Your search keyword '"Driselase"' showing total 22 results

1. Fruit softening: evidence for rhamnogalacturonan lyase action in vivo in ripe fruit cell walls.

Author

Al-Hinai, Thurayya Z S, Mackay, C Logan, and Fry, Stephen C

Subjects

*FRUIT ripening, *FRUIT, *SEA buckthorn, *STRAWBERRIES, *MANGO, *PEARS, *FRUIT harvesting

Abstract

Background and Aims The softening of ripening fruit involves partial depolymerization of cell-wall pectin by three types of reaction: enzymic hydrolysis, enzymic elimination (lyase-catalysed) and non-enzymic oxidative scission. Two known lyase activities are pectate lyase and rhamnogalacturonan lyase (RGL), potentially causing mid-chain cleavage of homogalacturonan and rhamnogalacturonan-I (RG-I) domains of pectin respectively. However, the important biological question of whether RGL exhibits action in vivo had not been tested. Methods We developed a method for specifically and sensitively detecting in-vivo RGL products, based on Driselase digestion of cell walls and detection of a characteristic unsaturated 'fingerprint' product (tetrasaccharide) of RGL action. Key Results In model experiments, potato RG-I that had been partially cleaved in vitro by commercial RGL was digested by Driselase, releasing an unsaturated tetrasaccharide ('ΔUA-Rha-GalA-Rha'), taken as diagnostic of RGL action. This highly acidic fingerprint compound was separated from monosaccharides (galacturonate, galactose, rhamnose, etc.) by electrophoresis at pH 2, then separated from ΔUA-GalA (the fingerprint of pectate lyase action) by thin-layer chromatography. The 'ΔUA-Rha-GalA-Rha' was confirmed as 4-deoxy-β- l - threo -hex-4-enopyranuronosyl-(1→2)- l -rhamnosyl-(1→4)- d -galacturonosyl-(1→2)- l -rhamnose by mass spectrometry and acid hydrolysis. Driselase digestion of cell walls from diverse ripe fruits [date, sea buckthorn, cranberry, yew (arils), mango, plum, blackberry, apple, pear and strawberry] yielded the same fingerprint compound, demonstrating that RGL had been acting in vivo in these fruits prior to harvest. The 'fingerprint' : (galacturonate + rhamnose) ratio in digests from ripe dates was approximately 1 : 72 (mol/mol), indicating that ~1.4 % of the backbone Rha→GalA bonds in endogenous RG-I had been cleaved by in-vivo RGL action. Conclusions The results provide the first demonstration that RGL, previously known from studies of fruit gene expression, proteomic studies and in-vitro enzyme activity, exhibits enzyme action in the walls of soft fruits and may thus be proposed to contribute to fruit softening. [ABSTRACT FROM AUTHOR]

Published

2024

2. Promotive effect of phytosulfokine - peptide growth factor - on protoplast cultures development in Fagopyrum tataricum (L.) Gaertn

Author

Magdalena Zaranek, Reneé Pérez-Pérez, Anna Milewska-Hendel, Alexander Betekhtin, and Ewa Grzebelus

Subjects

2-aminoondane-2-phosphonic acid (AIP), Agarose, Driselase, Hypocotyl, Morphogenic callus, Non-morphogenic callus, Botany, QK1-989

Abstract

Abstract Background Fagopyrum tataricum (Tartary buckwheat) is a valuable crop of great nutritional importance due to its high level of bioactive compounds. Excellent opportunities to obtain plants with the high level or the desired profile of valuable metabolites may be provided by in vitro cultures. Among known in vitro techniques, protoplast technology is an exciting tool for genetic manipulation to improve crop traits. In that context, protoplast fusion may be applied to generate hybrid cells between different species of Fagopyrum. To apply protoplast cultures to the aforementioned approaches in this research, we established the protoplast-to-plant system in Tartary buckwheat. Results In this work, cellulase and pectinase activity enabled protoplast isolation from non-morphogenic and morphogenic callus (MC), reaching, on average, 2.3 × 106 protoplasts per g of fresh weight. However, to release protoplasts from hypocotyls, the key step was the application of driselase in the enzyme mixture. We showed that colony formation could be induced after protoplast embedding in agarose compared to the alginate matrix. Protoplasts cultured in a medium based on Kao and Michayluk supplemented with phytosulfokine (PSK) rebuilt cell walls, underwent repeated mitotic division, formed aggregates, which consequently led to callus formation. Plating efficiency, expressing the number of cell aggregate formed, in 10-day-old protoplast cultures varied from 14% for morphogenic callus to 30% for hypocotyls used as a protoplast source. However plant regeneration via somatic embryogenesis and organogenesis occurred only during the cultivation of MC-derived protoplasts. Conclusions This study demonstrated that the applied protoplast isolation approach facilitated the recovery of viable protoplasts. Moreover, the embedding of protoplasts in an agarose matrix and supplementation of a culture medium with PSK effectively stimulated cell division and further development of Tartary buckwheat protoplast cultures along with the plant regeneration. Together, these results provide the first evidence of developing a protoplast-to-plant system from the MC of Fagopyrum tataricum used as source material. These findings suggest that Tartary buckwheat’s protoplast cultures have potential implications for the species’ somatic hybridization and genetic improvement.

Published

2023

3. Promotive effect of phytosulfokine - peptide growth factor - on protoplast cultures development in Fagopyrum tataricum (L.) Gaertn.

Author

Zaranek, Magdalena, Pérez-Pérez, Reneé, Milewska-Hendel, Anna, Betekhtin, Alexander, and Grzebelus, Ewa

Subjects

SOMATIC embryogenesis, REGENERATION (Botany), ALGINATES, PLANT metabolites, PROTOPLASTS, CELL division, BUCKWHEAT

Abstract

Background: Fagopyrum tataricum (Tartary buckwheat) is a valuable crop of great nutritional importance due to its high level of bioactive compounds. Excellent opportunities to obtain plants with the high level or the desired profile of valuable metabolites may be provided by in vitro cultures. Among known in vitro techniques, protoplast technology is an exciting tool for genetic manipulation to improve crop traits. In that context, protoplast fusion may be applied to generate hybrid cells between different species of Fagopyrum. To apply protoplast cultures to the aforementioned approaches in this research, we established the protoplast-to-plant system in Tartary buckwheat. Results: In this work, cellulase and pectinase activity enabled protoplast isolation from non-morphogenic and morphogenic callus (MC), reaching, on average, 2.3 × 106 protoplasts per g of fresh weight. However, to release protoplasts from hypocotyls, the key step was the application of driselase in the enzyme mixture. We showed that colony formation could be induced after protoplast embedding in agarose compared to the alginate matrix. Protoplasts cultured in a medium based on Kao and Michayluk supplemented with phytosulfokine (PSK) rebuilt cell walls, underwent repeated mitotic division, formed aggregates, which consequently led to callus formation. Plating efficiency, expressing the number of cell aggregate formed, in 10-day-old protoplast cultures varied from 14% for morphogenic callus to 30% for hypocotyls used as a protoplast source. However plant regeneration via somatic embryogenesis and organogenesis occurred only during the cultivation of MC-derived protoplasts. Conclusions: This study demonstrated that the applied protoplast isolation approach facilitated the recovery of viable protoplasts. Moreover, the embedding of protoplasts in an agarose matrix and supplementation of a culture medium with PSK effectively stimulated cell division and further development of Tartary buckwheat protoplast cultures along with the plant regeneration. Together, these results provide the first evidence of developing a protoplast-to-plant system from the MC of Fagopyrum tataricum used as source material. These findings suggest that Tartary buckwheat's protoplast cultures have potential implications for the species' somatic hybridization and genetic improvement. [ABSTRACT FROM AUTHOR]

Published

2023

4. Isolation, chemical fusion, and culture systems for olive (Olea europaea L.) protoplasts.

Author

Sahouli, Salima, Abdeddaim, Katia K., and Werbrouck, Stefaan P. O.

Subjects

*PLANT protoplasts, *OLIVE, *PROTOPLASTS, *MESOPHYLL tissue, *IMMERSION in liquids, *POLYETHYLENE glycol, *FILTER paper

Abstract

Oleasters are olive genotypes that range from wild to feral. They are tolerant to biotic and abiotic stresses and are easily propagated. This study aims to increase the variability of olive trees by somatic hybridization of protoplasts from cultivated olive trees with those from oleasters. Firstly, protoplast isolation of Algerian olive varieties 'Chemlal' and 'Azaradj' and oleaster rootstock was studied. Of all the cell wall–digesting enzymes tested, the combination of 1.5% driselase and 0.05% pectolyase was optimal for protoplast yield, regardless of variety. In general, callus explants gave the best protoplast yields compared to mesophyll tissue. Chemical fusion was performed with polyethylene glycol (PEG 1540). The obtained protoplasts were cultured in different systems with modified Murashige and Skoog medium supplemented with 90 g L−1 mannitol and 10 g L−1 sucrose, auxins, and cytokinins. Cell divisions and microcolonies of microcalluses took place in liquid culture, solid and liquid culture, and in a culture system that was composed of filter paper discs immersed in liquid medium but not in agarose beads in which the protoplasts were embedded and surrounded by liquid culture. [ABSTRACT FROM AUTHOR]

Published

2022

5. Fruit softening: evidence for pectate lyase action in vivo in date (Phoenix dactylifera) and rosaceous fruit cell walls.

Author

Hinai, Thurayya Z S Al, Vreeburg, Robert A M, Mackay, C Logan, Murray, Lorna, Sadler, Ian H, and Fry, Stephen C

Subjects

*DATE palm, *COMMON pear, *DATES (Fruit), *FRUIT, *NUCLEAR magnetic resonance spectroscopy, *FRUIT development, *ORCHARDS

Abstract

Background and Aims The programmed softening occurring during fruit development requires scission of cell wall polysaccharides, especially pectin. Proposed mechanisms include the action of wall enzymes or hydroxyl radicals. Enzyme activities found in fruit extracts include pectate lyase (PL) and endo-polygalacturonase (EPG), which, in vitro , cleave de-esterified homogalacturonan in mid-chain by β-elimination and hydrolysis, respectively. However, the important biological question of whether PL exhibits action in vivo had not been tested. Methods We developed a method for specifically and sensitively detecting in-vivo PL products, based on Driselase digestion of cell wall polysaccharides and detection of the characteristic unsaturated product of PL action. Key Results In model in-vitro experiments, pectic homogalacturonan that had been partially cleaved by commercial PL was digested to completion with Driselase, releasing an unsaturated disaccharide ('ΔUA–GalA'), taken as diagnostic of PL action. ΔUA–GalA was separated from saturated oligogalacturonides (EPG products) by electrophoresis, then subjected to thin-layer chromatography (TLC), resolving ΔUA–GalA from higher homologues. The ΔUA–GalA was confirmed as 4-deoxy-β- l - threo -hex-4-enopyranuronosyl-(1→4)- d -galacturonic acid by NMR spectroscopy. Driselase digestion of cell walls from ripe fruits of date (Phoenix dactylifera), pear (Pyrus communis), rowan (Sorbus aucuparia) and apple (Malus pumila) yielded ΔUA–GalA, demonstrating that PL had been acting in vivo in these fruits prior to harvest. Date-derived ΔUA–GalA was verified by negative-mode mass spectrometry, including collision-induced dissociation (CID) fragmentation. The ΔUA–GalA:GalA ratio from ripe dates was roughly 1:20 (mol mol–1), indicating that approx. 5 % of the bonds in endogenous homogalacturonan had been cleaved by in-vivo PL action. Conclusions The results provide the first demonstration that PL, previously known from studies of fruit gene expression, proteomic studies and in-vitro enzyme activity, exhibits enzyme action in the walls of soft fruits and may thus be proposed to contribute to fruit softening. [ABSTRACT FROM AUTHOR]

Published

2021

6. Disentangling loosening from softening: insights into primary cell wall structure.

Author

Zhang, Tian, Tang, Haosu, Vavylonis, Dimitrios, and Cosgrove, Daniel J.

Subjects

*CELL anatomy, *BACTERIAL cell walls, *PLANT cell walls, *ATOMIC force microscopy, *TISSUE mechanics, *HYDROGELS, *ENZYME kinetics

Abstract

Summary: How cell wall elasticity, plasticity, and time‐dependent extension (creep) relate to one another, to plant cell wall structure and to cell growth remain unsettled topics. To examine these issues without the complexities of living tissues, we treated cell‐free strips of onion epidermal walls with various enzymes and other agents to assess which polysaccharides bear mechanical forces in‐plane and out‐of‐plane of the cell wall. This information is critical for integrating concepts of wall structure, wall material properties, tissue mechanics and mechanisms of cell growth. With atomic force microscopy we also monitored real‐time changes in the wall surface during treatments. Driselase, a potent cocktail of wall‐degrading enzymes, removed cellulose microfibrils in superficial lamellae sequentially, layer‐by‐layer, and softened the wall (reduced its mechanical stiffness), yet did not induce wall loosening (creep). In contrast Cel12A, a bifunctional xyloglucanase/cellulase, induced creep with only subtle changes in wall appearance. Both Driselase and Cel12A increased the tensile compliance, but differently for elastic and plastic components. Homogalacturonan solubilization by pectate lyase and calcium chelation greatly increased the indentation compliance without changing tensile compliances. Acidic buffer induced rapid cell wall creep via endogenous α‐expansins, with negligible effects on wall compliances. We conclude that these various wall properties are not tightly coupled and therefore reflect distinctive aspects of wall structure. Cross‐lamellate networks of cellulose microfibrils influenced creep and tensile stiffness whereas homogalacturonan influenced indentation mechanics. This information is crucial for constructing realistic molecular models that define how wall mechanics and growth depend on primary cell wall structure. Significance Statement: To assess how cell wall elasticity, plasticity and slow time‐dependent extension during growth relate to one another and to wall structure, we measured the biomechanical actions of various enzymes by uniaxial tensile testing, nano‐indentation, creep assays, and atomic force microscopy (AFM) imaging. These responses were separable, unlike those expected of a simple fiber‐reinforced hydrogel. Our results identify distinctive roles for homogalacturonan and cross‐lamellate networks of cellulose microfibrils in epidermal wall mechanics and growth. [ABSTRACT FROM AUTHOR]

Published

2019

7. Protoplast Isolation, Culture, and Regeneration in Common and Tartary Buckwheat.

Author

Zaranek M, Pérez-Pérez R, Malec J, and Grzebelus E

Subjects

Protoplasts, Plant Growth Regulators, Fagopyrum

Abstract

Techniques based on the use of plant protoplasts are a convenient model for better understanding and observing developmental changes in the cells. The establishment of research tools based on protoplasts consists of many steps needed for optimization. Here, we describe the culture of morphogenic callus (MC)- and hypocotyl-derived protoplasts of common (Fagopyrum esculentum Moench) and Tartary (F. tataricum (L.) Gaertn.) buckwheat. Protoplasts embedding in agarose matrix and application of plant hormones, including phytosulfokine (PSK), enable the development of protoplast cultures and plant regeneration., (© 2024. The Author(s), under exclusive license to Springer Science+Business Media, LLC, part of Springer Nature.)

Published

2024

8. Protoplast transformation as a potential platform for exploring gene function in Verticillium dahliae.

Author

Latifur Rehman, Xiaofeng Su, Huiming Guo, Xiliang Qi, and Hongmei Cheng

Subjects

*VERTICILLIUM dahliae, *BACTERIAL transformation, *MICROBIAL virulence, *SMALL interfering RNA, *AGROBACTERIUM tumefaciens, *PROTOPLASTS

Abstract

Background: Large efforts have focused on screening for genes involved in the virulence and pathogenicity of Verticillium dahliae, a destructive fungal pathogen of numerous plant species that is difficult to control once the plant is infected. Although Agrobacterium tumefaciens-mediated transformation (ATMT) has been widely used for gene screening, a quick and easy method has been needed to facilitate transformation. Results: High-quality protoplasts, with excellent regeneration efficiency (65 %) in TB3 broth (yeast extract 30 g, casamino acids 30 g and 200g sucrose in 1L H20), were generated using driselase (Sigma D-9515) and transformed with the GFP plasmid or linear GFP cassette using PEG or electroporation. PEG-mediated transformation yielded 600 transformants per microgram DNA for the linear GFP cassette and 250 for the GFP plasmid; electroporation resulted in 29 transformants per microgram DNA for the linear GFP cassette and 24 for the GFP plasmid. To determine whether short interfering RNAs (siRNAs) can be delivered to the protoplasts and used for silencing genes, we targeted the GFP gene of Vd-GFP (V. dahliae GFP strain obtained in this study) by delivering one of four different siRNAs--19-nt duplex with 2-nt 3' overhangs (siRNA-gfp1, siRNA-gfp2, siRNA-gfp3 and siRNA-gfp4)--into the Vd-GFP protoplasts using PEG-mediated transformation. Up to 100 % silencing of GFP was obtained with siRNA-gfp4; the other siRNAs were less effective (up to 10 % silencing). Verticillium transcription activator of adhesion (Vta2) gene of V. dahliae was also silenced with four siRNAs (siRNA-vta1, siRNA-vta2, siRNA-vta3 and siRNA-vta4) independently and together using the same approach; siRNA-vta1 had the highest silencing efficiency as assessed by colony diameter and quantitative real time PCR (qRT-PCR) analysis. Conclusion: Our quick, easy transformation method can be used to investigate the function of genes involved in growth, virulence and pathogenicity of V. dahliae. [ABSTRACT FROM AUTHOR]

Published

2016

9. Pectate lyase action in vivo and fruit softening. A commentary on: ‘Fruit softening: evidence for pectate lyase action in vivo in date (Phoenix dactylifera) and rosaceous fruit cell walls’

Author

Graham B. Seymour

Subjects

fruit softening, Rosaceae, Plant Science, AcademicSubjects/SCI01080, Cell wall, In vivo, high-voltage paper electrophoresis, homogalacturonan, pectate lyase, rowan (Sorbus aucuparia), Softening, Polysaccharide-Lyases, pear (Pyrus communis), apple (Malus pumila), biology, AcademicSubjects/SCI01210, Phoeniceae, AcademicSubjects/SCI01130, date (Phoenix dactylifera), Original Articles, biology.organism_classification, Horticulture, Fruit, Pectate lyase, Phoenix dactylifera, Driselase

Abstract

Background and Aims The programmed softening occurring during fruit development requires scission of cell wall polysaccharides, especially pectin. Proposed mechanisms include the action of wall enzymes or hydroxyl radicals. Enzyme activities found in fruit extracts include pectate lyase (PL) and endo-polygalacturonase (EPG), which, in vitro, cleave de-esterified homogalacturonan in mid-chain by β-elimination and hydrolysis, respectively. However, the important biological question of whether PL exhibits action in vivo had not been tested. Methods We developed a method for specifically and sensitively detecting in-vivo PL products, based on Driselase digestion of cell wall polysaccharides and detection of the characteristic unsaturated product of PL action. Key Results In model in-vitro experiments, pectic homogalacturonan that had been partially cleaved by commercial PL was digested to completion with Driselase, releasing an unsaturated disaccharide (‘ΔUA–GalA’), taken as diagnostic of PL action. ΔUA–GalA was separated from saturated oligogalacturonides (EPG products) by electrophoresis, then subjected to thin-layer chromatography (TLC), resolving ΔUA–GalA from higher homologues. The ΔUA–GalA was confirmed as 4-deoxy-β-l-threo-hex-4-enopyranuronosyl-(1→4)-d-galacturonic acid by NMR spectroscopy. Driselase digestion of cell walls from ripe fruits of date (Phoenix dactylifera), pear (Pyrus communis), rowan (Sorbus aucuparia) and apple (Malus pumila) yielded ΔUA–GalA, demonstrating that PL had been acting in vivo in these fruits prior to harvest. Date-derived ΔUA–GalA was verified by negative-mode mass spectrometry, including collision-induced dissociation (CID) fragmentation. The ΔUA–GalA:GalA ratio from ripe dates was roughly 1:20 (mol mol–1), indicating that approx. 5 % of the bonds in endogenous homogalacturonan had been cleaved by in-vivo PL action. Conclusions The results provide the first demonstration that PL, previously known from studies of fruit gene expression, proteomic studies and in-vitro enzyme activity, exhibits enzyme action in the walls of soft fruits and may thus be proposed to contribute to fruit softening.

Published

2021

10. Elevated UV-B radiation modifies the extractability of carbohydrates from leaf litter of Quercus robur

Author

McLeod, A.R., Newsham, K.K., and Fry, S.C.

Subjects

*CARBOHYDRATES, *PLANT litter, *BIODEGRADATION of plant litter, *NITROGEN excretion

Abstract

Abstract: We examined the influence of elevated UV-B radiation on the extractability of carbohydrates from leaf litter of Quercus robur. Saplings were exposed to a 30% elevation above the ambient level of erythemally weighted UV-B (280–315nm) radiation for eight months at an outdoor facility. UV-B radiation was applied under arrays of fluorescent lamps filtered with cellulose diacetate, which transmitted both UV-B and UV-A (315–400nm) radiation. Saplings were also exposed to elevated UV-A radiation under arrays of polyester-filtered lamps and to ambient radiation under arrays of non-energised lamps. Abscised leaves were collected, ground and sequentially treated with seven solvents in order to fractionate extractable carbohydrates based on the way in which they are held in the cell wall. Elevated UV-B radiation reduced the extractability of carbohydrates from cell walls of Q. robur. Sodium phosphate buffer at pH 7 extracted 10% less total carbohydrate from leaf material exposed during growth to elevated UV-B radiation under cellulose diacetate-filtered lamps than from leaf material grown under polyester-filtered and non-energised lamps. The cumulative amount of carbohydrate released by sequential extraction with phosphate buffer, CDTA, urea and sodium carbonate was between 5.1% and 7.8% lower from leaf material grown under cellulose diacetate-filtered lamps relative to that from leaves grown under non-energised lamps. Abscised leaves were also digested with Driselase, an enzyme mixture extracted from a basidiomycete fungus. No effects of elevated UV radiation were recorded on the amount of carbohydrate released by Driselase digestion. Regression analyses, using data from a previous field decomposition study, suggested that reduced availability of carbohydrates enhanced the colonisation of Q. robur litter by basidiomycete fungi, which then accelerated the decomposition rate of the litter in soil. We recommend that future studies into the effects of UV-B radiation on plant litter decomposition measure not only the concentrations of chemical constituents of litter, but also determine the availability of litter carbon sources to soil microbes, using methods similar to those used here. [Copyright &y& Elsevier]

Published

2007

11. Screening of Arabidopsis thaliana stems for variation in cell wall polysaccharides

Author

Gardner, Sara L., Burrell, M.M., and Fry, Stephen C.

Subjects

*ARABIDOPSIS thaliana, *BRASSICACEAE

Abstract

A high-throughput method is described by which Arabidopsis thaliana stems can be screened for variation in cell wall composition after hydrolysis with Driselase or trifluoroacetic acid (TFA). Driselase, a mixture of fungal enzymes, hydrolyses cellulose (to glucose) and all the major matrix polysaccharides (to monosaccharides and/or characteristic disaccharides); TFA hydrolyses the matrix polysaccharides, but not cellulose, to monosaccharides. Two different wild-type ecotypes, Columbia and Wassilewskija, showed only minor differences in wall carbohydrate composition. A small number of T-DNA-tagged populations that were screened contained individuals in which the proportion of cellulose, xyloglucan or xylan differed quantitatively from the wild-type. Differences from the wild-type were also observed in the susceptibility of the hemicelluloses to hydrolysis by Driselase, probably reflecting differences in wall architecture. [Copyright &y& Elsevier]

Published

2002

12. Patterns of methyl and O-acetyl esterification in spinach pectins: new complexity

Author

Perrone, Paola, Hewage, Chandralal M., Thomson, Adam R., Bailey, Kevin, Sadler, Ian H., and Fry, Stephen C.

Subjects

*SPINACH, *PLANT cell walls, *URONIC acids

Abstract

Driselase-digestion of cell walls from suspension-cultures of spinach (Spinacia oleracea L.), followed by anion-exchange chromatography, gel-permeation chromatography, preparative paper chromatography and preparative paper electrophoresis, yielded ten uronic acid-containing products in addition to free galacturonic acid (GalA). These included 4-O-methylglucuronic acid, α-l-rhamnopyranosyl-(1→4)-d-glucuronic acid and several oligosaccharides containing GalA residues. The structures were unambiguously determined by a combination of 1- and 2-dimensional NMR spectroscopic techniques. Five of the six homogalacturonan-derived oligosaccharides purified contained 3-O-acetyl-GalA residues; however, methyl-esterified GalA residues occurred adjacent to both 2-O-acetyl-GalA and 3-O-acetyl-GalA residues. An acetylated, rhamnogalacturonan-I-derived oligosaccharide that was purified also contained 3-O-acetyl-GalA residues. Taken together with published data, our findings indicate considerable diversity in the patterns of pectin esterification. The implications for the action of pectin esterases are discussed. [Copyright &y& Elsevier]

Published

2002

13. Efficient protocol improved the yield and viability of oil palm protoplasts isolated from in vitro leaf and mesocarp.

Author

Fizree, MD Piji Mohd Al Akmarul, Shaharuddin, Noor Azmi, Ho, Chai-Ling, Manaf, Mohamad Arif Abd, Parveez, Ghulam Kadir Ahmad, and Masani, Mat Yunus Abdul

Subjects

*OIL palm, *PROTOPLASTS, *MANNITOL, *PLANT biotechnology, *CELLULASE, *SURFACE area

Abstract

• An efficient protocol for protoplasts isolation from in vitro leaf and mesocarp of oil palm has been established. • Enzymes composition effect on the yield and viability of protoplast are significant. • Scraping the waxy layer on oil palm leaf increased the protoplast isolation efficiency. • Vacuum treatment enhanced the penetration of enzymes into tissues. • 10% ficoll in 0.6 M mannitol improved the separation of protoplasts from impurities. The absence of a cell wall on the protoplast contributes to its versatility. Its flexibility for DNA manipulation and the possibility of rapid cell-based assay is desirable in the plant biotechnology field. This study was carried out to improve protoplast isolation from oil palm in vitro leaf and mesocarp tissues. The factors affecting protoplast isolation efficiency were optimized, including the protocols and enzyme composition involved, focusing on the oil palm in vitro leaf first. Incubation of oil palm leaf sample with an enzyme mixture of cellulase R-10, macerozyme R-10, driselase, and pectolyase Y-23, for 14 h has successfully produced up to 2.5 × 106 protoplasts g-1 fresh weight (FW)-1 with 95% viability. Incubation of oil palm mesocarp tissue with the optimized enzyme mixture for 2 h at static condition has also successfully produced 3.98 × 106 protoplasts g-1 FW-1 with 85% viability. Besides, it was found that increasing the sample's surface area in contact with enzyme solution by slicing the samples into narrow strips and thin layers has improved the penetration of enzymes into the tissues and enhanced the isolation efficiency. In addition, a plasmolysis step before enzymatic treatment has also improved the protoplast viability by minimizing the damage incurred during isolation. The successful isolation of protoplast from oil palm leaf and mesocarp has enabled the study of gene function and the characterization of endogenous tissue-specific promoter being carried out in vivo. [ABSTRACT FROM AUTHOR]

Published

2021

14. Disentangling loosening from softening: insights into primary cell wall structure

Author

Tian Zhang, Dimitrios Vavylonis, Daniel J. Cosgrove, Haosu Tang, Pennsylvania State University (Penn State), Penn State System, Lehigh University, and Center for Lignocellulose Structure and Formation, an Energy Frontier Research Center - US Department of Energy, Office of Science, Basic Energy Sciences United States Department of Energy (DOE) [DE-SC0001090]

Subjects

0106 biological sciences, 0301 basic medicine, Glycoside Hydrolases, Cel12A endoglucanase, [SDV]Life Sciences [q-bio], Plant Science, expansin, Plasticity, Biology, Microscopy, Atomic Force, 01 natural sciences, Fungal Proteins, Cell wall, biomechanics of primary cell walls, 03 medical and health sciences, Expansin, chemistry.chemical_compound, onion (Allium cepa) epidermal cell wall, Cellulase, Cell Wall, Polysaccharides, Plant Cells, Tensile Strength, Onions, Ultimate tensile strength, homogalacturonan, Genetics, pectate lyase, atomic force microscopy (AFM), Cellulose, Softening, Polysaccharide-Lyases, nano-indentation, driselase, Cell Biology, Nanoindentation, Elasticity, cellulose, 030104 developmental biology, chemistry, Creep, Microfibrils, Biophysics, Pectins, 010606 plant biology & botany

Abstract

How cell wall elasticity, plasticity, and time-dependent extension (creep) relate to one another, to plant cell wall structure and to cell growth remain unsettled topics. To examine these issues without the complexities of living tissues, we treated cell-free strips of onion epidermal walls with various enzymes and other agents to assess which polysaccharides bear mechanical forces in-plane and out-of-plane of the cell wall. This information is critical for integrating concepts of wall structure, wall material properties, tissue mechanics and mechanisms of cell growth. With atomic force microscopy we also monitored real-time changes in the wall surface during treatments. Driselase, a potent cocktail of wall-degrading enzymes, removed cellulose microfibrils in superficial lamellae sequentially, layer-by-layer, and softened the wall (reduced its mechanical stiffness), yet did not induce wall loosening (creep). In contrast Cel12A, a bifunctional xyloglucanase/cellulase, induced creep with only subtle changes in wall appearance. Both Driselase and Cel12A increased the tensile compliance, but differently for elastic and plastic components. Homogalacturonan solubilization by pectate lyase and calcium chelation greatly increased the indentation compliance without changing tensile compliances. Acidic buffer induced rapid cell wall creep via endogenous alpha-expansins, with negligible effects on wall compliances. We conclude that these various wall properties are not tightly coupled and therefore reflect distinctive aspects of wall structure. Cross-lamellate networks of cellulose microfibrils influenced creep and tensile stiffness whereas homogalacturonan influenced indentation mechanics. This information is crucial for constructing realistic molecular models that define how wall mechanics and growth depend on primary cell wall structure.

Published

2019

15. Influencia de la escarificación enzimática en la germinación de semilla de alcaparra (Capparis spinosa L.)

Author

Pascual Seva, Nuria, Universitat Politècnica de València. Servicio de Alumnado - Servei d'Alumnat, Mantilla Paredes, Bolívar Alfredo, Pascual Seva, Nuria, Universitat Politècnica de València. Servicio de Alumnado - Servei d'Alumnat, and Mantilla Paredes, Bolívar Alfredo

Abstract

[EN] The purpose of this work is to evaluate the influence of this enzymatic scarification on the germination of caper seeds. For this, two experiments were performed. In the first experiment, the effect of the enzyme complexes from Trichoderma reesei (CTR; 12.5%) and Driselasa (0.5%) and of two time periods (60 and 120 hours), on the germination of caper seeds were analyzed, maintaining the substrate wet with water and gibberellic acid for 90-day. The best results were obtained with the CTR treatment and 120 hours. In the second experiment different concentrations of CTR (6.25%, 12.5%, 18.75% and 25%) with treatment times of 30 and 60 hours were tested. The best results were obtained in the germination to 60 hours, without significant differences between the concentrations of 18.75% and 25%. In parallel, a histological study of the seeds at different stages of germination was performed, using binoculars and scanning electron microscope., [ES] El objetivo de este trabajo, es evaluar la influencia de esta escarificación enzimática sobre la germinación de estas semillas. Para ello se realizaron dos experimentos. En el primer experimento se analizó el efecto de los complejos enzimáticos de Trichoderma reesei (CTR; 12,5%) y Driselasa (0,5%) y dos períodos de tiempo (60 y 120 horas) sobre la geminación de las semillas de alcaparra, manteniendo húmedo el sustrato con agua y ácido giberélico durante 90 días. Los mejores resultados de germinación se obtuvieron con el tratamiento con CTR y 120 horas. En el segundo experimento se ensayaron distintas concentraciones de CTR (6.25%, 12.5%, 18.75% y 25%), con duración de los tratamientos de 30 y 60 horas. Los mejores resultados en la germinación se obtuvieron con la duración de 60 horas, sin diferencias significativas entre las concentraciones de 18.75% y 25%. De manera paralela, se realizó un estudio histológico de las semillas, en distintos estados de germinación, mediante el uso de binocular y microscopio electrónico de barrido

Published

2016

16. Effect of enzyme concentrations on protoplast isolation and protoplast culture of Spathiphyllum and Anthurium

Author

Duquenne, Barbara, Eeckhaut, Tom, Werbrouck, Stefaan, and Van Huylenbroeck, Johan

Published

2007

17. Influencia de la escarificación enzimática en la germinación de semilla de alcaparra (Capparis spinosa L.)

Author

Mantilla Paredes, Bolívar Alfredo

Subjects

Driselasa, Escarificación enzimática, Trichoderma reesei, Seeds, Máster Universitario en Producción Vegetal y Ecosistemas Agroforestales-Màster Universitari en Producció Vegetal i Ecosistemes Agroforestals, PRODUCCION VEGETAL, Enzymatic scarification, Semillas, Driselase

Abstract

[EN] The purpose of this work is to evaluate the influence of this enzymatic scarification on the germination of caper seeds. For this, two experiments were performed. In the first experiment, the effect of the enzyme complexes from Trichoderma reesei (CTR; 12.5%) and Driselasa (0.5%) and of two time periods (60 and 120 hours), on the germination of caper seeds were analyzed, maintaining the substrate wet with water and gibberellic acid for 90-day. The best results were obtained with the CTR treatment and 120 hours. In the second experiment different concentrations of CTR (6.25%, 12.5%, 18.75% and 25%) with treatment times of 30 and 60 hours were tested. The best results were obtained in the germination to 60 hours, without significant differences between the concentrations of 18.75% and 25%. In parallel, a histological study of the seeds at different stages of germination was performed, using binoculars and scanning electron microscope., [ES] El objetivo de este trabajo, es evaluar la influencia de esta escarificación enzimática sobre la germinación de estas semillas. Para ello se realizaron dos experimentos. En el primer experimento se analizó el efecto de los complejos enzimáticos de Trichoderma reesei (CTR; 12,5%) y Driselasa (0,5%) y dos períodos de tiempo (60 y 120 horas) sobre la geminación de las semillas de alcaparra, manteniendo húmedo el sustrato con agua y ácido giberélico durante 90 días. Los mejores resultados de germinación se obtuvieron con el tratamiento con CTR y 120 horas. En el segundo experimento se ensayaron distintas concentraciones de CTR (6.25%, 12.5%, 18.75% y 25%), con duración de los tratamientos de 30 y 60 horas. Los mejores resultados en la germinación se obtuvieron con la duración de 60 horas, sin diferencias significativas entre las concentraciones de 18.75% y 25%. De manera paralela, se realizó un estudio histológico de las semillas, en distintos estados de germinación, mediante el uso de binocular y microscopio electrónico de barrido

Published

2015

18. Leaf bisection for the enzymatic isolation of mesophyll protoplasts fromSaintpaulia ionantha

Author

Sulzinski, M. A. and Cimakasky, L. M.

Published

1995

19. Purification et clonage d'une rhamnogalacturonase tolérante à un substrat acétylé

Author

Normand, Jessica and ProdInra, Migration

Subjects

DRISELASE, PECTIN, IRPEX LACTEUS, RECOMBINANT, RHAMNOGALACTURONAN HYDROLASE, [SPI.GPROC] Engineering Sciences [physics]/Chemical and Process Engineering, PICHIA PASTORIS, RHAMNOGALACTURONANE ACETYLE, RHAMNOGALACTURONANE HYDROLASE, MASS SPECTROMETRY OF OLIGOSACCHARIDES, ACETYLATED RHAMNOGALACTURONAN, [SDV.IDA] Life Sciences [q-bio]/Food engineering, SPECTROMETRIE DE MASSE

Abstract

Up to now, known rhamnogalacturonases (RGases) are hampered by the presence of acetyl substituants on their substrate, the rhamnogalacturonan (RG). A new RGase which is able to degrade highly acetylated RG, was detected in the commercial enzymatic mixture Driselase derived from the basidiomycete Irpex lacteus. To monitor the purification of this enzyme and to further characterize it, acetylated RG with a degree of acetylation of 45 has been prepared using enzymatic degradation and chromatographic fractionations of sugar beet pectin. The RGase was then purified from the Driselase mixture performing different techniques of fractionation allowing to remove contaminating proteins present in the mixture. The purified RGase has a molecular mass of 55 kDa and its optimal pH and temperature are between pH 4.5-5 and 40-50°C, respectively. The degradation products of the enzyme have been analyzed by mass spectrometry to investigate its mode of action. It has been shown that the RGase is tolerant ot the presence of an acetyle on the reducing galacturonic acid of the product oligomers. In parallel, a 1460-bp full-length cDNA encoding a RGase was isolated from Irpex lacteus cultures using RT and RACE PCR strategies. The cDNA was cloned in the heterologous expression system, Pichia pastoris in order to produce a recombinant RGase. Several clones exhibiting high expression level have been selected. Enzymatic activities measurements realized on culture media of these transformants showed that a recombinant RGase was successfully produced., Les rhamnogalacturonases (RGases) connues jusqu'à présent sont gênées par la présence de substituants acétyles sur leur substrat, les rhamnogalacturonanes (RG). Une nouvelle RGase ayant la particularité de pouvoir dégrader des RG fortement acétylés a été détectée dans le mélange enzymatique commercial Driselase, issu du basidiomycète Irpex lacteus. Afin de suivre la purification de cette enzyme, puis de la caractériser, des RG ayant un degré d'acétylation de 45 ont été préparés par dégradation enzymatique et fractionnements chromatographiques de pectines de betterave. La RGase a ensuite été purifiée à partir de Driselase en mettant en place et en optimisant différentes techniques de fractionnement permettant d'éliminer les protéines contaminantes présentes dans le mélange. La RGase purifiée a une masse molaire de 55 kDa et ses optima de pH et température sont compris respectivement entre pH 4,5-5 et 40-50°C. Les produits de dégradation de l'enzyme ont été analysés par spectrométrie de masse afin de déterminer son mode d'action. Il a alors été constaté que la RGase tolère la présence d'acétyle sur l'acide galacturonique réducteur des oligomères produits. Parallèlement un ADNc pleine longueur de 1460 pb codant pour une RGase a été isolé à partir de culture d'Irpex lacteus grâce à des stratégies RT et RACE PCR. Cet ADNc a été cloné chez le système d'expression hétérologue Pichia pastoris afin de produire une RGase recombinante. Plusieurs clones présentant un haut niveau d'expression ont été isolés. Des mesures d'activité enzymatique pratiquées sur les milieux de culture de ces transformants ont montré qu'une RGase recombinante a pu être produite avec succès.

Published

2008

20. Use of pectino-cellulolytic enzymes for improving extraction of phloem-limited plant viruses as exemplified by the rice tungro virus complex

Author

Abburi Anjaneyulu, Hervé Lapierre, Swatantra K. Singh, Central Rice Research Institut, Partenaires INRAE, Institut francilien recherche, innovation et société (IFRIS), Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.)-Institut National de la Recherche Agronomique (INRA)-École des hautes études en sciences sociales (EHESS)-OST-Université Paris-Est Marne-la-Vallée (UPEM)-ESIEE Paris-Centre National de la Recherche Scientifique (CNRS), and Revues Inra, Import

Subjects

[SDV.SA]Life Sciences [q-bio]/Agricultural sciences, chemistry.chemical_classification, [SDV.SA] Life Sciences [q-bio]/Agricultural sciences, Extraction (chemistry), Luteovirus, CICADELLE, PECTOLYASE Y-23, Biology, biology.organism_classification, Virology, LUTEOVIRUS, Virus, [SDV.EE] Life Sciences [q-bio]/Ecology, environment, DRISELASE, Enzyme, EXTRACTION A PARTIR DE RESIDUS FIBREUX, chemistry, Plant virus, PECTINASE, TRANSMISSION SEMI PERSISTANTE, CELLULASE, Phloem, Agronomy and Crop Science, ComputingMilieux_MISCELLANEOUS, RIZ

Abstract

National audience; Rice tungro virus complex (RTV-C), consisting of tungro spherical and tungro bacilliform viruses, is phloemlimited and transmitted principally by leafhoppers Nephotettix spp. in a semi-persistent manner ; it has been successfully purified using pectino-cellulolytic enzymes. The enzymes (driselase, pectolyase Y-23, macerozyme R-10 and cellulase "Onazuka" R-10) were used alone or in different combinations on the fibrous residue obtained from the first grinding and filtration of RTV-C infected shoots of rice cultivar "Taichung Native-I". The fibrous residue was homogenized once or successively in citrate buffer pH 6 along with enzyme or a mixture of enzymes and incubated with shaking. The filtrate was adjusted to pH 7 and the virus particles were purified by clarifying extracts with chloroform, precipitation of virus by differential centrifugation and sucrose density gradients. The quantity of the virus-complex obtained from different experimental conditions was compared by the measurement of the surface of the absorption at 260 nm in sucrose density gradients. In the presence of the three enzyme systems utilized, a major increase (1.39 to 3.12 times) in the virus yield was obtained from the treatment of fibrous residue. The action of the enzymes utilized in these systems appears to be additive, and this point is discussed. The enzyme method described here and earlier for some luteoviruses may be useful for extraction and purification of other phloem-limited viruses.; Le complexe viral du riz dénommé « Rice tungro virus complex » (RTV-C) localisé aux cellules du phloème, transmis principalement par les cicadelles du genre Nephotettix sur le mode semi-persistant, a été purifié suivant un protocole mettant en jeu l’action d’enzymes pectino-cellulolytiques. Les enzymes et les complexes enzymatiques (driselase, pectolyase Y-23, macérozyme R-10 ou cellulase « Onazuka » R-10) ont été utilisés seuls ou successivement sur les résidus fibreux obtenus après broyage et filtration de pousses de riz de la variété « Taichung Native 1 ». Les résidus fibreux sont homogénéisés dans un tampon citrate pH 6 en présence des enzymes pectino-cellulolytiques puis incubés en milieu agité pendant 2 h à 28 ± 1 °C. La fraction soluble est amenée à pH 7 et la purification des particules virales s’effectue de la façon suivante : après clarification de l’extrait par le chloroforme, deux ultra-centrifugations différentielles sont réalisées, la première est effectuée en présence d’un coussin de sucre. Pour les différentes conditions expérimentales, les quantités de virus obtenues sont comparées par la mesure de la surface des zones d’absorption à 260 nm des particules virales après leur migration dans un gradient de saccharose. Avec les différents systèmes enzymatiques utilisés pour les résidus fibreux, des accroissements notables (1,39 à 3,11) des rendements d’extraction du complexe viral sont obtenus à partir de ces résidus. L’action des trois systèmes enzymatiques suggère des effets complémentaires qui sont discutés. Ce type d’extraction enzymatique réservé aux résidus fibreux, décrit ici sur le RTV-C et antérieurement pour certains lutéovirus, devrait être applicable aux autres groupes de virus à localisation phloémique.

Published

1984

21. Utilisation d’enzymes pectino-cellulolytiques pour améliorer l’extraction des virus à localisation phloémique : cas du « Rice tungro virus », complexe viral du riz

Author

Singh Swatantra, K., Anjaneyulu, A., LAPIERRE, Hervé, Central Rice Research Institut, Partenaires INRAE, Institut francilien recherche, innovation et société (IFRIS), and Ministère de l'Education nationale, de l’Enseignement supérieur et de la Recherche (M.E.N.E.S.R.)-Institut National de la Recherche Agronomique (INRA)-École des hautes études en sciences sociales (EHESS)-OST-Université Paris-Est Marne-la-Vallée (UPEM)-ESIEE Paris-Centre National de la Recherche Scientifique (CNRS)

Subjects

[SDV.SA]Life Sciences [q-bio]/Agricultural sciences, CICADELLE, PECTOLYASE Y-23, virus, LUTEOVIRUS, Agricultural sciences, DRISELASE, oryza sativa, céréale, EXTRACTION A PARTIR DE RESIDUS FIBREUX, PECTINASE, TRANSMISSION SEMI PERSISTANTE, CELLULASE, RIZ, Sciences agricoles

Abstract

Le complexe viral du riz dénommé « Rice tungro virus complex » (RTV-C) localisé aux cellules du phloème, transmis principalement par les cicadelles du genre Nephotettix sur le mode semi-persistant, a été purifié suivant un protocole mettant en jeu l’action d’enzymes pectino-cellulolytiques. Les enzymes et les complexes enzymatiques (driselase, pectolyase Y-23, macérozyme R-10 ou cellulase « Onazuka » R-10) ont été utilisés seuls ou successivement sur les résidus fibreux obtenus après broyage et filtration de pousses de riz de la variété « Taichung Native 1 ». Les résidus fibreux sont homogénéisés dans un tampon citrate pH 6 en présence des enzymes pectino-cellulolytiques puis incubés en milieu agité pendant 2 h à 28 ± 1 °C. La fraction soluble est amenée à pH 7 et la purification des particules virales s’effectue de la façon suivante : après clarification de l’extrait par le chloroforme, deux ultra-centrifugations différentielles sont réalisées, la première est effectuée en présence d’un coussin de sucre. Pour les différentes conditions expérimentales, les quantités de virus obtenues sont comparées par la mesure de la surface des zones d’absorption à 260 nm des particules virales après leur migration dans un gradient de saccharose. Avec les différents systèmes enzymatiques utilisés pour les résidus fibreux, des accroissements notables (1,39 à 3,11) des rendements d’extraction du complexe viral sont obtenus à partir de ces résidus. L’action des trois systèmes enzymatiques suggère des effets complémentaires qui sont discutés. Ce type d’extraction enzymatique réservé aux résidus fibreux, décrit ici sur le RTV-C et antérieurement pour certains lutéovirus, devrait être applicable aux autres groupes de virus à localisation phloémique., Rice tungro virus complex (RTV-C), consisting of tungro spherical and tungro bacilliform viruses, is phloemlimited and transmitted principally by leafhoppers Nephotettix spp. in a semi-persistent manner ; it has been successfully purified using pectino-cellulolytic enzymes. The enzymes (driselase, pectolyase Y-23, macerozyme R-10 and cellulase "Onazuka" R-10) were used alone or in different combinations on the fibrous residue obtained from the first grinding and filtration of RTV-C infected shoots of rice cultivar "Taichung Native-I". The fibrous residue was homogenized once or successively in citrate buffer pH 6 along with enzyme or a mixture of enzymes and incubated with shaking. The filtrate was adjusted to pH 7 and the virus particles were purified by clarifying extracts with chloroform, precipitation of virus by differential centrifugation and sucrose density gradients. The quantity of the virus-complex obtained from different experimental conditions was compared by the measurement of the surface of the absorption at 260 nm in sucrose density gradients. In the presence of the three enzyme systems utilized, a major increase (1.39 to 3.12 times) in the virus yield was obtained from the treatment of fibrous residue. The action of the enzymes utilized in these systems appears to be additive, and this point is discussed. The enzyme method described here and earlier for some luteoviruses may be useful for extraction and purification of other phloem-limited viruses.

Published

1984

22. Some Fungi Express β-1,3-Glucanases Similar to Thaumatin-like Proteins

Author

Grenier, Jean, Potvin, Claude, and Asselin, Alain

Published

2000