Solubilization and characterization of a galacturonosyltransferase that synthesizes the pectic polysaccharide homogalacturonan

Polygalacturonate 4-α-galacturonosyltransferase (PGA-GalAT), the glycosyltransferase that synthesizes the plant cell wall pectic polysaccharide homogalacturonan, has previously been identified and partially characterized in tobacco membranes. Membrane bound PGA-GalAT catalyzes the transfer of galacturonic acid from UDP-galacturonic acid (UDP-GalA) onto an endogenous acceptor to produce polymeric homogalacturonan ( Doong et al. (1995) Plant Physiol. 109, 141 –152). It is shown here that a galacturonosyltransferase is solubilized from tobacco membranes with a HEPES buffer, pH 6.8, containing 40 mM CHAPS and 2 mM EDTA. The solubilized galacturonosyltransferase was identified as putative PGA-GalAT because it transfered [¹⁴C]GalA from UDP-[¹⁴C]GalA onto exogenous homogalacturonan acceptors with degrees of polymerization (DP) of ≥ 10. Maximal solubilized PGA-GalAT activity in the presence of 0.9 μM UDP-[¹⁴C]GalA required approximately 125 μM exogenous homogalacturonan acceptor [e.g. oligogalacturonide (OGA) of DP 15]. Solubilized PGA-GalAT was active over a broad pH range of 6.3–7.8, and had an apparent K_m for UDP-GalA of 37 μM and a V_max of 290 pmol min^–1 mg^–1 protein. Approximately 44% of the PGA-GalAT activity in detergent-dispersed membranes, corresponding to 21% of the PGA-GalAT activity in intact membranes, was solubilized. PGA-GalAT solubilized with 40 mM CHAPS was shown, by exopolygalacturonase treatment in combination with size exclusion and high performance anion exchange chromatographies, to add a single α-1,4-linked galacturonic acid residue onto an OGA exogenous acceptor of DP 15 to yield an OGA product of DP 16. The significance of the apparent lack of processivity of the solubilized PGA-GalAT is discussed.     

Comprehensive Analysis of Carbohydrate-Active Enzymes from the Filamentous Fungus <Emphasis Type="Italic">Scytalidium candidum</Emphasis> 3C

Complete enzymatic degradation of plant polysaccharides is a result of combined action of various carbohydrate-active enzymes (CAZymes). In this paper, we demonstrate the potential of the filamentous fungus Scytalidium candidum 3C for processing of plant biomass. Structural annotation of the improved assembly of S. candidum 3C genome and functional annotation of CAZymes revealed putative gene sequences encoding such proteins. A total of 190 CAZyme-encoding genes were identified, including 104 glycoside hydrolases, 52 glycosyltransferases, 28 oxidative enzymes, and 6 carbohydrate esterases. In addition, 14 carbohydrate-binding modules were found. Glycoside hydrolases secreted during the growth of S. candidum 3C in three media were analyzed with a variety of substrates. Mass spectrometry analysis of the fungal culture liquid revealed the presence of peptides identical to 36 glycoside hydrolases, three proteins without known enzymatic function belonging to the same group of families, and 11 oxidative enzymes. The activity of endohemicellulases was determined using specially synthesized substrates in which the glycosidic bond between monosaccharide residues was replaced by a thiolinkage. During analysis of the CAZyme profile of S. candidum 3C, four β-xylanases from the GH10 family and two β-glucanases from the GH7 and GH55 families were detected, partially purified, and identified.     

Cold active pectinase,amylase and protease production by yeast isolates obtained from environmental samples

The present study was performed to screen for psychrophilic yeasts that are able to secrete cold active enzymes. Yeast isolates were obtained from environmental samples from northern Turkey and examined for enzyme production at low temperatures. The isolates which were capable of cold active enzyme production on plates were identified by molecular identification techniques. It has been found that the isolates belonged to three genera of yeasts, i.e., Rhodosporidiobolus, Cystofilobasidium and Yamadazyma. The isolates were then fermented in different media at 15 °C and the pectinase, amylase and protease activities were determined in the range of 0.76–1.73, 0.5–1.57 and 2.11–10.53 U/mL, respectively. Maximum enzyme activities were found in Yamadazyma isolates for all three enzymes. To the best of our knowledge, cold active pectinase, amylase and protease production by Yamadazyma spp. were investigated for the first time in the present study. Besides, this is the first report which indicates cold active amylase production by Cystofilobasidium capitatum and pectinase production by Rhodosporidiobolus colostri. Yeast isolates obtained in this study may have potential for industrial cold active enzyme production.

     

Metabolic reconstruction and experimental verification of glucose utilization in <Emphasis Type="Italic">Desulfurococcus amylolyticus</Emphasis> DSM 16532

Desulfurococcus amylolyticus DSM 16532 is an anaerobic and hyperthermophilic crenarchaeon known to grow on a variety of different carbon sources, including monosaccharides and polysaccharides. Furthermore, D. amylolyticus is one of the few archaea that are known to be able to grow on cellulose. Here, we present the metabolic reconstruction of D. amylolyticus’ central carbon metabolism. Based on the published genome, the metabolic reconstruction was completed by integrating complementary information available from the KEGG, BRENDA, UniProt, NCBI, and PFAM databases, as well as from available literature. The genomic analysis of D. amylolyticus revealed genes for both the classical and the archaeal version of the Embden-Meyerhof pathway. The metabolic reconstruction highlighted gaps in carbon dioxide-fixation pathways. No complete carbon dioxide-fixation pathway such as the reductive citrate cycle or the dicarboxylate-4-hydroxybutyrate cycle could be identified. However, the metabolic reconstruction indicated that D. amylolyticus harbors all genes necessary for glucose metabolization. Closed batch experimental verification of glucose utilization by D. amylolyticus was performed in chemically defined medium. The findings from in silico analyses and from growth experiments are discussed with respect to physiological features of hyperthermophilic organisms.     

Characterization of an extracellular endopolygalacturonase from the saprobe Mucor ramosissimus Samutsevitsch and its action as trigger of defensive response in tropical plants

In recent years, interest in the ability of non-pathogenic microorganisms to induce resistance in plants has grown, particularly with respect to their use as environmentally safe controllers of plant disease. In this study, we investigated the capacity of Mucor ramosissimus Samutsevitsch to release pectinases able to degrade cell walls of Palicourea marcgravii St. Hil., a tropical forest native Rubiaceae on which the spores of this saprobic fungus have been found. The fungus was grown in liquid culture medium containing pectin as the sole carbon source and filtrates were analyzed for pectinase activity. An endopolygalacturonase was partially purified by ion exchange chromatography, gel filtration, and preparative isoelectrofocusing, and characterized. This enzyme was more active upon pectic substrates with a low degree of methyl esterification. The products of hydrolysis of different pectic substrates (including pectin from P. marcgravii) by the action of this endopolygalacturonase elicited to different extents the phytoalexin production in soybean cotyledons. Also, the enzyme itself and the products of its action on the pectic fraction of P. marcgravii elicited the production of defensive compounds in the leaves of the plant. These results suggest that, besides the role in recycling organic matter, saprobes may also play an important role in the induction of defensive mechanisms in wild plants by enhancing their non-specific resistance against pathogens. Furthermore, they set the stage for future studies on the role of saprobic fungi in inducing resistance of host plants to pathogens.     

Digestive amylase and pectinase activity in the larvae of alfalfa weevil Hypera postica (Coleoptera: Curculionidae)

The alfalfa weevil Hypera postica is a serious economic pest in most alfalfa grown in many countries worldwide. Digestive α-amylase and pectinase activities of larvae were investigated using general substrates. Midgut extracts from larvae showed an optimum activity for α-amylase against starch at acidic pH (pH 5.0). α-Amylase from larval midgut was more stable at mildly acidic pH (pH 5–6) than highly acidic and alkaline pH. The enzyme showed its maximum activity at 35°C. α-Amylase activity was significantly decreased in the presence of Ca²⁺, Mg²⁺ and sodium dodecylsulfate. On the contrary, K⁺ and Na⁺ did not significantly affect the enzyme activity. Zymogram analysis revealed the presence of one band of α-amylase activity in in-gel assays. Pectinase activity was assayed using agarose plate and colorimetric assays. Optimal pH for pectinase activity in the larval midgut was determined to be pH 5.0. Pectinase enzyme is more stable at pH 4.0–7.0 than highly acidic and alkaline pH. However, the enzyme was more stable at slightly acidic pH (pH 6.0) when incubation time increased. Maximum activity for the enzyme incubated at different temperatures was observed to be 40°C. Optimum pH activity for α-amylase and pectinase is not completely consistent with the pH prevailing in the larval midgut. This is the first report of the presence of pectinase activity in H. postica.     

Cadmium-induced alterations of the structural features of pectins in flax hypocotyl

In the course of our studies on the putative role of pectins in the control of cell growth, we have investigated the effect of cadmium on their composition, remodelling and distribution within the epidermis and fibre tissues of flax hypocotyl (Linum usitatissimum L.). Cadmium-stressed seedlings showed a significant inhibition of growth whereas the hypocotyl volume did not significantly change, due to the swelling of most tissues. The structural alterations consisted of significant increase of the thickness of all cell walls and the marked collapse of the sub-epidermal layer. The pectic epitopes recognized by the anti-PGA/RGI and JIM5 antibodies increased in the outer parts of the epidermis (external tangential wall and junctions) and fibres (primary wall and junctions). Concomitantly, there was a remarkable decrease of JIM7 antibody labelling and consequently an increase of the ratio JIM5/JIM7. Conversely, the ratio JIM7/JIM5 increased in the wall domains closest to the plasmalemma, which would expel the cadmium ions from the cytoplasm. The hydrolysis of cell walls revealed a cadmium-induced increase of uronic acid in the pectic matrix. Sequential extractions showed a remodelling of both homogalacturonan and rhamnogalacturonan I. In fractions enriched in primary walls, the main part of the pectins became cross-linked and could be extracted only with alkali. In fractions enriched in secondary walls, the homogalacturonan moieties were found more abundantly in the calcium-chelator extract while the rhamnogacturonan level increased in the boiling water extract.     

Thaimycins,new anthelmintic and antiprotozoal antibiotics produced by Streptomyces michiganensis var. amylolyticus var. nova

Summary A new microorganism, isolated in our laboratories and identified as Streptomyces michiganensis var. amylolyticus var. nova is described.Thaimycins can be obtained by submerged fermentation of this microorganism on a suitable culture medium.Three new related compounds, thaimycins A, B and C have been obtained and characterized by their physical and chemical properties.Data on the antiprotozoal and anthelmintic activities in vitro as well as in vivo are reported.     

Hippophae rhamnoides L. rhizobacteria exhibit diversified cellulase and pectinase activities

Hippophae rhamnoides L. provides an enormous range of medicinal and nutritional benefits. The significant abilities of this plant to survive in Himalayan high altitudes enticed our study to investigate its rhizosphere. Seventeen rhizobacterial strains were isolated from the rhizospheric soil and plant root nodules, belonging to genus Frankia, Azorhizobium, Bacillus, Paenibacillus, Brevibacillus and Pseudomonas, as identified by 16SrRNA sequencing. This varying bacterial population was further examined for the presence of root degrading enzymes pectinase and cellulase, which enable them to intrude the plant roots. Based on the growth and substrate utilization by these rhizobacteria on pectinase screening agar medium and Mandels and Reese agar medium, all the seventeen strains were identified as pectinase and cellulase producing rhizobacteria. The quantitative analysis by DNS method demonstrated varying enzyme activities, spot-lighting the physiological variation in the microbiome. The divergence in the enzyme activities shown by all the strains was analysed statistically, using the software ASSISTAT.

     

An extended set of monoclonal antibodies to pectic homogalacturonan

Three novel rat monoclonal antibodies, designated LM18, LM19 and LM20, were isolated from screens for binding to Arabidopsis thaliana seed coat mucilage. The binding of these antibodies to mucilage subject to enzyme and high pH pre-treatments and to a series of model homogalacturonan-rich pectins with defined levels of methyl-esterification indicated their recognition of pectic homogalacturonan epitopes. The binding capacities of these monoclonal antibodies to cell walls in sections of tobacco stem pith parenchyma were also differentially sensitive to equivalent treatments with high pH buffers and pectate lyase. The epitopes bound by these antibodies display some similarities and some differences to the epitopes recognized by the previously isolated and established pectic homogalacturonan probes JIM5 and JIM7.     

In depth analysis of rumen microbial and carbohydrate-active enzymes profile in Indian crossbred cattle

Rumen houses a plethora of symbiotic microorganisms empowering the host to hydrolyze plant lignocellulose. In this study, NGS based metagenomic approach coupled with bioinformatic analysis was employed to gain an insight into the deconstruction of lignocellulose by carbohydrate-active enzymes (CAZymes) in Indian crossbred Holstein-Friesian cattle. Cattle rumen metagenomic DNA was sequenced using Illumina-MiSeq and 1.9 gigabases of data generated with an average read length of 871 bp. Analysis of the assembled sequences by Pfam-based Carbohydrate-active enzyme Analysis Toolkit identified 17,164 putative protein-encoding CAZymes belonging to different families of glycoside hydrolases (7574), glycosyltransferases (5185), carbohydrate-binding modules (2418), carbohydrate esterases (1516), auxiliary activities (434) and polysaccharide lyases (37). Phylogenetic analysis of putative CAZymes revealed that a significant proportion of CAZymes were contributed by bacteria belonging to the phylum Bacteroidetes (40%), Firmicutes (30%) and Proteobacteria (10%). The comparative analysis of HF cross rumen metagenome with other herbivore metagenomes indicated that Indian crossbred cattle rumen is endowed with a battery of CAZymes that may play a central role in lignocellulose deconstruction. The extensive catalog of enzymes reported in our study that hydrolyzes plant lignocellulose biomass, can be further explored for the better feed utilization in ruminants and also for different industrial applications.     

Secretion of pectic isoenzymes by Sclerotinia sclerotiorum

Abstract Cultures of Sclerotinia sclerotiorum grown on different pectin-related polysaccharides (citrus pectin, apple pectin, sodium polygalacturonate), carboxymethylcellulose (CMC) or glucose as the only carbon source were examined daily for polygalacturonase and pectinase activities. Electrophoretic forms of polygalacturonase and pectin methylesterase activities were revealed using analytical IEF and sodium polygalacturonate and citrus pectin as substrates in overlay gels. A sequence in the production of pectic enzymes and isoenzyme synthesis was found in pectic-polymer cultures corresponding to the induction of several isoenzymes. Enzyme activities in glucose media were associated with three polygalacturonase and two pectinmethylesterase isoforms which were produced constitutively. Sodium-dodecyl-sulphate polyacrylamide-gel electrophoresis followed by immunoblotting with polyclonal antibodies against an exo-polymethylgalacturonase and an exo-polygalacturonase revealed that these exo-enzymes were secreted from the beginning of cultivation in the different culture media showing characteristics of constitutive enzymes.     

Secretome analysis of thermophilic mould Myceliophthora thermophila cultivated on rice straw and hydrolysis of lignocellulosic biomass for bioethanol production

Abstract

Myceliophthora thermophila encodes for large number of carbohydrate-active enzymes (CAZymes) involved in lignocellulosic biomass degradation. The mould was grown on rice straw in solid state fermentation at pH 5.0 and 45?°C that produced high levels of cellulolytic and xylanolytic enzymes i.e. 2218.12, 515.23, 478.23, 13.34?U/g DMR for xylanase, CMCase, FPase and β-glucosidase, respectively. The secretome analysis of M. thermophila BJAMDU5 by mass spectroscopy, described 124 different proteins with majority of CAZymes consisting of glycosyl hydrolases (GH), lytic polysaccharide mono-oxygenases (LPMO), carbohydrate esterases (CE) and polysaccharide lyases (PL). Furthermore, the enzyme cocktail of the mould was evaluated for hydrolysis of steam treated rice straw that produced 184.59?mg/g substrate reducing sugars after 24?h, which was used for production of bioethanol by using fast fermenting yeast Saccharomyces cerevisiae resulting in high production of bioethanol.     

13th Annual Biotechnology Congress (BAC Madrid 2019): abstract collection

Background

Tobacco stalk (TS), a major agricultural waste abundant in pectin, has resulted in concerns about the need for its reuse. The nicotine in TS is considered a chemical that is to\xic and hazardous to the environment.

Results

In this study, Bacillus tequilensis CAS-MEI-2-33 was isolated from cigar wrappers to produce alkaline pectinase using TS. Subsequently, the medium and fermentation conditions for the production of pectinase by B. tequilensis CAS-MEI-2-33 were optimized. The optimal fermentation period, pH of the initial fermentation medium, concentration of TS, and inoculum amount for B. tequilensis CAS-MEI-2-33 were 40 h, 40 g/L, 7.0, and 3%, respectively. Under optimal conditions, the pectinase activity was 1370 U/mL. Then, the enzymatic properties, such as the optimum pH, reaction temperature, temperature stability, and effects of metal ions, were studied. The optimal pH was determined to be 10.0, indicating that the enzyme was an alkaline pectinase. The optimal temperature was 40 °C, and pectinase activity was stable at 40 °C. The Ag⁺ metal ions were shown to remarkably promote enzyme activity. The pectinase was partly purified by ammonium sulfate precipitation, ion exchange chromatography, and Sephacryl S-100 chromatography. Sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) and LC-MS/MS analyses were utilized to analyze the pectinase.

Conclusions

This study provided a new alkaline pectinase candidate and a new strategy for the use of TS.

     

Characterization of a family 3 polysaccharide lyase with broad temperature adaptability, thermo-alkali stability, and ethanol tolerance

The 774-bp pectate lyase gene plyAI4 from Bacillus sp. I4 was cloned and expressed in E. coli. The gene encodes a 257-residue polypeptide (PlyAI4, 28.3 kDa) with the highest identities of 97.3% with a putative pectate lyase from Bacillus subtilis BSn5 (ADV94306) and 60.3% with an identified pectate lyase of the polysaccharide lyase family (PL) 3 from Paenibacillus amylolyticus 27C64 (ADB78774). The purified recombinant PlyAI4 (rPlyAI4) exhibited apparently optimal activity at pH 10.5 ?? 11.0 and 50°C. Compared with the majority of reported alkaline pectate lyases, rPlyAI4 exhibited more residual enzyme activity at 20°C (??45%) or at 70°C (??50%) and better thermostability at 70°C (??60 min half-life at 70°C). In the presence of 20% (v/v) ethanol, pectate lyase activity was enhanced by 0.2 fold. After incubation in 40% (v/v) ethanol at 37°C and pH 8.5 for 1 h, the purified rPelAI4 retained more than 75% of the initial activity. Sequence analysis proposed a new signature block, A-D-G-[V/I]-H, for PL 3 pectate lyases. These properties may prove to be important with regards to PlyAI4 for basic research and industrial application.     

Phylogenetic and enzymatic variability of Alternaria species isolated from various substrates in Qena governorate of Upper Egypt

Recently, 24 sections were characterised in the genus of Alternaria. In this work, 27 isolates of Alternaria belonging to section Alternaria were isolated from different sources in Qena governorate, Egypt. The collected strains were identified using multi-locus products of internal transcribed spacer (ITS) region, small subunit (SSU), large subunit (LSU) and Alt a1 gene. Based on four loci, the phylogenetic analysis revealed that 26 isolates (96.3% of total isolates) identified as A. alternata and the last one isolate (3.7%) as A. arborescens. The different strains of Alternaria exhibited enzymatic variability ranged from 0.1 ± 0.07–2.3 ± 0.13U/ml for cellulase and 0.6 ± 0.20–3.7 ± 0.47 U/ml (pectinase). Within A. alternata isolates, biochemical properties (Cellulase and pectinase) did not correlate either to phylogenetic analysis or strain origin.     

Pectin: cell biology and prospects for functional analysis

Pectin is a major component of primary cell walls of all land plants and encompasses a range of galacturonic acid-rich polysaccharides. Three major pectic polysaccharides (homogalacturonan, rhamnogalacturonan-I and rhamnogalacturonan-II) are thought to occur in all primary cell walls. This review surveys what is known about the structure and function of these pectin domains. The high degree of structural complexity and heterogeneity of the pectic matrix is produced both during biosynthesis in the endomembrane system and as a result of the action of an array of wall-based pectin-modifying enzymes. Recent developments in analytical techniques and in the generation of anti-pectin probes have begun to place the structural complexity of pectin in cell biological and developmental contexts. The in muro de-methyl-esterification of homogalacturonan by pectin methyl esterases is emerging as a key process for the local modulation of matrix properties. Rhamnogalacturonan-I comprises a highly diverse population of spatially and developmentally regulated polymers, whereas rhamnogalacturonan-II appears to be a highly conserved and stable pectic domain. Current knowledge of biosynthetic enzymes, plant and microbial pectinases and the interactions of pectin with other cell wall components and the impact of molecular genetic approaches are reviewed in terms of the functional analysis of pectic polysaccharides in plant growth and development.     

PECTINASE IN ASCLEPIAS LATEX AND ITS POSSIBLE ROLE IN LATICIFER GROWTH AND DEVELOPMENT

A pectinase with a pH optimum of 5.2 is present in the latex of the common milkweed, Asclepias syriaca L. The enzyme was partially purified from the serum fraction of fresh latex by dialysis and ammonium sulfate fractionation. Enzyme activity was detected by a viscometry assay and by the dinitrosalicylic acid assay for reducing sugars. Pectin and polygalacturonic acid could serve as substrates for the enzyme. Pectolytic activity in latex presents a basis for describing the development of the non-articulated branched laticifer system. Enzyme activity may facilitate intrusive tip growth of the laticifer among other cells by solubilizing pectic substances of the middle lamella and also may be important for loosening wall material of the laticifer itself to facilitate extension growth.