Characterization of an Ethylene Overproducing Mutant of Tomato (Lycopersicon esculentum Mill. Cultivar VFN8)

Ethylene production rates and tissue ethylene concentrations were determined for the single-gene, Epinastic (Epi) tomato (Lycopersicon esculentum Mill.) mutant, and its parent, cv VFN8. The Epi phenotype was characterized by severe leaf epinasty, thickened stems and petioles, and a compact growth habit. In 4-day-old seedlings, ethylene production was significantly higher in Epi than in VFN8. Ethylene production rates also were higher for excised root, hypocotyl, cotyledon, and shoot tissue of 14-day-old Epi seedlings as compared with VFN8. The greatest difference in the ethylene production rate was observed in excised Epi shoot tissue, which was more than 2.5 times higher than in VFN8. Tissue ethylene concentrations of 19−, 25−, and 31-day-old Epi plants were 8, 172, and 307% higher than for VFN8, corresponding to increasing expression of the Epi phenotypic characteristics with age. The highest ethylene concentrations occurred in the shoot apex of both genotypes. Higher ethylene concentrations in Epi resulted from greater 1-aminocyclopropane-1-carboxylic acid content rather than increased ethylene-forming enzyme activity. The elevated ethylene levels in Epi did not result from increased auxin sensitivity. The sensitivity of root growth to inhibition by ethylene did not differ between VFN8 and Epi. Although elevated levels of ethylene in Epi plants apparently exacerbate its epinastic growth characteristics, other evidence indicates that this may not be the fundamental lesion. This mutant may provide a unique system for investigating the regulation of ethylene biosynthesis and the role of target cell types in plant development.     

Auxin and Ethylene Regulation of Petiole Epinasty in Two Developmental Mutants of Tomato, diageotropica and Epinastic

The epinastic growth responses of petioles to auxin and ethylene were quantified in two developmental mutants of tomato (Lycopersicon esculentum Mill.). In the wild type parent line, cultivar VFN8, the epinastic response of excised petiole sections was approximately log-linear between 0.1 and 100 micromolar indole-3-acetic acid (IAA) and 2,4-dichlorophenoxyacetic acid (2,4-D) concentrations, with a greater response to 2,4-D at any concentration. When ethylene synthesis was inhibited by aminoethoxyvinylglycine (AVG), epinasty was no longer induced by auxin, but could be restored by the addition of ethylene gas. In the auxin-insensitive mutant, diageotropica (dgt), no epinastic response to IAA was observed at IAA concentrations that effectively induced epinasty in VFN8. In the absence of added IAA, epinastic growth of dgt petioles in 1.3 microliters per liter exogenous ethylene gas was more than double that of VFN8 petioles. IAA had little additional effect in dgt, but promoted epinasty in VFN8. These results confirm that tomato petiole cells respond directly to ethylene and make it unlikely that the differential growth responsible for epinasty results from lateral auxin redistribution. The second mutant, Epinastic (Epi), exhibits constitutively epinasty, cortical swelling, and root branching symptomatic of possible alternation in auxin or ethylene regulation of growth. Only minor quantitative differences were observed between the epinastic responses to auxin and ethylene of VFN8 and Epi. However, in contrast to VFN8, when ethylene synthesis or action was inhibited in Epi, auxin still induced 40 to 50% of the epinastic response observed in the absence of inhibitors. This indicates that the target cells for epinastic growth in Epi are qualitatively different from those of VFN8, having gained the ability to grow differentially in response to auxin alone. The dgt and Epi mutants provide useful systems in which to study the genetic determination of target cell specificity for hormone action.     

Quantification of Indole-3-Acetic Acid in Dark-Grown Seedlings of the Diageotropica and Epinastic Mutants of Tomato (Lycopersicon esculentum Mill.)

Endogenous indoleacetic acid (IAA) levels were examined in 7-day-old, dark-grown tomato seedlings (Lycopersicon esculentum Mill. cv VFN8), and in two single-gene mutants, Epinastic and diageotropica. Gas chromatography-mass spectrometry was employed to quantify IAA using ¹³C₆-[benzene ring]indoleacetic acid as internal standard. IAA concentrations ranged from 89 to 134 nanograms per gram dry weight and were not significantly different for the three genotypes. Ethylene over-production by dark-grown Epi seedlings is not likely to result from increased IAA. Assuming similar recovery percentages for each genotype, indole-3-ethanol, a purported storage form of IAA, was identified by GC-MS and found to be more prevalent in the parent tomato, VFN8, with only trace amounts observed in Epi. No IEt was detected by high performance liquid chromatography/fluorescence in dgt (detection limit >100 picograms).     

Cytokinin-induced hypocotyl elongation in light-grown<Emphasis Type="Italic"> Arabidopsis</Emphasis> plants with inhibited ethylene action or indole-3-acetic acid transport

Cytokinins inhibit hypocotyl elongation in darkness but have no obvious effect on hypocotyl length in the light. However, we found that cytokinins do promote hypocotyl elongation in the light when ethylene action is blocked. A 50% increase in Arabidopsis thaliana (L.) Heynh. hypocotyl length was observed in response to N⁶-benzyladenine (BA) treatment in the presence of Ag⁺. The level of the ethylene precursor 1-aminocyclopropane-1-carboxylic acid was strongly increased, indicating that ethylene biosynthesis was up-regulated by treatment with cytokinin. Furthermore, the effects of cytokinins on hypocotyl elongation were also tested using a series of mutants in the cascade of the ethylene-signal pathway. In the ethylene-insensitive mutants etr1-3 and ein2-1, cytokinin treatment resulted in hypocotyl lengths comparable to those of wild-type seedlings treated with both Ag⁺ and BA. A similar phenotypical response to cytokinin was observed when auxin transport was blocked by -naphthylphthalamic acid (NPA). Applied cytokinin largely restored cell elongation in the basal and middle parts of the hypocotyls of NPA-treated seedlings and at the same time abolished the NPA-induced decrease in indole-3-acetic acid levels. Our data support the hypothesis that, in the light, cytokinins interact with the ethylene-signalling pathway and conditionally up-regulate ethylene and auxin synthesis.     

Regulation of cell division in the subapical shoot meristem of dwarf watermelon seedlings by gibberellic acid and polyethylene glycol 4000

The stimulatory effects of gibberellic acid (GA₃) and the inhibitory effects of polyethylene glycol 4000 (PEG) on hypocotyl elongation and cell cycle kinetics in subapical pith cells of dwarf watermelon seedlings (Citrullus lanatus [Thunb.] Matsu and Nakai) were investigated. Mitotic indices (MI) were determined from direct counts of pith cells stained by a modified Feulgen technique. Labeling indices (LI) were determined from direct counts of labeled pith cells sampled 1.5 h after apical applications of³H-thymidine. Root application of 0.32 mM GA₃ at 96, 120, or 144 h after sowing resulted in significant increases in both mitotic and labeling indices within 4.5 to 7.5 h following treatment. A single mitotic peak at 13.5 h occurred in all three treatment periods. Labeling peaks were often less defined than mitotic peaks; however, a relatively high proportion of labeled nuclei were usually observed between 7.5 and 9 h after GA₃ treatment and at 16.5 h, the latter period coinciding with progression of cells into S phase from the peak period of mitosis. The results suggest that GA₃ increases the proportion of rapidly dividing cells in the subapical meristem by increasing the probability that slowly cycling or nonproliferative cells in both 2C and 4C DNA states will enter the proliferative pool. The addition of PEG (200 g/l, = 1.5 mPA) to the rooting medium of dwarf watermelon seedlings inhibited hypocotyl elongation and reduced both mitotic and labeling indices simultaneously within 4.5 h after treatment. Within 24–28 h after PEG treatment, mitotic and labeling indices approached 0. Seedlings transferred from PEG to either water or GA₃ exhibited rapid recovery of cell division and hypocotyl elongation. Mitotic and labeling indices increased within 4.5–7.5 h into the recovery period in either water or GA₃ and reached control values within 10.5 h. GA₃ hastened the recovery from PEG-induced stress. It is concluded that water stress imposed by PEG 4000 causes arrest of cell division in meristematic cells of watermelon seedlings in both G₁ and G₂ periods. PEG and GA treatments resulted in only a partial and transitory synchronization of the cell cycle.     

Mechanism of sex determination inRumex hastatulus Baldw.

Summary The results presented indicate that the sex determination mechanism in the Texas race ofR. hastatulus 2n = 10 (XX + 8A); 2n = 10 (XX + 8A)] is intermediate between theX/Y andX/A systems. In this race, sex is determined to some extent by theX/A balance, but theY chromosome also affects sex expression, maleness or intersexuality being correlated with different ratios ofX andY chromosomes.The results obtained for the Texas race are fully compatible with data presented by Smith (1963) for the North Carolina race [ 2n = 8 (XX + 6A); 2n = 9 (XX ₁ Y ₂ + 6A)]. It may be concluded that evolution of the karyotype in this species is not accompanied by changes in the mechanism of sex determination.     

Synergistic effect of ethylene inhibitors and putrescine on shoot regeneration from hypocotyl explants of Chinese radish (Raphanus sativus L. var. longipinnatus Bailey) in vitro

Summary The role of ethylene and putrescine on shoot regeneration from hypocotyl explants of Chinese radish (Raphanus sativus L. var. longipinnatus Bailey cv. Red Coat) was investigated. Explants were recalcitrant in culture, but exogenous application of ethylene inhibitor [20–30 M aminoethoxyvinylglycine (AVG) or AgNO₃] enhanced shoot regeneration of explants grown on medium supplemented with 2 mg/l N⁶-benzyladenine and 1 mg/l 1-naphthaleneacetic acid. The best regeneration occurred in the medium containing AgNO₃ in combination with AVG. Culture medium solidified with agarose in the presence of AgNO₃ but not AVG was also beneficial to shoot regeneration. Exogenous putrescine, 2-chloroethylphosphonic acid and 1-aminocyclopropane-1-carboxylate had no effect on shoot regeneration. However, regeneration was greatly promoted by 10–25 mM putrescine in combination with 30 M AgNO₃ or AVG. Explants with high regenerability grown in the presence of AgNO₃ or in combination with putrescine emanated high levels of ethylene throughout the 21-d culture period. By contrast, AVG or putrescine alone resulted in a decrease in ethylene production. For rooting of shoot cuttings, IAA and IBA at 1–5 mg/l were more effective than NAA.Abbreviations ACC 1-aminocyclopropane-1-carboxylate - AVG aminoethoxyvinylglycine - BA N⁶-benzyladenine - CEPA 2-chloroethylphosphonic acid - IAA indole-3-acetic acid - IBA indole-3-butyric acid - MS Murashige and Skoog (1962) medium - NAA 1-naphthaleneacetic acid - PAs polyamines - SAM S-adenosyl-L-methionine     

Pathogenesis-related proteins and polyamines in a developmental mutant of tomato, epinastic

The polyamine level and the accumulation of pathogenesis-related (PR) proteins were studied in the ethylene overproducing Epinastic (Epi) tomato (Lycopersicon esculentum Mill.) mutant, as compared with its parent, cv VFN8. Neither a decreased putrescine level nor an enhanced production of PR proteins were detected in Epi, contrary to what could be expected from our previous studies (JM Bellés, J Carbonell, V Conejero [1991] Plant Physiol 96: 1053-1059). However, treatment with the ethylene-releasing compound 2-chloroethylphosphonic acid (ethephon) or silver nitrate at high doses induced a decrease in putrescine content and an enhancing of the synthesis of PR proteins in Epi as ascertained by immunoblot analysis using antisera raised against Rutgers tomato PR proteins.     

Expression ofKlebsiella pneumoniae nif genes inProteus mirabilis

Self-transmissible plasmids carryinghis andnif genes fromKlebsiella pneumoniae have been introduced into threehis mutants ofProteus mirabilis: strains 5006-1, WR19 and WR20. Expression ofhis by the transconjugants was unequivocal, if slightly temperature-sensitive, but none was Nif⁺ when tested for acetylene reduction in anaerobic glucose medium using inocula from rich or glucose-minimal aerobic agar cultures. Succinate or pyruvate in place of glucose, low glucose, lower temperature or elevated Na₂MoO₄ did not allownif expression and no nitrogenase MoFe-protein peptide was detected immunologically after exposure to conditions in which diazotrophic enterobacteria, normal or genetically constructed, derepressnif.One strain,P. mirabilis WR19, carrying thehis nif Km^r plasmid pMF250 was examined in detail. Thenif activator genenifA was introduced on the plasmid pCK1. Such derivatives remained Nif^- when tested, after aerobic growth on rich agar media, with normal or low glucose, with succinate or with elevated Mo. However, pre-conditioning by aerobic growth on glucose-minimal agar led to subsequent anaerobic expression ofnif in glucose medium from pMF250 in WR19 carrying pCK1. NH ₄ ⁺ or proline could serve as N-source in the glucose-minimal agar. Maximum activity was about 5% of that ofK. pneumoniae in our assay conditions. Material cross-reacting with anti-serum to the nitrogenase MoFe protein was formed. Nitrogenase activity was not switched off by NH ₄ ⁺ .P. mirabilis WR19 (pCK1) showed NH ₄ ⁺ -constitutive temperature-sensitive kanamycin resistance (anif-related phenotype of this plasmid) in aerobic glucose minimal medium. Expression ofnif inP. mirabilis WR19 (pCK1, pMF250) was NH ₄ ⁺ -repressible despite the constitutivenifA character of pCK1 and introduction of thentrA ⁺ plasmid pMM17 did not alter this phenotype. However, pCK1 did not give rise to NH ₄ ⁺ -constitutive diazotrophy in the wild-typeK. pneumoniae M5al. A construct of WR19 carrying pMF250 and constitutiventrC plasmid (pMD45) remained Nif^- even after pre-growth on glucose-minimal media.We conclude (a) thatP. mirabilis forms a gene product functionally equivalent to that ofntrA inK. pneumoniae, (b) that it forms no functional equivalent of thentrC product in our growth conditions. The need for pre-conditioning on aerobic glucose media remains perplexing.Non-common abbreviation NFDM Nitrogen-free-Davis-Mingioli medium     

Members of the pogo superfamily of DNA-mediated transposons in the human genome

Bacillus subtilis, likeEscherichia coli, possesses several sets of genes involved in the utilization of-glucosides. InE. coli, all these genes are cryptic, including the genes forming thebgl operon, thus leading to a Bgl^– phenotype. We screened forB. subtilis chromosomal DNA fragments capable of reverting the Bgl⁺ phenotype associated with anE. coli hns mutant to the Bgl^– wild-type phenotype. OneB. subtilis chromosomal fragment having this property was selected. It contained a putative Ribonucleic AntiTerminator binding site (RAT sequence) upstream from thebglP gene. Deletion studies as well as subcloning experiments allowed us to prove that the putativeB. subtilis bglP RAT sequence was responsible for the repression of theE. coli bgl operon. We propose that this repression results from the titration of the BglG antiterminator protein ofE. coli bgl operon by our putativeB. subtilis bglP RAT sequence. Thus, we report evidence for a new cross interaction between heterologous RAT-antiterminator protein pairs.     

Light-dependent enhanced metabolism of chlorotoluron in a substituted urea herbicide-resistant biotype ofLolium rigidum Gaud.

A population ofLolium rigidum Gaud. displays resistance to the herbicide chlorotoluron endowed by enhanced metabolism of this herbicide. The level of resistance in intact plants of this population is light dependent. Resistance is about 4-fold at 110 mol photons·m^–2·s^–1, but increases to 11-fold at 600 mol photons·m^–2·s^–1. For seedlings grown in the dark, the rate of chlorotoluron metabolism is identical between biotypes; however, seedlings of the resistant biotype grown in the light display enhanced chlorotoluron metabolism compared to the susceptible biotype. Specifically, light with blue wavelengths induces chlorotoluron metabolism in the resistant biotype. An analysis of the metabolites produced indicates that two routes of chlorotoluron metabolism occur inL. rigidum. These are characterised by initial reactions leading to ringmethyl hydroxylation orN-demethylation of the herbicide. The ring-methyl hydroxylation pathway is increased greatly in light-grown resistant seedlings compared to susceptible seedlings, whereas theN-demethylation pathway is only slightly increased. The differential induction of these two pathways in resistantL. rigidum by light suggests that enhanced activity of two different enzymes may be involved in chlorotoluron resistance.Abbreviations ABT 1-aminobenzotriazole - LD₅₀ dose giving 50% mortality - LSS liquid scintillation spectroscopy     

Studies on adenosine triphosphate transphosphorylases. XVIII. Synthesis and preparation of peptides and peptide fragments of rabbit muscle ATP-AMP transphosphorylase (adenylate kinase) and their nucleotide-binding properties

Two peptide fragments, derived from the head and tail of rabbit muscle myokinase, were found to possess remarkable and specific ligand-binding properties (Hamadaet al., 1979).By initiating systematic syntheses and measurements of equilibrium substrate-binding properties of these two sets of peptides, or portions thereof, which encompass the binding sites for (a) the magnesium complexes of the nucleotide substrates (MgATP^2– and MgADP^–) and (b) the uncomplexed nucleotide substrates (ADP^3– and AMP^2–) of rabbit muscle myokinase, some of the requirements for binding of the substrates to ATP-AMP transphosphorylase are being deduced and chemically outlined. One requirement for tight nucleotide binding appears to be a minimum peptide length of 15–25 residues. In addition, Lys-172 and/or Lys-194 may be involved in the binding of AMP.The syntheses are described as a set of peptides corresponding to residues 31–45, 20–45, 5–45, and 1–45, and a set of peptides corresponding to residues 178–192, 178–194, and 172–194 of rabbit muscle adenylate kinase. The ligand-binding properties of the first set of synthetic peptides to the fluorescent ligands: MgATP/ATP and MgADP/ADP are quantitatively presented in terms of their intrinsic dissociation constants (K_d) and values ofN (maximal number of moles bound per mole of peptide); and compared with the peptide fragment MT-I (1–44) obtained from rabbit muscle myokinase (Kubyet al., 1984) and with the native enzyme (Hamadaet al., 1979). In addition, the values ofN andK_d are given for the second set of synthetic peptides to the fluorescent ligands AMP and ADP as well as for the peptide fragments MT-XII(172–194) and CB-VI(126–194) (Kuby et al., 1984) and, in turn, compared with the native enzyme.A few miscellaneous dissociation constants which had been derived kinetically are also given for comparison (e.g., theK _i for AMP and the value of obtained for the native enzyme) (Hamada and Kuby, 1978), and theK'_d measured for Cr³⁺ and the synthetic peptide I_1–45 (Fryet al., 1985b).Paper XVII of this series is Kubyet al. (1983).     

Effects of CO2 enrichment and water stress on gas exchange of Liquidambar styraciflua and Pinus taeda seedlings grown under different irradiance levels

Summary The effects of CO₂ enrichment and water stress on gas exchange of Liquidambar styraciflua L. (sweetgum) and Pinus taeda L. (loblolly pine) seedlings were examined for individuals grown from seed under high (1000 mol·m^-2·s^-1) and low (250 mol·m^-2·s^-1) photosynthetic photon flux density at 350, 675 and 1000 l·l^-1 CO₂. At 8 weeks of age, half the seedlings in each CO₂-irradiance treatment were subjected to a drying cycle which reduced plant water potential to about -2.5 MPa in the most stressed plants, while control plants remained well-watered (water potentials of -0.3 and -0.7 MPa for sweetgum and loblolly pine, respectively). During this stress cycle, whole seedling net photosynthesis, transpiration and stomatal conductance of plants from each CO₂-irradiance-water treatment were measured under respective growth conditions.For both species, water stress effects on gas exchange were greatest under high irradiance conditions. Waterstressed plants had significantly lower photosynthesis rates than well-watered controls throughout most of the drying cycle, with the most severe inhibition occurring for low CO₂, high irradiance-grown sweetgum seedlings. Carbon dioxide enrichment had little effect on gas exchange rates of either water-stressed or well-watered loblolly pine seedlings. In contrast, water stress effects were delayed for sweetgum seedlings grown at elevated CO₂, particularly in the 1000 l·l^-1 CO₂, high irradiance treatment where net photosynthesis, transpiration and conductance of stressed plants were 60, 36 and 33% of respective control values at the end of the drying cycle. Development of internal plant water deficits was slower for stressed sweetgum seedlings grown at elevated CO₂. As a result, these seedlings maintained higher photosynthetic rates over the drying cycle than stressed sweetgum seedlings grown at 350 l·l^-1 CO₂ and stressed loblolly pine seedlings grown at ambient and enriched CO₂ levels. In addition, water-stressed sweetgum seedlings grown at elevated CO₂ exhibited a substantial increase in water use efficiency.The results suggest that with the future increase in atmospheric CO₂ concentration, sweetgum seedlings should tolerate longer exposure to low soil moisture, resulting in greater first year survival of seedlings on drier sites of abandoned fields in the North Carolina piedmont.     

Control by light of hypocotyl growth in de-etiolated mustard seedlings

After sowing, mustard (Sinapis alba L.) seedlings were grown for 48 h in white light (25°C). These fully de-etiolated, green seedlings were used as experimental material between 48 and 72 (84) h after sowing. The question researched was to what extent control by light of hypocotyl elongation is due to phytochrome in these seedlings. It was found that the light effect on hypocotyl growth is very probably exerted through phytochrome only. In particular, we found no indication for the involvement of a specific blue light photoreceptor pigment.Abbreviations HIR high irradiance reaction - P_fr far-red absorbing, physiologically active form of phytochrome - P_r red absorbing, physiologically inactive form of phytochrome - Pot total phytochrome, i.e. [P_r]+[P_fr] - [P_fr]/[P_tot] - red red light - fr far-red light - wl white light - bl blue light - di dichromatic irradiation - l hypocotyl length     

Effect of calcium, (2-chloroethyl) phosphonic acid and ethylene on bean leaf abscission

Summary The effects of CaCl₂, (2-chloroethyl) phosphonic acid (Ethephon) and ethylene on leaf abscission of debladed and intact bean plants (Phaseolus vulgaris L.) were studied. Ethephon (1000 g/l) and ethylene (8 l/l) induced abscission in debladed and intact plants in 24–72 h whereas IAA (10^-5M), cycloheximide (10^-5M) and CaCl₂ (0.068M) delayed abscission in debladed plants. CaCl₂ completely inhibited the abscission-enhancing effect of Ethephon in intact bean leaves. When CaCl₂ and Ethephon were applied simultaneously to separate halves of the leaf blade, leaves with Ethephon applied closest to the pulvinus abscised rapidly; when CaCl₂ was applied closest to the pulvinus, abscission was prevented. Calcium pre-treatment prior to ethylene (8 l/l) treatment of debladed plants delayed abscission as compared to those treated with ethylene alone.Michigan Agricultural Experiment Station Journal Article No. 6299.     

Effects of carbon dioxide on the spatially separate electrogenic ion pumps and the growth rate in the hypocotyl ofVigna sesquipedalis

Carbon dioxide, introduced into the gas phase of the experimental chamber, has distinct effects on two spatially separate membrane potentials and the rate of elongation growth in hypocotyl segments ofVigna sesquipedalis Wight. Both membrane potentials (V _ps andV _px=the electric potential difference between the parenchyma symplast and the surface of the hypocotyl, and that between the parenchyma symplast and the xylem, respectively) hyperpolarized rapidly but transiently at the introduction of CO₂. Prolonged exposure of the hypocotyl to high concentrations of CO₂ (above 10%) caused depolarization of membrane potentials above the level before CO₂ introduction. When CO₂ was replaced with air, the membrane potentials exhibited a distinct depolarization response of transient nature. The growth rate of the hypocotyl segments exhibited similar responses to CO₂ as did the membrane potentials (the increase and the decrease of the growth rate were corresponded to the hyperpolarization and the depolarization, respectively), but these responses always followed the changes of the membrane potentials. The CO₂-induced maximum hyperpolarization ofV _ps and the maximum increase of the growth rate were closely correlated. All these responses were strictly dependent on aerobic metabolism. These results indicate that CO₂ may regulate elongation growth in two ways: by affecting the activity of the electrogenic ion pump via intracellular acidification, and also by acting via apoplastic acidification as a wall-loosening acid.Symbols and abbreviations V _sx electric potential difference between the surface (S) and the xylem (X) of the hypocotyl - V _px electric potential difference between the inside of a parenchyma cell (P) andX - V _ps electric potential difference betweenP andS - V _ps (CO₂, max) the maximum value of CO₂-induced hyperpolarization ofV _ps - GR(CO₂, max) the maximum value of CO₂-induced increase of the growth rate - IAA indole-3-acetic acid     

Selection and micropropagation of nodulating and non-nodulating clones ofAlnus crispa (Ait.) Pursh

Summary 600,000 seedlings ofAlnus crispa were inoculated with a 111 mixture of theFrankia strains ACN1 ^AG , AGN1 _exo ^AG and MGP10i. After 3 successive inoculations and screenings, one individual, AC-4, was selected as non-nodulating (Nod^–) with Frankiae. This selected individual AC-4 (Nod^–) and two other clones ofA. crispa, AC-2 and AC-5, known for their ability to nodulate (Nod⁺) and two other clones ofA. crispa, AC-2 and AC-5, known for their ability to nodulate (Nod⁺) withFrankia werein vitro propagated. The different clones ofA. crispa in culture required different kinds and concentrations of sugar during the in vitro multiplication and rooting stages. Nodulation tests using 7Frankia strains indicated that the clone AC-4 (Nod^–) was non-nodulating with 6 of the 7Frankia strains tested. One strain,Frankia ANNI, isolated from one unique nodule produced on the mother-plant AC-4, induced 38% of the AC-4 plantlets to nodulate but with a number of nodules 10 to 20 times less than the clones AC-2 (Nod⁺) and AC-5 (Nod⁺). Morphological observations of the roots of AC-4 (Nod^–) indicated that this clone had few and abnormally short root hairs.     

The bacterial phleomycin resistance geneble as a dominant selectable marker inChlamydomonas

A chimeric gene composed of the coding sequence of theble gene fromStreptoalloteichus hindustanus fused to the 5 and 3 untranslated regions of theChlamydomonas reinhardtii nuclear geneRBCS2 has been constructed. Introduction of this chimeric gene into the nuclear genome ofC. reinhardtii by co-transformation with theARG7 marker yields Arg⁺ transformants of which approximately 80% possess theble gene. Of these co-transformants, approximately 3% display a phleomycin-resistant (Pm^R) phenotype. Western blot analysis using antibodies against theble gene product confirms the presence of the protein in the Pm^R transformants and genetic analysis demonstrates the co-segregation of theble gene with the phenotype in progeny arising from the mating of a Pm^R transformant to wild-type strains. Direct selection of Pm^R transformants was achieved by allowing an 18-h period for recovery and growth of transformed cells prior to selection. This work represents the first demonstration of stable expression and inheritance of a foreign gene in the nuclear genome ofC. reinhardtii and provides a useful dominant marker for nuclear transformation.     

Internode length inPisum: biochemical expression of thele andna mutations in the slender phenotype

Thele andna mutations in pea block GA biosynthesis and normally cause a marked reduction in internode length. However, neither of these genes influences the growth of plants carrying thecry ^s la gene combination. Plants of this genotype have long, thin internodes, pale green foliage, and abnormal flower and fruit development, collectively referred to as the slender phenotype. [¹³C,³H]Gibberellin A₂₀ is metabolized to GA₁, GA₈, and GA₂₉ in slender lines carrying the geneLe but only to GA₂₉ and GA₂₉-catabolite inle lines. Examination of¹²C:¹³C isotopic ratios showed that metabolites were strongly diluted by endogenous [¹²C]GAs inNa lines. However, little if any significant dilution was observed in a line homozygous for thena gene. These results confirm that thele andna mutations are fully expressed at the biochemical level in slender phenotypes of peas and concur with previous reports that internode elongation is entirely independent of GA levels incry ^s la (slender) plants.