.Overexpressing AQP1 might increase apparentCO₂ permeability by1) allowingCO₂ to pass through AQP1,2) stimulating injected carbonicanhydrase, 3) enhancing theCO₂ solubility of the membrane'slipid, or 4) increasing theexpression of a native "gas channel." The purpose of the presentstudy was to distinguish among these possibilities. We found thatexpressing the H₂O channel AQP1 inXenopus oocytes increases theCO₂ permeability of oocytes in anexpression-dependent fashion, whereas expressing theK⁺ channel ROMK1 has no effect.The mercury derivativep-chloromercuriphenylsulfonic acid(PCMBS), which inhibits the H₂Omovement through AQP1, also blocks the AQP1-dependent increase inCO₂ permeability. Themercury-insensitive C189S mutant of AQP1 increases theCO₂ permeability of the oocyte tothe same extent as does the wild-type channel. However, the C189S-dependent increase in CO₂permeability is unaffected by treatment with PCMBS. These data rule outoptions 2-4 listed above. Thusour results suggest that CO₂passes through the pore of AQP1 and are the first data to demonstratethat a gas can enter a cell by a means other than diffusing through themembrane lipid.

     

Glycosylation Defects and Virulence Phenotypes of Leishmania mexicana Phosphomannomutase and Dolicholphosphate-Mannose Synthase Gene Deletion Mutants

Leishmania parasites synthesize an abundance of mannose (Man)-containing glycoconjugates thought to be essential for virulence to the mammalian host and for viability. These glycoconjugates include lipophosphoglycan (LPG), proteophosphoglycans (PPGs), glycosylphosphatidylinositol (GPI)-anchored proteins, glycoinositolphospholipids (GIPLs), and N-glycans. A prerequisite for their biosynthesis is an ample supply of the Man donors GDP-Man and dolicholphosphate-Man. We have cloned from Leishmania mexicana the gene encoding the enzyme phosphomannomutase (PMM) and the previously described dolicholphosphate-Man synthase gene (DPMS) that are involved in Man activation. Surprisingly, gene deletion experiments resulted in viable parasite lines lacking the respective open reading frames (ΔPMM and ΔDPMS), a result against expectation and in contrast to the lethal phenotype observed in gene deletion experiments with fungi. L. mexicana ΔDPMS exhibits a selective defect in LPG, protein GPI anchor, and GIPL biosynthesis, but despite the absence of these structures, which have been implicated in parasite virulence and viability, the mutant remains infectious to macrophages and mice. By contrast, L. mexicana ΔPMM are largely devoid of all known Man-containing glycoconjugates and are unable to establish an infection in mouse macrophages or the living animal. Our results define Man activation leading to GDP-Man as a virulence pathway in Leishmania.     

Phosphorylation of P-glycoprotein by PKA and PKC modulates swelling-activated Cl- currents

Several proteins belonging to the ATP-binding cassettesuperfamily can affect ion channel function. These include the cystic fibrosis transmembrane conductance regulator, the sulfonylurea receptor, and the multidrug resistance protein P-glycoprotein (MDR1).We measured whole cell swelling-activatedCl currents(I_Cl,swell) inparental cells and cells expressing wild-type MDR1 or aphosphorylation-defective mutant (Ser-661, Ser-667, and Ser-671replaced by Ala). Stimulation of protein kinase C (PKC) with a phorbolester reduced the rate of increase inI_Cl,swell only incells that express MDR1. PKC stimulation had no effect on steady-stateI_Cl,swell.Stimulation of protein kinase A (PKA) with 8-bromoadenosine3',5'-cyclic monophosphate reduced steady-state I_Cl,swell only inMDR1-expressing cells. PKA stimulation had no effect on the rate ofI_Cl,swellactivation. The effects of stimulation of PKA and PKC onI_Cl,swell wereadditive (i.e., decrease in the rate of activation and reduction insteady-stateI_Cl,swell). The effects of PKA and PKC stimulation were absent in cells expressing thephosphorylation-defective mutant. In summary, it is likely thatphosphorylation of MDR1 by PKA and by PKC alters swelling-activated Cl channels by independentmechanisms and that Ser-661, Ser-667, and Ser-671 are involved in theresponses ofI_Cl,swell tostimulation of PKA and PKC. These results support the notion that MDR1phosphorylation affectsI_Cl,swell.     

Effects of Site-directed Mutagenesis of Conserved Lys606 Residue on Catalytic and Regulatory Functions of Maize C4-form Phosphoenolpyruvate Carboxylase

Lys606, one of the two highly conserved lysine residues in maizeC₄-form phosphoenolpyruvate carboxylase (PEPC), was convertedto Asn, GIu or Arg by site-directed mutagenesis. Resulted mutantenzymes expressed using pET system [Dong, L.-Y. et al (1997)Biosci. Biotech. Bio-chem. 61: 545] were purified by one stepprocedure through nickel-chelate affinity chromatograghy toa purity of about 95%. The replacement of Lys606 by Arg hadlittle effect on the kinetic and allosteric properties of theresulting mutant enzyme. In contrast, the maximum velocities(V_max were decreased to 22% and 2% of that of wild-type PEPCupon the substitution of Lys606 by Asn and Glu, respectively.The value of S_0.5(HCO^–₃) was increased 21—25 foldby the replacements, whereas the S_0.5(Mg²⁺) and S_0.5(PEP) valueswere increased only 5—8 fold. The extents of activationof mutant enzymes by glucose 6-phosphate and glycine were 2to 3-fold higher than those of wild-type enzyme. The mutantenzymes showed less sensitivity to malate inhibition, comparedwith the wild-type enzyme. The results suggested that the Lys606is not obligatory for the enzyme activity, but may be involvedin the bicarbonate-binding and contribute somehow to the allostericregulatory properties. (Received June 12, 1997; Accepted October 1, 1997)     

Addition of lipid substituents of mammalian protein glycosylphosphoinositol anchors.

A single metabolic path leading to synthesis of ether lipids is known in animal cells, the major products of which are plasmalogens. To learn whether this peroxisomal path is also responsible for the synthesis of base-resistant lipid components of glycosylphosphoinositol (GPI)-anchored membrane proteins, we have investigated the structure of anchor precursor mannolipids both in wild-type cells (CHO-K1 and a macrophage-like line, RAW 264.7) and in two corresponding mutant cells in which ether lipid biosynthesis is severely impaired. We observe that the precursor mannolipids of both the wild-type and mutant cells do not include alkylglycerol. Nevertheless, both wild-type and mutant cells express cell surface GPI-anchored placental alkaline phosphatase (AP) which includes alkali-resistant hydrophobic chains in its anchor moiety. Thus, (i) in normal AP GPI anchor synthesis, any ether-linked substituents must be added either immediately before, during, or after anchor addition to AP, and (ii) the classical peroxisomal path for ether lipid synthesis appears not to contribute to the synthesis of GPI anchors.     

Microscopic characterization of early nodulation events in a non-nodulating soybean mutant (NN5) and lack of response to high inoculum dose

The microscopic events leading to nodulation in normally nodulatingsoybean [Glycine max (L.) Merr.] genotypes, and the effectsof Bradyrhizobium strain and inoculum dose on nodulation, wereexamined in the NN5 non-nodulating mutant derived from cv. Williams.The NN5 mutant possesses the recessive genes rj₅ and ,rj₆. BradyrhizoblumJaponicum strain USDA 110 cells attached normally to the rootsurface of NN5, many in a polar manner as in its wild-type parent,but failed to induce root hair curling and sub-epidermal celldivision in the root. Co-culturing NN5 and Williams did notmodify nodulation of either genotype. Hydroponically-grown NN5seedlings did not nodulate at a high inoculum dose (1 x 10¹⁰cells seedling^–1) of any B. japonicum strain tested (USDA110, USDA 26, USDA 136, and the tryptophan metabolic variantsB-14075 and ta 11 Nod⁺). A higher inoculum dose of 3 x 10 USDA136 cells seedling also failed to induce nodulation in NN5 andnod139 (a non-nodulating mutant of cv. Bragg). The lack of nodulationof NN5 at any inoculum dose is contrary to previous observationsof sparse nodulation of other non-nodulating mutants at highinoculum dose. Genetic control of non-nodulation in NN5 is probablysimilar to nodl39. Key words: Nodulation events, non-nodulating mutant, soybean     

The Meristem and Quiescent Centre in Cultured Root Apices of the gib-l Mutant of Tomato (Lycopersicon esculentum Mill.)

Cultured root apices of tomato bearing the gib-I mutation, whichreduces the levels of endogenous gibberellins, grew slower andwere thicker than wild-type contols. This was the result ofshorter and broader cells in the menstem of the mutant. Cellsof both cortex and stele were affected, but this did not causeany alteration to the volume fraction occupied by these twotissues in the root meristem. Root caps were longer in the mutantand there were also more layers of rhizodermis. All these effectscould be reproduced in wild-type roots by addition of 0.1µM2S, 3S paclobutrazol (an inhibitor of gibberellin biosynthesis)to the culture medium and could be normalized in mutant rootsby 0.1 µM GA₃. Cell doubling times in the proximal regionof the meristem were similar in mutant and wild-type roots,but were faster in both the quiescent centre (QC) and the capmeristem of the mutant. This latter feature of the mutant rootsis likely to be the cause of their longer caps, while the fasterrate of division in the QC accounts for the additional tiersof cells that were found to build up in the cortical portionof this zone These additional tiers failed to form in mutantroots grown in GA₃, but they could be induced in wild-type rootsby 2S, 3S paclobutrazol. These results suggest that endogenousgibberellins may be partly responsible for the slow rate ofcell growth and proliferation in the QC. Gibberellins, gib-I mutation, Lycopersicon esculentum, meristem, roots, 2S, 3S paclobutrazol, quiescent centre, tomato     

Protein kinase D inhibits plasma membrane Na+/H+ exchanger activity

The regulation of plasma membraneNa⁺/H⁺exchanger (NHE) activity by protein kinase D (PKD), a novel proteinkinase C- and phorbol ester-regulated kinase, was investigated. Todetermine the effect of PKD on NHE activity in vivo, intracellular pH(pH_i) measurements were made inCOS-7 cells by microepifluorescence using the pH indicator cSNARF-1.Cells were transfected with empty vector (control), wild-type PKD, orits kinase-deficient mutant PKD-K618M, together with green fluorescentprotein (GFP). NHE activity, as reflected by the rate of acid efflux(J_H), wasdetermined in single GFP-positive cells following intracellularacidification. Overexpression of wild-type PKD had no significanteffect on J_H(3.48 ± 0.25 vs. 3.78 ± 0.24 mM/min in control atpH_i 7.0). In contrast,overexpression of PKD-K618M increasedJ_H (5.31 ± 0.57 mM/min at pH_i 7.0;P < 0.05 vs. control). Transfectionwith these constructs produced similar effects also in A-10 cells,indicating that native PKD may have an inhibitory effect on NHE in bothcell types, which is relieved by a dominant-negative action ofPKD-K618M. Exposure of COS-7 cells to phorbol ester significantlyincreased J_H in control cells but failed to do so in cells overexpressing either wild-type PKD (due to inhibition by the overexpressed PKD) or PKD-K618M(because basal J_Hwas already near maximal). A fusion protein containing the cytosolicregulatory domain (amino acids 637-815) of NHE1 (the ubiquitousNHE isoform) was phosphorylated in vitro by wild-type PKD, but with lowstoichiometry. These data suggest that PKD inhibits NHE activity,probably through an indirect mechanism, and represents a novel pathwayin the regulation of the exchanger.

     

GPI anchor biosynthesis in yeast: phosphoethanolamine is attached to the alpha1,4-linked mannose of the complete precursor glycophospholipid

Cells synthesize the GPI anchor carbohydrate core by successively adding N-acetylglucosamine, three mannoses, and phosphoethanolamine (EtN-P) onto phosphatidylinositol, thus forming the complete GPI precursor lipid which is then added to proteins. Previously, we isolated a GPI deficient yeast mutant accumulating a GPI intermediate containing only two mannoses, suggesting that it has difficulty in adding the third, alpha1,2-linked Man of GPI anchors. The mutant thus displays a similar phenotype as the mammalian mutant cell line S1A-b having a mutation in the PIG-B gene. The yeast mutant, herein named gpi10-1 , contains a mutation in YGL142C, a yeast homolog of the human PIG-B. YGL142C predicts a highly hydrophobic integral membrane protein which by sequence is related to ALG9, a yeast gene required for adding Man in alpha1,2 linkage to N-glycans. Whereas gpi10-1 cells grow at a normal rate and make normal amounts of GPI proteins, the microsomes of gpi10-1 are completely unable to add the third Man in an in vitro assay. Further analysis of the GPI intermediate accumulating in gpi10 shows it to have the structure Manalpha1-6(EtN-P-)Manalpha1-4GlcNalpha1- 6(acyl) Inositol-P-lipid. The presence of EtN-P on the alpha1,4-linked Man of GPI anchors is typical of mammalian and a few other organisms but had not been observed in yeast GPI proteins. This additional EtN-P is not only found in the abnormal GPI intermediate of gpi10-1 but is equally present on the complete GPI precursor lipid of wild type cells. Thus, GPI biosynthesis in yeast and mammals proceeds similarly and differs from the pathway described for Trypanosoma brucei in several aspects.      

The human NBCe1-A mutant R881C, associated with proximal renal tubular acidosis, retains function but is mistargeted in polarized renal epithelia

The human electrogenic renal Na-HCO₃ cotransporter (NBCe1-A; SLC4A4) is localized to the basolateral membrane of proximal tubule cells. Mutations in the SLC4A4 gene cause an autosomal recessive proximal renal tubular acidosis (pRTA), a disease characterized by impaired ability of the proximal tubule to reabsorb HCO₃^– from the glomerular filtrate. Other symptoms can include mental retardation and ocular abnormalities. Recently, a novel homozygous missense mutant (R881C) of NBCe1-A was reported from a patient with a severe pRTA phenotype. The mutant protein was described as having a lower than normal activity when expressed in Xenopus oocytes, despite having normal Na⁺ affinity. However, without trafficking data, it is impossible to determine the molecular basis for the phenotype. In the present study, we expressed wild-type NBCe1-A (WT) and mutant NBCe1-A (R881C), tagged at the COOH terminus with enhanced green fluorescent protein (EGFP). This approach permitted semiquantification of surface expression in individual Xenopus oocytes before assay by two-electrode voltage clamp or measurements of intracellular pH. These data show that the mutation reduces the surface expression rather than the activity of the individual protein molecules. Confocal microscopy on polarized mammalian epithelial kidney cells [Madin-Darby canine kidney (MDCK)I] expressing nontagged WT or R881C demonstrates that WT is expressed at the basolateral membrane of these cells, whereas R881C is retained in the endoplasmic reticulum. In summary, the pathophysiology of pRTA caused by the R881C mutation is likely due to a deficit of NBCe1-A at the proximal tubule basolateral membrane, rather than a defect in the transport activity of individual molecules. bicarbonate; intracellular pH; acidbase; SLC4A4; Na⁺-HCO₃ cotransporter 1     

Cellular Growth in Roots of a Gibberellin-Deficient Mutant of Tomato (Lycopersicon esculentum Mill.) and its Wild-type

The role of gibberellins in regulating the growth of tomatoroots was investigated by comparing various cellular parametersin cultured roots of the gibberellin-deficient mutant gib-l/gib-lwith those in roots of the near-isogenic wild-type. In addition,wild-type roots treated with 0?1 µM 2S,3S paclobutrazol,an inhibitor of gibberellin biosynthesis, and mutant roots treatedwith 0?1 µM GA₃ were also compared: the former roots constitutea phenocopy of the mutant, whereas the latter roots appear tobe ‘normalized’ and similar to wild-type. The elongationof mutant and phenocopied roots were similar, their maximumelongation rates being about half or two-thirds that of wild-typeor GA₃-treated mutant roots, respectively. These rates wereinterpreted in terms of the numbers and lengths of cells withinthe meristematic and non-meristematic portions of the elongationzone. Mean meristem length tended to be shorter in both themutant and the 2S,3S paclobutrazol-treated wild-type roots thanin the other two types of root. A major difference between thetwo pairs of mutant and normal roots was their mean final celllengths: mean lengths of cortical cells of the mutant and 2S,3Spaclobutrazol-treated roots were, respectively, 39% and 25%shorter than the mean length of wild-type roots. Final celllength in the GA³-treated mutant roots were similar to wild-type.By contrast, the diameters of mature cortical cells of the mutantand phenocopy were about 20% greater than the diameters of equivalentwild-type or ‘normalized’ mutant cells. The meanvolumes of cortical cells in all four types of roots showedno significant differences. Knowledge of the distribution ofcortical cell lengths, widths and volumes along the root axis,together with information about the rate of root elongation,permitted comparisons of the relative elemental growth ratesof each of these three cellular parameters. The available evidence suggests that the level of endogenousgibberellins in mutant roots is lower than in wild-type roots.The present results, therefore, suggest that endogenous gibberellinsare necessary for normal growth of cultured tomato roots andthat they regulate the relative amounts of growth at the longitudinaland transverse walls of the cells which, in turn, affects theshape of the elongating cells. Key words: Cell growth, cultured roots, gibberellin, gib-l mutant, Lycopersicon esculentum, 2S,3S paclobutrazol, relative elemental growth rate, root meristem     

A Mutant of Arabidopsis thaliana That Defines a New Locus for Glycine Decarboxylation

A novel photorespiratory mutant of Arabidopsis thaliana, designatedgld2, was isolated based on a growth requirement for abnormallyhigh levels of atmospheric CO₂. Photosynthetic CO₂ fixationwas inhibited in the mutant following illumination in air butnot in atmosphere containing 2% O₂. Photosynthetic assimilationof ¹⁴CO₂ in an atmosphere containing 50% O₂ resulted in accumulationof 48% of the soluble label in glycine in the mutant comparedto 9% in the wild type. The rate of glycine decarboxylationby isolated mitochondria from the mutant was reduced to 6% ofthe wild type rate. In genetic crosses, the mutant complementedtwo previously described photorespiratory mutants of A. thalianathat accumulate glycine during photosynthesis in air due todefects in glycine decarboxylase (glyD, now designated gld1)and serine transhydroxymethylase (stm). Because glycine decarboxylaseis a complex of four enzymes, these results are consistent witha mutation in a glycine decarboxylase subunit other than thataffected in the gld1 mutant. The two gld loci were mapped tochromosomes 2 and 5, respectively. ³Present address: Department of Crop and Soil Sciences, MichiganState University, East Lansing, MI 48824, U.S.A. ⁴Present address: Department of Applied Bioscience, Facultyof Agriculture, Hokkaido University, Kita-Ku, Sapporo, 060 Japan ⁵Present address: Department of Biology, Carnegie Institutionof Washington, 290 Panama Street, Standford, CA 94305, U.S.A.     

Spectrophotometric and Molecular Properties of Mutated Rice Phytochrome A

A cDNA (PHYA) for the phytochrome A apoprotein (PHYA) of riceand three mutated sequences (phyA S/A, the first ten serineresidues in the N-terminal domain of PHYA were changed to alanineresidues; phyA ND, the first 80 N-terminal amino acids weredeleted; phyA CD, the amino acids of the C-terminal domain from689 to 1,128 were deleted) were expressed in yeast, and thewild-type and mutant apophytochromes were allowed to combinein vitro with the chromophore phycocyanobilin (PCB). The PCB-attachedproduct of phyA S/A gave very similar spectrophotometric peaksto the PhA_fr and PhyA_fr forms of wild-type product. By contrast,the peak of the product of phyA CD in the P_fr form was significantlyshifted towards a shorter wavelength, an indication that, whereasthe C-terminal domain is not crucial for the PCB attachment,it greatly influences the absorption maximum of PhyA_fr. Therate of 50% reversion from PhyA_fr to PhA_r in darkness was 3h at 27°C with all of the samples, showing that the S/Aand CD mutations did not affect this property. No photoreversibilitywas detected with the product of phyA ND. Gel-filtration analysisof the wild-type PHYA and the product of phyA S/A showed thatthe apparent molecular mass of each was 330 kDa, suggestingthat both exists as dimers in solution. ⁴Present address: Institut für Entwicklungs- und Molekularbiologieder Pflanzen, Heinrich-Heine-Universität-Düsseldorf,Universitätsstr. 1, 40225 Düsseldorf, Germany     

The effects of temperature and the Rht3 dwarfing gene on growth, cell extension, and gibberellin content and responsiveness in the wheat leaf

The effects of low temperature and the Rht3 dwarfing gene onthe dynamics of cell extension in leaf 2 of wheat were examinedin relation to gibberellin (GA) content and GA-responsivenessof the extension zone. Leaf 2 of wild-type (rht3) wheat closelyresembled that of the Rht3 dwarf mutant when seedlings weregrown at 10C. The maximum relative elemental growth rate (REGR)within the extension zone in both genotypes was lower at 10Cthan at 20C, but the position with respect to the leaf basewas unaffected by temperature. The size of the extension zoneand epidermal cell lengths were similar in both genotypes at10C. Growth at 20C, instead of 10C, increased the lengthof the extension zone beyond the point of maximum REGR in thewild type, but not in the Rht3 mutant. Increasing temperatureresulted in longer epidermal cells in the wild type. Treatingwild-type plants at 10C with gibberellic acid (GA₃) also increasedthe length of the extension zone, but the Rht3 mutant was GA-non-responsive.However, the concentrations of endogenous GA₁ and GA₃ remainedsimilar across the extension zone of wild-type plants grownat both temperatures, despite large differences in leaf growthrates. The period of accelerating REGR as cells enter the extensionzone, and the maximum REGR attained, are apparently not affectedby GA. It is proposed that GA functions as a stimulus for continuedcell extension by preventing cell maturation in the region beyondmaximum REGR and that low temperature increases the sensitivitythreshold for GA action. Key words: Cell extension, gibberellin, Rht3 dwarfing gene, temperature, wheat leaf     

New fava bean guard cell signaling mutant impaired in ABA-induced stomatal closure

We isolated a mutant from Vicia faba L. cv. House Ryousai. Itwilts easily under strong light and high temperature conditions,suggesting that its stomatal movement may be disturbed. We determinedresponses of mutant guard cells to some environmental stimuli.Mutant guard cells demonstrated an impaired ability to respondto ABA in 0.1 mM CaCl₂ and stomata did not close in thepresence of up to 1 mM ABA, whereas wild-type stomata closedwhen exposed to 10 µM ABA. Elevating external Ca²⁺caused a similar degree of stomatal closure in the wild typeand the mutant. A high concentration of CO₂ (700 µlliter^–1) induced stomatal closure in the wild type, butnot in the mutant. On the basis of these results, we proposethe working hypothesis that the mutation occurs in the regiondownstream of CO₂ and ABA sensing and in the region upstreamof Ca²⁺ elevation. The mutant is named fia (fava bean impairedin ABA-induced stomatal closure). ³ Corresponding author: E-mail, smoiwai{at}agri.kagoshima-u.ac.jp;Fax, +81-99-285-8556.