Effect of Chlorate Treatment on Nitrate Reductase and Nitrite Reductase Gene Expression in Arabidopsis thaliana

The herbicide chlorate has been used extensively to isolate mutants that are defective in nitrate reduction. Chlorate is a substrate for the enzyme nitrate reductase (NR), which reduces chlorate to the toxic chlorite. Because NR is a substrate (NO₃⁻)-inducible enzyme, we investigated the possibility that chlorate may also act as an inducer. Irrigation of ammonia-grown Arabidopsis plants with chlorate leads to an increase in NR mRNA in the leaves. No such increase was observed for nitrite reductase mRNA following chlorate treatment; thus, the effect seems to be specific to NR. The increase in NR mRNA did not depend on the presence of wild-type levels of NR activity or molybdenum-cofactor, as a molybdenum-cofactor mutant with low levels of NR activity displayed the same increase in NR mRNA following chlorate treatment. Even though NR mRNA levels were found to increase after chlorate treatment, no increase in NR protein was detected and the level of NR activity dropped. The lack of increase in NR protein was not due to inactivation of the cells' translational machinery, as pulse labeling experiments demonstrated that total protein synthesis was unaffected by the chlorate treatment during the time course of the experiment. Chlorate-treated plants still retain the capacity to make functional NR because NR activity could be restored by irrigating the chlorate-treated plants with nitrate. The low levels of NR protein and activity may be due to inactivation of NR by chlorite, leading to rapid degradation of the enzyme. Thus, chlorate treatment stimulates NR gene expression in Arabidopsis that is manifested only at the mRNA level and not at the protein or activity level.     

Organic nitrogen stimulates caulogenesis from hypocotyl callus of Phyllanthus fraternus

Factors involved in promoting caulogenesis from hypocotyl explants of Phyllanthus fraternus were studied. Hypocotyl explants were cultured on B₅ medium supplemented with 2,4-D or NAA in the presence and absence of BAP (at concentrations 0, 10^–7, 10^–6 and 10^–5M). Adventitious shoots differentiated from callus developed from the cut ends of 12.5% of the hypocotyl segments cultured on medium supplemented with 10^–6M BAP in combination with 10^–6M 2,4-D or 10^–6M NAA. Profuse rooting occurred from the hypocotyl explants on medium supplemented with 10^–6M BAP + 10^–6M NAA. Incorporation of casein hydrolysate in B₅ medium along with 10^–6M BAP + 10^–7M 2,4-D enhanced the frequency of cultures with adventitious shoots upto 68.0%. Glutamine, glutamic acid or proline could partially substitute for the effect of casein hydrolysate. Amongst the hypocotyls from 3–14 d old seedlings, the best caulogenesis was obtained with hypocotyls from 7 d old seedlings both in presence or absence of casein hydrolysate. Best rooting of shoots was achieved on half-strength B₅ medium supplemented with 10^–6M IBA. After hardening, plantlets were successfully transferred to the soil.Abbreviations BAP 6-benzylaminopurine - 2,4-D 2, 4-dichlorophenoxyacetic acid - IBA indole-3-butyric acid - NAA 1-naphthaleneacetic acid - CH casein hydrolysate - Arg L-arginine - Glu L-glutamic acid - Gln L-glutamine - Leu L-leucine - Lys L-lysine - Pro L-proline     

Dark induction of nitrate reductase in the halophilic alga Dunaliella salina

The effect of nitrogen starvation on the NO₃-dependent induction of nitrate reductase (NR) and nitrite reductases (NIR) has been investigated in the halophilic alga Dunaliella salina. When D. salina cells previously grown in a medium with NH ₄ ⁺ as the only nitrogen source (NH ₄ ⁺ -cells) were transferred into NO ₃ ^? medium, NR was induced in the light. In contrast, when cells previously grown in N-free medium were transferred into a medium containing NO ₃ ^? , NR was induced in light or in darkness. Nitrate-dependent NR induction, in darkness, in D. salina cells previously grown at a photon flux density of 500 umol · m^?2 s^?1 was observed after 4 h preculture in N-free medium, whilst in cells grown at 100 umol · m^?2 s^?1 NR induction was observed after 7–8 h. An inhibitor of mRNA synthesis (6-methylpurine) did not inhibit NO ₃ ^? -induced NR synthesis when the cells, previously grown in NH ₄ ⁺ medium, were transferred into NO ₃ ^? medium (at time 0 h) after 4-h-N starvation. However, when 6-methylpurine was added simultaneously with the transfer of the cells from NH ₄ ⁺ to NO ₃ ^? medium (at time 0 h), NO ₃ ^? induced NR synthesis was completely inhibited. The activity of NIR decreased in N-starved cells and the addition of NO ₃ ^? to those cells greatly stimulated NIR activity in the light. The ability to induce NR in darkness was observed when glutamine synthetase activity reached its maximal level during N starvation. Although cells grown in NO ₃ ^? medium exhibited high NR activity, only 0.33% of the total NR was found in intact chloroplasts. We suggest that the ability, to induce NR in darkness is dependent on the level of N starvation, and that NR in D. salina is located in the cytosol. Light seems to play an indirect regulatory role on NO ₃ ^? uptake and NR induction due to the expression of NR and NO ₃ ^? -transporter mRNAs.     

Development of in vitro procedures for regeneration of petiole and leaf expiants and production of protoplast-derived callus in Tanacetum vulgare L. (Tansy)

Tanacetum vulgare (Tansy) was established in vitro on Murashige and Skoog (MS) medium supplemented with naphthaleneacetic acid (NAA) and 6-benzylaminopurine (BAP) using shoot tips and embryos. From petiole expiants 93% formed callus, and 27% produced shoots on MS medium containing 4.5 mg l^-1 NAA and BAP. NAA alone induced root formation from leaf expiants. Up to 7 ×10⁶ viable protoplasts were obtained by macerating 1 g of leaves in 0.5 % Macerozyme R-10, 1.0% Cellulase R10, and 1.0% Cellulysin. Cell division was observed 3–4 days after protoplast isolation at the optimum plating density of 0.2-0.4×10⁶ cells ml^-1. A total of 350 protoplast-derived calluses were produced on which nodules with meristematic zones developed. Roots regenerated on MS medium supplemented with BAP 3.0 mg 1^-1, NAA 2.0 mg l^-1, and 250 mg l^-1 casein hydrolysate, however no shoots have been obtained yet.Abbreviations BAP 6-benzylaminopurine - CH casein enzymatic hydrolysate - 2.4 D dichlorophenoxyacetic acid - FDA fluorescein diacetate - GA₃ gibberellic acid - IBA indole butyric acid - IPA 6-dimethylallylamino purine - KIN Kinetin - MS Murashige and Skoog medium - NAA -naphthaleneacetic acid     

Plant regeneration from suspension culture of Iris germanica 1

In Iris germanica L., 'G1', 'Adorn' and 'Rococo', induction and proliferation of embryogenic calli were achieved by culture of leaf-base explants on Murashige and Skoog (MS) medium supplemented with 1 mg l⁻¹ 2,4-D, 1 mg l⁻¹ kinetin, 200 mg l⁻¹ casein hydrolysate, 250 mg l⁻¹ proline, 30 g l⁻¹ sucrose and 2.5 g l⁻¹ gellan gum. Among these cultivars, however, only in 'G1' could a suspension culture be established using a liquid N6 medium with 1 mg l⁻¹ 2,4-D, 1 mg l⁻¹ kinetin, 200 mg l⁻¹ casein hydrolysate, 250 mg l⁻¹ proline and 30 g l⁻¹ sucrose. Murashige and Skoog medium with 1 mg l⁻¹ gibberellic acid (GA₃), 30 g l⁻¹ sucrose and 2.5 g l⁻¹ gellan gum was suitable for somatic embryo formation from suspension cells. When the somatic embryos were transferred to solid, growth regulator-free MS medium and subcultured monthly, 36 shoots were obtained from 20 mg suspension cells. This revised version was published online in June 2006 with corrections to the Cover Date.     

Identification and characterization of a chlorate-resistant mutant of Arabidopsis thaliana with mutations in both nitrate reductase structural genes NIA1 and NIA2

Mutant plants defective in the assimilation of nitrate can be selected by their resistance to the herbicide chlorate. In Arabidopsis thaliana, mutations at any one of nine distinct loci confer chlorate resistance. Only one of the CHL genes, CHL3, has been shown genetically to be a nitrate reductase (NR) structural gene (NIA2) even though two NR genes (NIA1 and NIA2) have been cloned from the Arabidopsis genome. Plants in which the NIA2 gene has been deleted retain only 10% of the wildtype shoot NR activity and grow normally with nitrate as the sole nitrogen source. Using mutagenized seeds from the NIA2 deletion mutant and a modified chlorate selection protocol, we have identified the first mutation in the NIA1 NR structural gene. nia1, nia2 double mutants have only 0.5% of wild-type shoot NR activity and display very poor growth on media with nitrate as the only form of nitrogen. The nial-1 mutation is a single nucleotide substitution that converts an alanine to a threonine in a highly conserved region of the molybdenum cofactor-binding domain of the NR protein. These results show that the NIA1 gene encodes a functional NR protein that contributes to the assimilation of nitrate in Arabidopsis.     

Plant regeneration from mesophyll protoplasts of Williams' Bon Chretien (syn. Bartlett) pear (Pyrus communis L.)

Leaf protoplasts of axenic shoot cultures of Pyrus communis L. cv. Williams' Bon Chretien (syn. Bartlett) underwent cell wall regeneration and division to give multicellular colonies in a modified Murashige and Skoog medium which lacked ammonium ions, but supplemented with 1-naphthaleneacetic acid (NAA), 4-indole-3yl-acetic acid, 6-benzylaminopurine (BAP) and casein hydrolysate. Protoplast-derived colonies gave callus on Murashige and Skoog salts medium with NAA and BAP and exhibited shoot regeneration on half-strength Murashige and Skoog medium supplemented with 0.2 mg 1^–1 4-indole-3yl-butyric acid, 2.0 mg 1^–1 BAP, 0.2 mg 1^–1 gibberellic acid, 50 mg 1^–1 casein hydrolysate and 10 mg 1^–1 Ca-pantothenate. Following rooting, protoplast-derived plants of pear were transferred to the glasshouse where they completed acclimatization.Abbreviations BAP 6-benzylaminopurine - FPE final plating efficiency - GA₃ gibberellic acid - IAA 4-indole-3yl-acetic acid - IBA 4-indole-3yl-but yric acid - IPE initial plating efficiency - NAA 1-naphthaleneacetic acid - f.wt. fresh weight - MES 2-N-morpholinoethane sulfonic acid - MS Murashige and Skoog (1962) - %PE % plating efficiency - PVP-10 polyvinylpyrrolidone (Av. MW 10,000) - FDA fluorescein diacetate     

Isolation of biochemical mutants using haploid mesophyll protoplasts of Hyoscyamus muticus

A population of 3070 clones derived from N-methyl-N-nitro-N-nitrosoguanidine (MNNG)-treated mesophyll protoplasts of haploid Hyoscyamus muticus was tested for amino-acid auxotrophy without enrichment. One clone (MA-2) was stably and specifically dependent on casein hydrolysate and could be fed also by a number of single amino acids or by other reduced nitrogen sources. MA-2 was found to be chlorate resistant and devoid of in vivo nitrate reductase activity under inductive conditions. Permissive and restrictive growth conditions for MA-2 were investigated more closely and media were found promoting morphogenesis. Selection and testing of clones were complicated by an unspecific growth stimulation of some wild type cultures by amino acids, thiamine and m-inositol.Abbreviations NAA 1-naphthaleneacetic acid - BAP 6-benzylaminopurine - MNNG N-methyl-N-nitro-N-nitrosoguanidine - NR nitrate reductase - CH casein hydrolysate     

Growth and Plating of Cell Suspension Cultures of Datura innoxia

Suspension cultures of Datura innoxia Mill, were successfully grown on a modified Murashige and Skoog medium with 2,4–D, NAA or BAP as growth substances, provided the micronutrient levels were reduced to 1/10. Normal amounts of micronutrients were toxic. Attempts to identify the toxic elements did not succeed. Cultures grew exponentially on a shaker at 27°C in the light. Their doubling times varied from 1.1 days on 2,4–D (10^–6M) or NAA (10^?5M)+ 1 g/1 casein hydrolysate to 2.7 days on BAP (3 × 10^?7M) and 5.1 days on supraoptimal levels of 2,4-D (10^?5M). Cultures grew on NH₄⁺-N alone (from ammonium malate) or on NO₃^?-N alone. Dry weight yield was proportional to the amount of nitrate-N added (47 mg/mg N). Filtered suspension cultures containing single cells (plating cultures) could be grown in agar in petri dishes when NAA or 2,4-D were used as growth substances. Cells grew at densities above 500 units/ml in the agar. Most colonies grew from cell aggregates but division in single cells was observed. The highest plating efficiency was about 50% on 10^?6 M 2,4-D + 1 g/1 casein hydrolysate.     

Induction of somatic embryogenesis in Azadirachta indica

A modified culture protocol has been developed for the induction of somatic embryogenesis in Azadirachta indica (neem). Embryogenic calluses were initiated from cotyledons or hypocotyls using a Murashige and Skoog (MS) agar medium supplemented with 0.5 mg l⁻¹ α-napthaleneacetic acid (NAA), 1 mg l⁻¹ 6-benzylaminopurine (BA), 1 g l⁻¹ casein hydrolysate, and 50 g l⁻¹ sucrose. The calluses, when transferred to a liquid medium similar to the agar medium but with NAA replaced by 0.5 mg l⁻¹ indole-3-acetic acid (IAA), formed globular structures which further developed a rudimentary root, after 4 to 5 weeks incubation. Subsequently, these highly differentiated tissues when transferred into a hormone-free MS medium containing 1 g l⁻¹ casein hydrolysate and 50 g l⁻¹ sucrose, active embryo masses started to appear after 1 to 2 weeks. The embryo production was found to improve more than 2 fold by adding 0.2 mg l⁻¹ zeatin to the medium. This revised version was published online in June 2006 with corrections to the Cover Date.     

Secretion of Proteinases with Fibrinolytic Activity by Micromycetes of the Genus <Emphasis Type="Italic">Aspergillus</Emphasis>

Proteolytic activity of extracellular enzymes of 11 strains of different Aspergillus species was studied. Comparison of the enzymatic indices of strains grown on agar medium containing either casein or fibrin allowed the selection of the strain Aspergillus terreus 2 as a promising producer of fibrinolytic proteases. It was found that A. terreus 2 proteinases demonstrated maximum activity at pH 8.0. The highest values of fibrinolytic and total proteolytic activities expressed in U_Tyr (amount of micromoles of tyrosine released from fibrin or casein for 1 min) were 34.0 and 358.3, respectively. Maximum activities were detected when growing the producer on a medium containing only amine nitrogen sources (fish flour hydrolysate and peptone); however, the amount of extracellular protein and the specific fibrinolytic and total proteolytic activities were greater in the medium containing both mineral and amine nitrogen sources (fish flour hydrolysate and sodium nitrate) than in the medium containing only fish flour hydrolysate and peptone as nitrogen sources.     

Influence of Potassium in the Agar Medium on the Growth Pattern of the Filamentous Fungus Fusarium solani

A decrease in the concentration of K⁺ ions below 3 mM in agar medium which also contained starch, casein hydrolysate, MgSO₄, and K₂HPO₄ changed the growth pattern of Fusarium solani illuminated in diurnal 12-h light/12-h dark cycles from zonation to a feathery growth mode. Rubidium or cesium ions could replace potassium, but lithium, sodium, and the bivalent alkaline earth ions could not.     

Enhanced development of somatic embryos of Plantago ovata Forsk. By additives

Summary Plantago ovata Forsk (commonly known as Isabgul) is an economically important medicinal plant. In the present investigation, in vitro plant regeneration of P. ovata was attempted through somatic embryogenesis. Casein hydrolysate and coconut water were used in different concentrations in Murashige and Skoog medium along with 1-naphthaleneacetic acid and N⁶-benzyladenine to increase the amount of callus and number of somatic embryos. Light and scanning electron microscopic studies followed the developmental stages of embryo formation. Results indicated that optimum concentrations of casein hydrolysate and coconut water are useful for promoting the growth of embryogenic cultures. However, a supra-optimal dose of casein hydrolysate and coconut water induced polyphenol synthesis and caused browning of callus and also eventual death of embryos. The use of additives such as coconut water and casein hydrolysate promotes large-scale production of P. ovata through in vitro somatic embryogenesis.     

Nitrate reductase deficient cell lines from haploid protoplast cultures ofNicotiana plumbaginifolia

Summary Nitrate reductase deficient (NR^-) cell lines were selected indirectly by their resistance to 40 mM chlorate in protoplast cultures of haploidNicotiana plumbaginifolia. Frequency of the chlorate resistant clones was 5.8×10^-5 in non-mutagenized cultures, which could be increased up to 25 times by treatment with N-ethyl-N-nitrosourea (NEU) or gamma irradiation.Out of 136 chlorate resistant clones 29 were fully deficient in nitrate reductase. The rest of the clones contained decreased or normal levels of NR activity (91 and 16 clones, respectively).Further characterization was carried out in 9 clones which were fully deficient in NR and in 2 clones containing resisdual (0–5%) NR activity. The clones were tentatively classified as defective in the apoenzyme (7 clones including the 2 with residual NR activity) or the cofactor (4 clones) of NR by the xanthine dehydrogenase activity and in vitro enzyme complementation. The cofactor defectives could be further classified into two groups. In one of these (2 clones) the NR activity could be partially restored by unphysiologically high (0.2–1 mM) molybdate in the culture medium. The other two are new types which have not been described in flowering plants.Plant regeneration was obtained only in the clones which contained residual NR activity.     

Toxicity of and mutagenesis by chlorate are independent of nitrate reductase activity in Chlamydomonas reinhardtii

Summary Spontaneous chlorate-resistant (CR) mutants have been isolated from Chlamydomonas reinhardtii wildtype strains. Most of them, 244, were able to grow on nitrate minimal medium, but 23 were not. Genetic and in vivo complementation analyses of this latter group of mutants indicated that they were defective either at the regulatory locus nit-2, or at the nitrate reductase (NR) locus nit-1, or at very closely linked loci. Some of these nit-1 or nit-2 mutants were also defective in pathways not directly related to nitrate assimilation, such as those of amino acids and purines. Chlorate treatment of wild-type cells resulted in both a decrease in cell survival and an increase in mutant cells resistant to a number of different chemicals (chlorate, methylammonium, sulphanilamide, arsenate, and streptomycin). The toxic and mutagenic effects of chlorate in minimal medium were not found when cells were grown either in darkness or in the presence of ammonium, conditions under which nitrate uptake is drastically inhibited. Chlorate was also able to induce reversion of nit ^– mutants of C. reinhardtii, but failed to produce His ⁺ revertants or Ara^r mutants in the BA-13 strain of Salmonella typhimurium. In contrast, chlorate treatment induced mutagenesis in strain E1F1 of the phototrophic bacterium Rhodobacter capsulatus. Genetic analyses of nitrate reductase-deficient CR mutants of C. reinhardtii revealed two types of CR, to low (1.5 mM) and high (15 mM) chlorate concentrations. These two traits were recessive in heterozygous diploids and segregated in genetic crosses independently of each other and of the nit-1 and nit-2 loci. Three her loci and four lcr loci mediating resistance to high (HC) and low (LC) concentrations of chlorate were identified. Mutations at the nit-2 locus, and deletions of a putative locus for nitrate transport were always epistatic to mutations responsible for resistance to either LC or HC. In both nit ⁺ and nit ^– chlorate-sensitive (CS) strains, nitrate and nitrite gave protection from the toxic effect of chlorate. Our data indicate that in C. reinhardtii chlorate toxicity is primarily dependent on the nitrate transport system and independent of the existence of an active NR enzyme. At least seven loci unrelated to the nitrate assimilation pathway and mediating CR are thought to control indirectly the efficiency of the nitrate transporter for chlorate transport. In addition, chlorate appears to be a mutagen capable of inducing a wide range of mutations unrelated to the nitrate assimilation pathway.     

In Vitro Regeneration of a High Oil-yielding Variety of Safflower (Carthamus tinctorius var HUS-305)

A protocol for regular in vitro regeneration of Carthamus tinctorius var HUS-305 is described. The morphogenic response of seed explants and explants from seedlings of different ages were studied on Murashige and Skoog’s medium (MS) supplemented with different growth regulators. The protocol finally standardized involves culture of cotyledonary explants from 2 cm long, 2- to 6-day-old seedlings on MS supplemented with 1.0 mg l^?1 BAP and 0.1 mg l^?1 kinetin. Various other adjuvants viz., adenine sulphate, glutamine and casein hydrolysate were also tested. None of these promoted the caulogenic response significantly. The microshoots could be rooted on medium supplemented with different auxins. The highest rhizogenic response was on 1/2 MS supplemented with 0.2 mg l^?1 NAA.     

An efficient,in vitro cyclic production of shoots from adult trees of <Emphasis Type="Italic">Crataeva nurvala</Emphasis> Buch. Ham.

An efficient, cyclic, two-step protocol for micropropagation of medicinal tree, Crataeva nurvala has been successfully developed, which can be employed at a commercial scale. Nodal explants from 30-year-old tree when cultured on MS medium supplemented with 2.22 μM BAP produced multiple shoots, which elongated satisfactorily on the same medium. Nodal and leaf explants from in vitro regenerated microshoots too developed shoots, thus making the process recurrent. In 6-month duration, owing to the recurring nature of the protocol, over 5400 shoots could be produced from a single nodal explant from the adult tree. Addition of casein hydrolysate significantly increased the average number of shoots per explant. Maximum number of shoots regenerated on medium supplemented with 100 mg l⁻¹ casein hydrolysate. Shoots could be rooted on 1/2 MS supplemented with 0.11 and 0.54 μM NAA. Regenerated plantlets were acclimatized and successfully transplanted to soil.     

Isolation and characterization of two new negative regulatory mutants for nitrate assimilation inChlamydomonas reinhardtii obtained by insertional mutagenesis

Plasmid DNA carrying either the nitrate reductase (NR) gene or the argininosuccinate lyase gene as selectable markers and the correspondingChlamydomonas reinhardtii mutants as recipient strains have been used to isolate regulatory mutants for nitrate assimilation by insertional mutagenesis. Identification of putative regulatory mutants was based on their chlorate sensitivity in the presence of ammonium. Among 8975 transformants, two mutants, N1 and T1, were obtained. Genetic characterization of these mutants indicated that they carry recessive mutations at two different loci, namedNrg1 andNrg2. The mutation in N1 was shown to be linked to the plasmid insertion. Two copies of the nitrate reductase plasmid, one of them truncated, were inserted in the N1 genome in inverse orientation. In addition to the chlorate sensitivity phenotype in the presence of ammonium, these mutants expressed NR, nitrite reductase and nitrate transport activities in ammonium-nitrate media. Kinetic constants for ammonium (¹⁴C-methylammonium) transport, as well as enzymatic activities related to the ammonium-regulated metabolic pathway for xanthine utilization, were not affected in these strains. The data strongly suggest thatNrg1 andNrg2 are regulatory genes which specifically mediate the negative control exerted by ammonium on the nitrate assimilation pathway inC. reinhardtii.     

Induction and Characterization of Chlorate-resistant Strains of Rosa damascena Cultured Cells

The sensitivity of Rosa damascena cultured cells to chlorate was measured by plating samples of suspensions in agar containing NaClO₃. This sensitivity depended on the age of the cultures that were plated. Chlorate-resistant colonies isolated from 5- to 7-day cultures retained their resistance through many generations of growth in medium lacking NaClO₃; they also retained resistance when mixed with sensitive cells. Treating cell aggregates with ultraviolet (UV) light (254 nanometers), or UV light (360 nanometers) in the presence of 4′-methoxymethyltrioxsalen, increased the proportion that was resistant to NaClO₃. However, the amount of increase was low (three times) and required very specific doses of UV light. The UV treatments did not select for chlorate-resistant cells over chlorate-sensitive cells. The data suggested that UV had induced mutations leading to chlorate resistance. Approximately 15% of the resistant strains did not grow on medium containing nitrate as the sole nitrogen source. These strains lacked ability to reduce chlorate to chlorite. This observation supports the current idea that chlorate toxicity depends on the activity of nitrate reductase. Approximately 85% of the resistant strains grew on medium containing nitrate as the sole nitrogen source. These strains lost catalase activity following chlorate treatment, indicating that they took up and reduced chlorate. These strains have a mechanism for tolerating chlorate and its reduction products, rather than avoiding them.