Analysis of mitochondrial DNA from somatic hybrid cell lines of Saccharum officinarum (sugarcane) and Pennisetum americanum (pearl millet)

Mitochondrial DNA (mtDNA) from cell suspension cultures of two intergeneric somatic hybrids of Pennisetum americanum (pearl millet) + Saccharum officinarum (sugarcane) was examined by restriction endonuclease digestion and hybridization with sorghum mtDNA cosmids. The mtDNA of one somatic hybrid was indistinguishable from that of pearl millet, while the second exhibited a combination of parental mtDNAs, suggesting mitochondrial fusion. Several novel, possibly recombinant, mtDNA restriction fragments were detected in this hybrid, which may have resulted from intergenmic recombination.Florida Agriculture Experiment Station Journal Series No: 8090.     

Genetic transformation of a pasture legume,Lotus corniculatus,L. (birdsfoot trefoil)

Summary A rapid procedure for introducing foreign genes inLotus corniculatus based on the induction of hairy roots byAgrobacterium rhizogenes was developed. Expression of chloramphenicol acetyltransferase and neomycin phosphotransferase II was revealed in transgenic plants. Southern blot hybridization was used to confirm the genetic transformation. The transgenic plants looked normal and did not show any morphological modification compared to the seed grown plants.     

Conopy architecture of Larrea tridentata (DC.) Cov., a desert shrub: foliage orientation and direct beam radiation interception

Summary At sites in the United States, creosote bushes (Larrea tridentata (DC.) Cov.) orient foliage clusters predominantly toward the southeast. Foliage of bushes at the southernmost distribution extreme in Mexico shows no predominant orientation. Clusters at all sites are inclined between 33° and 71° from the horizontal. Inclinations are steeper in the drier and hotter Mojave Desert than in the Chihuahuan Desert. Individual leaflets, though not measured, appear more randomly oriented than foliage clusters. In several populations studied, branches were shorter in the southeastern sectors of the crown, reducing self-shading early in the morning. Measurements of direct beam radiation interception by detached branches, using digital image processing, indicated that foliage clusters oriented toward the southeast exhibited less self-shading during spring mornings than clusters oriented northeast. This effect was not apparent at the summer solstice. This type of canopy architecture may tend to minimize self-shading during the morning hours when conditions are more favorable for photosynthesis, resulting in an improved daily water use efficiency.     

Effects of manipulation of water and nitrogen regime on the water relations of the desert shrub Larrea tridentata

Summary Water and nitrogen regimes of Larrea tridentata shrubs growing in the field were manipulated during an annual cycle. Patterns of leaf water status, leaf water relations characteristics, and stomatal behavior were followed concurrently. Large variations in leaf water status in both irrigated and nonirrigated individuals were observed. Predawn and midday leaf water potentials of nonirrigated shrubs were lowest except when measurements had been preceded by significant rainfall. Despite the large seasonal variation in leaf water status, reasonably constant, high levels of turgor were maintained. Pressure-volume curve analysis suggested that changes in the bulk leaf osmotic potential at full turgor were small and that nearly all of the turgor adjustment was due to tissue elastic adjustment. The increase in tissue elasticity with increasing water deficit manifested itself as a decrease in the relative water content at zero turgor and as a decrease in the tissue bulk elastic modulus. Because of large hydration-induced displacement in the osmotic potential and relative water content at zero turgor, it was necessary to use shoots in their natural state of hydration for pressure-volume curve determinations. Large diurnal and seasonal differences in maximum stomatal conductance were observed, but could not easily be attributed to variations in leaf water potential or leaf water relations characteristics such as the turgor loss point. The single factor which seemed to account for most of the diurnal and seasonal differences in maximum stomatal conductance between individual shrubs was an index of soil/root/ shoot hydraulic resistance. Daily maximum stomatal conductance was found to decrease with increasing soil/root/ shoot hydraulic resistance. This pattern was most consistent if the hydraulic resistance calculation was based on an estimate of total canopy transpiration rather than the more commonly used transpiration per unit leaf area. The reasons for this are discussed. It is suggested that while stomatal aperture necessarily represents a major physical resistance controlling transpiration, plant hydraulic resistance may represent the functional resistance through its effects on stomatal aperture.     

Receptor occupancy by a bovine sialoglycopeptide inhibitor correlates with inhibition of protein synthesis

We have isolated from bovine cerebral cortex cells and purified to homogeneity an 18,000 dalton, pl 3.0 sialoglycopeptide that inhibits protein synthesis and DNA synthesis of nontransformed but not transformed cells without affecting uptake of radiolabeled precursors. In this paper, we examine the relationship between the binding of the sialoglycopeptide inhibitor to 3T3 cells and inhibition of protein synthesis. Binding of the sialoglycopeptide to 3T3 cells was rapid at 37 degrees C and reached a maximum at 30 min; the binding at 37 degrees C was shown to be saturable and specific. Scatchard analysis of the binding indicated that 3T3 cells contained about 2 X 10(4) receptors/cell with a dissociation constant of 1.0-1.5 nM. Several lines of evidence indicated that receptor occupancy on 3T3 cells correlated with the protein synthesis inhibitory activity of the sialoglycopeptide. A comparison of the kinetics of inhibitor binding with the kinetics of protein synthesis inhibition demonstrated that binding directly correlated with the inhibition of protein synthesis, concentration-dependent inhibition of protein synthesis directly correlated with concentration-dependent receptor occupancy, and a direct correlation was also observed between the kinetics of inhibitor dissociation from its specific cell surface receptor and the kinetics of recovery from protein synthesis inhibition.     

Cell agglutination by a novel cell surface sialoglycopeptide inhibitor and the relationship between its protease and biological activities

A bovine sialoglycopeptide, purified to homogeneity and capable of inhibiting cellular protein synthesis and proliferation, was shown to agglutinate a wide variety of nontransformed and transformed cells. The cell agglutination activity was shown to be independent of the biological inhibitory action and most likely related to a protease activity that could not be physically separated during purification of the sialoglycopeptide. Samples that were completely biologically inactivated retained full protease activity and their ability to agglutinate target cells. Balb/c 3T3 cells were not agglutinated by the sialoglycopeptide and they elicited a protein that interfered with the agglutination reaction and even redispursed cells that already had been aggregated by the inhibitor.     

Seasonal Acclimation of Stem Photosynthesis in Woody Legume Species from the Mojave and Sonoran Deserts of California

Photosynthesis (Pn) was measured in stems of two desert legumes, Caesalpinia virgata at a low elevation site (118 m) in the Sonoran Desert and Senna armata at a higher elevation (950 m) in the Mojave Desert. The lower elevation site experienced higher spring and summer temperatures than the higher elevation site, but the air vapor pressure, irradiance, and rainfall patterns were similar. Mid-morning maximum stem Pn was highest in May for C. virgata (7.8 [mu]mol m-2 s-1) and in July for S. armata (5.8 [mu]mol m-2 s-1). The seasonal variation in maximum stem Pn was not associated with changes in bulk tissue water potential or chlorenchyma tissue nitrogen concentration. The main environmental regulators of seasonal stem Pn were temperature and leaf to air vapor pressure gradient. Light-response curves indicated no major differences in apparent quantum yield or light compensation point between the spring and summer, but light-saturated stem Pn at ambient temperature decreased for C. virgata between these seasons. The optimal temperature for stem Pn remained the same for both species between the spring and the summer. However, stem Pn of both species increased at all temperatures between the spring and summer. Potential stem Pn under optimal conditions and CO2-saturated stem Pn increased for both species between spring and summer. The increase in stem Pn potential allowed these species to maintain stem Pn during the summer even though stem Pn responses to temperature and vapor pressure did not acclimate to seasonal climatic conditions.     

Transformation of the wild tomatoLycopersicon chilense Dun. byAgrobacterium tumefaciens

Summary Leaf disc transformation-regeneration technique was applied to the drought tolerant wild relative of cultivated tomato,Lycopersicon chilense, using a plasmid construct which contained the coding sequences of neomycin phosphotransferase (NPTII) and chloramphenicol acetyltransferase (CAT) genes. The two genotypes used, LA2747 and LA1930, showed a distinct difference in their aptitude to transformation; a higher success rate was obtained for the first genotype in every stage of the process. Shoots were formed on the regeneration medium containing 100 g/ml kanamycin through direct or indirect organogenesis. Root formation became only possible when the concentration of kanamycin was reduced to 50 g/ml. Expression of chloramphenicol acetyltransferase gene was observed in all of the kanamycin-screened plants after they matured; the activity of the gene was absent or low in some of the young plants. The presence of the CAT gene in transgenic plants was further confirmed by Southern blot analysis. Although transgenic plants grew to maturity, they did not produce fruit, owing to the self incompatibility ofL. chilense. Abbreviations BAP 6-benzylaminopurine - CAT chloramphenicol acetyltransferase - 2,4-D 2,4-dichlorophenoxyacetic acid - IAA indole-3-acetic acid - LB Luria Broth - EDTA ethylenediamine-tetraacetic acid     

Alkaloids of Zanthoxylum monophyllum and Z. punctatum

The known alkaloids N-methylcorydine and magnoflorine were major constituents of stems and branches of Zanthoxylum punctatum (Rutaceae). Berberine was the major alkaloid of Z. monophyllum, which also contained a new pyrano-2-quinolone alkaloid, zanthophylline, and its desmethyl analog. Zanthophylline has an —NCH₂OAc functional group which is readily hydrolyzed by dilute acid. Methyl vanillate and the furocoumarin columbianetin were also found in Z. monophyllum.