Phenylalanine ammonia-lyase: Purification and characterization from soybean cell suspension cultures

Soybean cell suspension cultures (Glycine max L. cv. Kanrich) grown on high-nitrogen medium produce 50 mU/g fresh wt of phenylalanine ammonia-lyase [EC 4.1.3.5] 7–9 days after inoculation. Nitrate was not limiting when the peak of enzyme activity was reached. Phenylalanine ammonia-lyase was purified 53-fold to essentially electrophoretic homogeneity from cell extracts with 10% recovery. The enzyme was stable in crude extracts and through most stages of purification. No activity could be detected with tyrosine as substrate in either crude extracts or purified enzyme. The electrophoretic mobility was somewhat less than that of the enzyme from maize but both eluted from an agarose column at the same position and the molecular weight of the subunit was similar for both enzymes. Thus the soybean enzyme is composed of four subunits and the native enzyme is ~330,000 M_r. The variation in structure and/or size and availability of hydrophobic regions among phenylalanine ammonia-lyases from four sources (potato, maize, Rhodotorula glutinis, and soybean) was shown by the different elution patterns they exhibited on columns of ω-aminoalkyl agarose (agarose-C_n-NH₂, n = 0 to 8). The order of increasing hydrophobicity is soybean, potato, maize, R. glutinis. The soybean enzyme exhibited negative cooperativity before hydroxylapatite chromatography and positive cooperativity afterward. This is the first example of positive cooperativity observed for phenylalanine ammonia-lyase.     

Genetic gain from selection for rooting ability and early growth in vegetatively propagated clones of loblolly pine

A successful clonal forestry program for loblolly pine based on rooted cutting technology needs to consider selection for both rooting ability and subsequent field growth. Rooting ability and second-year height were assessed in more than 2,000 clones from 70 full-sib families of loblolly pine. The bivariate analysis of rooting ability from five rooting trials and field growth from six field trials allowed for estimation of the genetic covariance between rooting ability and second-year height for parental effects, full-sib family effects, and the total genetic value of clones within full-sib family. There was a positive genetic relationship between rooting ability and second-year height at all three genetic levels. The genetic correlation at the parental level between rooting ability and second-year height was 0.32. At the full-sib family level, the genetic correlation between traits was 0.39. The correlation of total genetic values of clones for rooting ability and second-year height was 0.29. The genetic gain in rooting ability and second-year height was estimated for a number of deployment options based on various selection scenarios using the best linear unbiased prediction (BLUP) values from the bivariate analysis. The deployment strategies compared were (1) half-sib family deployment, (2) full-sib family deployment, and (3) clonal deployment. Moderate to high family and clonal mean heritabilities, moderate to high type B genetic correlations, and substantial among-family and among-clone genetic variation indicate the potential for increasing rooting efficiency and improving growth.     

Paternal inheritance of chloroplast DNA and maternal inheritance of mitochondrial DNA in loblolly pine

Summary The inheritance of organelle DNAs in loblolly pine was studied by using restriction fragment length polymorphisms. Chloroplast DNA from loblolly pine is paternally inherited in pitch pine x loblolly pine hybrids. Mitochondrial DNA is maternally inherited in loblolly pine crosses. The uniparental inheritance of organelle genomes from opposite sexes within the same plant appears to be unique among those higher plants that have been tested and indicates that loblolly pine, and possibly other conifers, must have special mechanisms for organelle exclusion or degradation or both. This genetic system creates an exceptional opportunity for the study of maternal and paternal genetic lineages within a single species.     

Decoding the massive genome of loblolly pine using haploid DNA and novel assembly strategies

Background

The size and complexity of conifer genomes has, until now, prevented full genome sequencing and assembly. The large research community and economic importance of loblolly pine, Pinus taeda L., made it an early candidate for reference sequence determination.

Results

We develop a novel strategy to sequence the genome of loblolly pine that combines unique aspects of pine reproductive biology and genome assembly methodology. We use a whole genome shotgun approach relying primarily on next generation sequence generated from a single haploid seed megagametophyte from a loblolly pine tree, 20-1010, that has been used in industrial forest tree breeding. The resulting sequence and assembly was used to generate a draft genome spanning 23.2 Gbp and containing 20.1 Gbp with an N50 scaffold size of 66.9 kbp, making it a significant improvement over available conifer genomes. The long scaffold lengths allow the annotation of 50,172 gene models with intron lengths averaging over 2.7 kbp and sometimes exceeding 100 kbp in length. Analysis of orthologous gene sets identifies gene families that may be unique to conifers. We further characterize and expand the existing repeat library based on the de novo analysis of the repetitive content, estimated to encompass 82% of the genome.

Conclusions

In addition to its value as a resource for researchers and breeders, the loblolly pine genome sequence and assembly reported here demonstrates a novel approach to sequencing the large and complex genomes of this important group of plants that can now be widely applied.     

Production of ethanol from carbohydrates from loblolly pine: a technical and economic assessment

Ethanol from lignocellulosic biomass has the potential to contribute substantially to bioethanol for transportation. We have evaluated the technical and economic feasibility of producing ethanol from the carbohydrates in loblolly pine. In the process evaluated, prehydrolysis with dilute sulfuric acid was employed to hydrolyze hemicellulose and make the cellulose more accessible to hydrolysis by enzymes. Residual biomass from hydrolysis and extraction of carbohydrates was burned in a CHP plant to generate power and process steam. Our analysis indicates that ethanol can be produced at a cost of dollars 1.53/gal, based on a delivered wood cost of $63.80/dry metric ton and 75% conversion of the carbohydrates in wood to sugars for ethanol production. Improving the conversion of wood carbohydrates to sugars to 95% would reduce the production cost to dollars 1.29/gal. These values are for a plant producing 74 million gal/yr and 93 million gal/yr, respectively. At current feedstock prices, ethanol produced from loblolly pine would be competitive with ethanol produced from corn or other lignocellulosic biomass. Based on our analysis, discounted cash flow rates of return would be 18% and 25%, respectively for plants of this capacity.     

Purification and immunocharacterization oflong-chain acyl-CoA oxidase from loblolly pine megagametophytes

Acyl-CoA oxidase (EC 1.3.3.6), an enzyme that catalyses the first and rate limiting step of the β-oxidation spiral in plant glyoxysomes was purified to homogeneity from loblolly pine (Pinus taeda L.) megagametophytes isolated 9 to 11 d after imbibition at 30 °C. Homogeneity of the enzyme was confirmed by silver staining SDS-PAGE gels of peak enzymatic activity fractions from a molecular sieving column that was the last step of purification. The purification procedure included acetone extraction, heat treatment, ammonium sulphate precipitation and chromatography on three columns (phenyl-Sepharose, hydroxyapatite, and molecular sieving). The homogenous enzyme was purified 1 250-fold to a specific activity of 417.5 nkat·mg^–1 protein. The enzyme was a homodimer with a native molecular mass of 150 kDa and a subunit molecular mass of 71 kDa. Polyclonal antibodies raised in rabbits were confirmed to be mono-specific for acyl-CoA oxidase by immunotitration and western blotting experiments. A western blot analysis of cell free extracts indicated that acyl-CoA oxidase was predominantly megagametophytic.     

Gas exchange and canopy structure of 9-year-old loblolly pine,pitch pine and pitch x loblolly hybrids

Summary Seasonal gas exchange and canopy structure were compared among 9-year-old loblolly pine (Pinus taeda L.), pitch pine (Pinus rigida Mill.), and pitch x loblolly hybrids (Pinus rigida x taeda) growing in an F2 plantation located in Critz, Va., USA. Leaf net photosynthesis, conductance, internal CO₂ concentration (c_i), water use efficiency (WUE; photosynthesis/conductance), dark respiration and the ratio of net photosynthesis/respiration did not vary among or within the three taxa. Significant differences in volume production, crown length, total crown leaf surface area and the silhouette area of shade shoots among the taxa were observed. The loblolly-South Carolina source had greater volume and crown surface area than the pitch pine, and the hybrid taxa were intermediate between the two. Although the silhouette area ratio of shade foliage varied among taxa, it was not related to volume. A strong relationship between total leaf surface area and volume was observed. Leaf conductance, c_i, WUE and leaf water potential were the physiological parameters significantly and positively correlated with volume. This study suggests that the amount of needle surface in the canopy is more important in early stand volume growth than the leaf carbon exchange rate and the degree of needle self-shading in the lower canopy.     

Purification and cloning of an arabinogalactan-protein from xylem of loblolly pine

 An arabinogalactan-protein (AGP) was purified from differentiating xylem of loblolly pine (Pinus taeda L.) and the N-terminal sequence used to identify a cDNA clone. The protein, PtaAGP3, was not coded for by any previously identified AGP-like genes. Moreover, PtaAGP3 was abundantly and preferentially expressed in differentiating xylem. The encoded protein contains four domains, a signal peptide, a cleaved hydrophilic region, a region rich in serine, alanine, and proline/hydroxyproline, and a hydrophobic C-terminus. It is postulated to contain a GPI (glycosylphosphatidylinositol) anchor site. If the protein is cleaved at the putative GPI anchor site, as has been observed in other classical AGPs, all but the Ser-Ala-Pro/Hyp-rich domain may be missing from the mature protein. Xylem-specific AGPs are hypothesized to be involved in xylem development. Received: 29 July 1999 / Accepted: 19 August 1999     

A procedure for the isolation and purification of plasmid DNA from Rhizobium meliloti

A procedure is described for the isolation and purification of the DNA of plasmids that are indigenous to the agriculturally important nitrogen-fixing bacterium Rhizobium meliloti. The procedure involves the lysis of bacteria with an ionic detergent or a mixture of ionic and nonionic detergents, the extraction of total DNA from precipitated membrane-DNA complexes, the enrichment of supercoiled plasmid DNA by the selective alkaline denaturation of chromosomal DNA, and a further purification of plasmid DNA using cesium chloridepropidium diiodide gradients. This procedure yields pure plasmid DNA in amounts of 30 to 50 μg per liter of a culture of cell density of approximately one A550 unit. The DNA thus obtained has been found to be of sufficient purity to serve as substrate for the most commonly used restriction endonucleases.     

The synthesis and isolation of DNA complementary to histone mRNA from mouse embryos

A 9S poly(A)-RNA preparation isolated from mouse embryos was shown to stimulate the synthesis of histones in an ascites cell free extract. This RNA preparation was used for the synthesis of a highly labelled cDNA probe complementary to histone mRNA. Hybridisation of this cDNA probe to rRNA showed that 52% of the cDNA consisted of sequences complementary to rRNA. The histone mRNA specific cDNA was purified by hybridising the impure cDNA to rRNA followed by removal of the single-stranded histone cDNA by hydroxylapatite chromatography.     

Evolution of disease response genes in loblolly pine: insights from candidate genes

Background

Host-pathogen interactions that may lead to a competitive co-evolution of virulence and resistance mechanisms present an attractive system to study molecular evolution because strong, recent (or even current) selective pressure is expected at many genomic loci. However, it is unclear whether these selective forces would act to preserve existing diversity, promote novel diversity, or reduce linked neutral diversity during rapid fixation of advantageous alleles. In plants, the lack of adaptive immunity places a larger burden on genetic diversity to ensure survival of plant populations. This burden is even greater if the generation time of the plant is much longer than the generation time of the pathogen.

Methodology/Principal Findings

Here, we present nucleotide polymorphism and substitution data for 41 candidate genes from the long-lived forest tree loblolly pine, selected primarily for their prospective influences on host-pathogen interactions. This dataset is analyzed together with 15 drought-tolerance and 13 wood-quality genes from previous studies. A wide range of neutrality tests were performed and tested against expectations from realistic demographic models.

Conclusions/Significance

Collectively, our analyses found that axr (auxin response factor), caf1 (chromatin assembly factor) and gatabp1 (gata binding protein 1) candidate genes carry patterns consistent with directional selection and erd3 (early response to drought 3) displays patterns suggestive of a selective sweep, both of which are consistent with the arm-race model of disease response evolution. Furthermore, we have identified patterns consistent with diversifying selection at erf1-like (ethylene responsive factor 1), ccoaoemt (caffeoyl-CoA-O-methyltransferase), cyp450-like (cytochrome p450-like) and pr4.3 (pathogen response 4.3), expected under the trench-warfare evolution model. Finally, a drought-tolerance candidate related to the plant cell wall, lp5, displayed patterns consistent with balancing selection. In conclusion, both arms-race and trench-warfare models seem compatible with patterns of polymorphism found in different disease-response candidate genes, indicating a mixed strategy of disease tolerance evolution for loblolly pine, a major tree crop in southeastern United States.     

Characterization of EST-SSRs in loblolly pine and spruce

In the first large study of conifer expressed sequence tag-simple sequence repeats (EST-SSRs), two large conifer EST databases were characterized for EST-SSRs. One database was from “interior spruce” (white and Engelmann spruce in Southern British Columbia) and Sitka spruce, while the other was from loblolly pine. We found 475 and 629 unique EST-SSRs in loblolly pine and spruce, respectively. 3′ ESTs contained 14% more SSRs than 5′ EST reads in loblolly pine and 41% more in spruce. Conifer EST-SSRs differed conspicuously from angiosperm EST-SSRs in several aspects. EST-SSRs were considerably less frequent in conifers (one EST-SSR every ∼50 kb) than in angiosperms (one EST-SSR every ∼20 kb). Dinucleotide repeats were the most abundant repeat class in conifers, while in angiosperms, trinucleotides were most common. Finally, the AT motif was the dominant motif recovered in both conifer species, whereas AG was the most common dinucleotide repeat in angiosperms. Also, as these EST-SSRs in conifers could be developed into useful genetic markers, our work demonstrates the value of large-scale EST sequencing projects for in-silico approaches for marker development.     

Characterization of complementary DNA clones encoding the rabbit IL-8 receptor.

IL-8 is a proinflammatory cytokine that functions as a chemoattractant for neutrophils. Recently, cDNA clones encoding the human neutrophil IL-8R were isolated by an expression cloning strategy. The amino acid sequence of the human IL-8R was sufficiently similar to a published sequence for an isoform of the rabbit FMLP receptor that we considered the possibility that the rabbit sequence might bind IL-8 as well. In order to establish its ligand specificity, we have isolated and characterized cDNA clones encoding the rabbit receptor. These cDNA clones, when expressed in mammalian cells, confer high affinity IL-8 binding (Kd = 3.6 nM), lack detectable binding of FMLP, and produce a transient increase in the intracellular Ca2+ concentration in response to IL-8 but not to FMLP. These data demonstrate that the reported rabbit FMLP receptor is the rabbit IL-8R, not an isoform of the FMLP receptor. In addition, the amino acid sequence of the rabbit IL-8R encoded by these cDNA clones differs at 23 amino acids (of 355) from that previously published.     

In vitro regeneration of loblolly pine and random amplified polymorphic DNA analyses of regenerated plantlets

 Adventitious buds were induced from organogenic callus derived from mature zygotic embryos of three lines (E-311, E-440, and E-822) of loblolly pine (Pinus taeda L.) within 27 weeks of culture. The influence of cytokinins, silver nitrate, and low-temperature treatment on the differentiation of adventitious buds was analyzed. Elongation of adventitious buds was achieved on TE medium supplemented with 0.5 mg/l indole-3-butyric acid (IBA) and 1 mg/l 6-benzyladenine (BA). After adventitious shoots had rooted on TE medium supplemented with 0.5 mg/l IBA, 2 mg/l BA, and 0.5 mg/l gibberellic acid, 498 regenerated plantlets were transferred to a perlite:peatmoss:vermiculite (1 :>: 1) soil mixture; 351 of these survived in the field. Total DNA was extracted from 21 regenerated plantlets randomly chosen from the 151 regenerated plantlets of line E-822. Random amplified polymorphic DNA (RAPD) analysis using 80 arbitrary oligonucleotide 10-mers showed that 21 primers gave 107 clear reproducible bands, with the amplification products being monomorphic for all of the plantlets of line E-822 tested. A total of 2,247 bands obtained from these studies exhibited no aberration in RAPD banding patterns among the tested plantlets. These results suggest that somatic organogenesis can be used for clonal micropropagation of some lines of loblolly pine without the fear of the appearance of unwanted somaclonal variants. Received: 5 August 2000 / Revision received: 5 September 2000 / Accepted: 10 October 2000