Showing total 7 results

1. Production of deuterated biomass by cultivation of Lemna minor (duckweed) in D 2 O.

Author

Evans BR, Foston M, O'Neill HM, Reeves D, Rempe C, McGrath K, Ragauskas AJ, and Davison BH

Subjects

Cellulose metabolism, Magnetic Resonance Spectroscopy, Araceae metabolism, Biomass, Deuterium metabolism

Abstract

Main Conclusion: Common duckweed Lemna minor was cultivated in 50% D 2 O to produce biomass with 50-60% deuterium incorporation containing cellulose with degree of polymerization close (85%) to that of H 2 O-grown controls. The small aquatic plant duckweed, particularly the genus Lemna, widely used for toxicity testing, has been proposed as a potential source of biomass for conversion into biofuels as well as a platform for production of pharmaceuticals and specialty chemicals. Ability to produce deuterium-substituted duckweed can potentially extend the range of useful products as well as assist process improvement. Cultivation of these plants under deuterating conditions was previously been reported to require addition of kinetin to induce growth and was hampered by anomalies in cellular morphology and protein metabolism. Here, we report the production of biomass with 50-60% deuterium incorporation by long-term photoheterotrophic growth of common duckweed Lemna minor in 50% D 2 O with 0.5% glucose. L. minor grown in 50% D 2 O without addition of kinetin exhibited a lag phase twice that of H 2 O-grown controls, before start of log phase growth at 40% of control rates. Compared to continuous white fluorescent light, growth rates increased fivefold for H 2 O and twofold for 50% D 2 O when plants were illuminated at higher intensity with a metal halide lamp and a diurnal cycle of 12-h light/12-h dark. Deuterium incorporation was determined by a combination of 1 H and 2 H nuclear magnetic resonance (NMR) to be 40-60%. The cellulose from the deuterated plants had an average-number degree of polymerization (DP n ) and polydispersity index (PDI) close to that of H 2 O-grown controls, while Klason lignin content was reduced. The only major gross morphological change noted was root inhibition.

Published

2019

2. Allelopathic effects of exogenous phenylalanine: a comparison of four monocot species.

Author

Evans BR, Bali G, Ragauskas A, Shah R, O'Neill H, Howard C, Lavenhouse F, Ramirez D, Weston K, Ramey K, Cangemi V, Kinney B, Partee C, Ware T, and Davison B

Subjects

Allelopathy, Araceae growth & development, Araceae metabolism, Biomass, Germination, Glucose metabolism, Hydroponics, Lolium growth & development, Lolium metabolism, Panicum growth & development, Panicum metabolism, Phenylalanine chemistry, Plant Leaves drug effects, Plant Leaves growth & development, Plant Leaves metabolism, Plant Roots drug effects, Plant Roots growth & development, Plant Stems drug effects, Plant Stems growth & development, Plant Stems metabolism, Secale growth & development, Secale metabolism, Araceae drug effects, Deuterium metabolism, Lolium drug effects, Panicum drug effects, Phenylalanine toxicity, Secale drug effects

Abstract

Main Conclusion: Exogenous phenylalanine stunted annual ryegrass but not switchgrass or winter grain rye, with deuterium incorporation up to 3% from phenyalanine-d 8 . Toxicity to duckweed varied with illumination intensity and glucose uptake. Isotopic labeling of biomolecules through biosynthesis from deuterated precursors has successfully been employed for both structural studies and metabolic analysis. Phenylalanine is the precursor of many products synthesized by plants, including the monolignols used for synthesis of lignin. Possible allelochemical effects of phenylalanine have not been reported, although its deamination product cinnamic acid is known to have deleterious effects on root elongation and growth of several plant species. The effects of phenylalanine and its deuterated analog phenylalanine-d 8 added to growth media were studied for annual ryegrass (Lolium multiflorum), winter grain rye (Secale cereale), and switchgrass (Panicum virgatum) cultivated under hydroponic conditions. Growth of annual ryegrass was inhibited by phenylalanine while switchgrass and rye were not significantly affected. Growth was less affected by deuterated phenylalanine-d 8 than by its protiated counterpart, which may be a typical deuterium kinetic isotope effect resulting in slower enzymatic reaction rates. Deuterium incorporation levels of 2-3% were achieved in biomass of switchgrass and annual ryegrass. Both protiated and deuterated phenylalanine were moderately toxic (IC25 values 0.6 and 0.8 mM, respectively) to duckweed (Lemna minor) grown using a 12 h diurnal cycle under photoautotrophic conditions. A significant increase in toxicity, greater for the deuterated form, was noted when duckweed was grown under higher intensity, full spectrum illumination with a metal halide lamp compared to fluorescent plant growth lamps emitting in the blue and red spectral regions. Supplementation with glucose increased toxicity of phenylalanine consistent with synergy between hexose and amino acid uptake that has been reported for duckweed.

Published

2017

3. Rafflesia spp.: propagation and conservation.

Author

Wicaksono A, Mursidawati S, Sukamto LA, and Teixeira da Silva JA

Subjects

Flowers growth & development, Fruit, Germination, Magnoliopsida physiology, Phylogeny, Reproduction, Seeds, Tissue Culture Techniques, Conservation of Natural Resources, Magnoliopsida growth & development

Abstract

Main Conclusion: The propagation of Rafflesia spp. is considered to be important for future development of ornamental and other applications. Thus far, the only successful propagation technique has been grafting. This mini-review succinctly emphasizes what is known about Rafflesia species. Members of the genus Rafflesia (Rafflesiaceae), which are holoparasitic plants known to grow on a host vine, Tetrastigma sp., are widely spread from the Malayan Peninsula to various islands throughout Indonesia. The plant's geographical distribution as well as many other aspects pertaining to the basic biology of this genus have still not been studied. The young flower buds and flowers of wild Rafflesia hasseltii Suringar, Rafflesia keithii Meijer and Rafflesia cantleyi Solms-Laubach are used in local (Malaysia and Indonesia) traditional ethnomedicine as wound-healing agents, but currently no formal published research exists to validate this property. To maintain a balance between its ethnomedicinal and ornamental use, and conservation, Rafflesia spp. must be artificially cultivated to prevent overexploitation. A successful method of vegetative propagation is by host grafting using Rafflesia-impregnated Tetrastigma onto the stem of a normal Tetrastigma plant. Due to difficulties with culture contamination in vitro, callus induction was only accomplished in 2010 for the first time when picloram and 2,4-D were added to a basal Murashige and Skoog medium, and the tissue culture of holoparasitic plants continues to be extremely difficult. Seeds harvested from fertile fruit may serve as a possible method to propagate Rafflesia spp. This paper provides a brief synthesis on what is known about research related to Rafflesia spp. The objective is to further stimulate researchers to examine, through rigorous scientific discovery, the mechanisms underlying the ethnomedicinal properties, the flowering mechanisms, and suitable in vitro regeneration protocols that would allow for the fortification of germplasm conservation.

Published

2016

4. Characterization of Al-responsive citrate excretion and citrate-transporting MATEs in Eucalyptus camaldulensis.

Author

Sawaki Y, Kihara-Doi T, Kobayashi Y, Nishikubo N, Kawazu T, Kobayashi Y, Koyama H, and Sato S

Subjects

Amino Acid Sequence, Cloning, Molecular, Cyclosporine, Eucalyptus drug effects, Marine Toxins, Molecular Sequence Data, Organic Cation Transport Proteins genetics, Oxazoles, Plant Proteins genetics, Plant Roots metabolism, Polymerase Chain Reaction, Protein Kinase Inhibitors, Aluminum toxicity, Citric Acid metabolism, Eucalyptus metabolism, Organic Cation Transport Proteins metabolism, Plant Proteins metabolism

Abstract

Many plant species excrete organic acids into the rhizosphere in response to aluminum stress to protect sensitive cells from aluminum rhizotoxicity. When the roots of Eucalyptus camaldulensis, a major source of pulp production, were incubated in aluminum-toxic medium, citrate released into the solution increased as a function of time. Citrate excretion was inducible by aluminum, but not by copper or sodium chloride stresses. This indicated that citrate is the major responsive organic acid released from the roots of this plant species to protect the root tips from aluminum damage. Four genes highly homologs to known citrate-transporting multidrugs and toxic compounds exclusion proteins, named EcMATE1-4, were isolated using polymerase chain reaction-based cloning techniques. Their predicted proteins included 12 membrane spanning domains, a common structural feature of citrate-transporting MATE proteins, and consisted of 502-579 amino acids with >60 % homology to orthologous genes in other plant species. One of the homologs, designated EcMATE1, was expressed in the roots more abundantly than in the shoots and in response to both Al and low pH stresses. Ectopic expression of EcMATE1 and 3 in tobacco hairy roots enhanced Al-responsive citrate excretion. Pharmacological characterization indicated that Al-responsive citrate excretion involved a protein phosphorylation/dephosphorylation process. These results indicate that citrate excretion through citrate-transporting multidrugs and toxic compounds exclusion proteins is one of the important aluminum-tolerance mechanisms in Eucalyptus camaldulensis.

Published

2013

5. Quantification of lignin-carbohydrate linkages with high-resolution NMR spectroscopy.

Author

Balakshin M, Capanema E, Gracz H, Chang HM, and Jameel H

Subjects

Betula metabolism, Carbohydrate Conformation, Carbohydrate Metabolism, Lignin metabolism, Molecular Structure, Nuclear Magnetic Resonance, Biomolecular methods, Pinus taeda metabolism, Wood chemistry, Betula chemistry, Carbohydrates chemistry, Lignin chemistry, Pinus taeda chemistry

Abstract

A quantitative approach to characterize lignin-carbohydrate complex (LCC) linkages using a combination of quantitative ¹³C NMR and HSQC 2D NMR techniques has been developed. Crude milled wood lignin (MWLc), LCC extracted from MWLc with acetic acid (LCC-AcOH) and cellulolytic enzyme lignin (CEL) preparations were isolated from loblolly pine (Pinus taeda) and white birch (Betula pendula) woods and characterized using this methodology on a routine 300 MHz NMR spectrometer and on a 950 MHz spectrometer equipped with a cryogenic probe. Structural variations in the pine and birch LCC preparations of different types (MWL, CEL and LCC-AcOH) were elucidated. The use of the high field NMR spectrometer equipped with the cryogenic probe resulted in a remarkable improvement in the resolution of the LCC signals and, therefore, is of primary importance for an accurate quantification of LCC linkages. The preparations investigated showed the presence of different amounts of benzyl ether, γ-ester and phenyl glycoside LCC bonds. Benzyl ester moieties were not detected. Pine LCC-AcOH and birch MWLc preparations were preferable for the analysis of phenyl glycoside and ester LCC linkages in pine and birch, correspondingly, whereas CEL preparations were the best to study benzyl ether LCC structures. The data obtained indicate that pinewood contains higher amounts of benzyl ether LCC linkages, but lower amounts of phenyl glycoside and γ-ester LCC moieties as compared to birch wood.

Published

2011

6. The localization of pentosans within the cell wall of aspen (Populus tremuloides Michx.) by high resolution autoradiography.

Author

Mullis RH, Thompson NS, and Parham RA

Abstract

Radiochemical studies of Populus tremuloides xylem tissue administered L-[1-(3)H]arabinose, D-[1-(3)H]glucose, and D-[6-(3)H]glucose demonstrate that L-[1-(3)H]arabinose is an excellent precursor for pentosan in this tissue. Transverse sections of first-year xylem (from cambial zone to pith) were examined by light and electron microscope autoradiography. Relatively large amounts of labeled pentosan are found in parenchyma cell walls, including the "protective layer" of ray parenchyma. Computeraided analyses of grain distributions in electron micrographs of cell walls of individual fibers localized the labeled wall components after different periods of incubation by comparison to model behavior. These analyses indicate that pentosan is added to the secondary cell wall of developing fibers by an appositional mechanism.

Published

1976

7. In-situ Raman microprobe studies of plant cell walls: Macromolecular organization and compositional variability in the secondary wall of Picea mariana (Mill.) B.S.P.

Author

Agarwal UP and Atalla RH

Abstract

Native-state organization and distribution of cell-wall components in the secondary wall of woody tissue from P. mariana (Black Spruce) have been investigated using polarized Raman microspectroscopy. Evidence for orientation is detected through Raman intensity variations resulting from rotations of the exciting electric vector with respect to cell-wall geometry. Spectral features associated with cellulose and lignin were studied. The changes in cellulose bands indicate that the pyranose rings of the anhydroglucose repeat units are in planes perpendicular to the cross section, while methine C-H bonds are in planes parallel to the cross section. Changes in bands associated with lignin indicate that the aromatic rings of the phenyl-propane units are most often in the plane of the cell-wall surface. However, regions where lignin orientation departs from this pattern also occur. These results represent direct evidence of molecular organization with respect to cellular morphological features in woody tissue, and indicate that cell-wall components are more highly organized than had been recognized. Studies carried out in order to establish the usefulness and sensitivity of the Raman technique to differences of composition within the cell walls provide evidence of variations in the distribution of cellulose and lignin. Such compositional differences were more prominent between the walls of different cells than within a particular cell wall.

Published

1986