Observations on the enzymatic synthesis of a beta-1,4-glucan by a soluble preparation form mung bean(Phaseolus aureus)

An enzyme extract of mung bean roots and hypocotyls (Phaseolus aureus) that catalyzes the synthesis of a β-1,4-glucan from guanosine 5′-diphosphate-d-glucose was prepared by a modification of the method of T.-Y. Liu and W. Z. Hassid (1970, J. Biol. Chem.245, 1922–1925). Its activity was not increased by any of those factors that have contributed to the marked improvement in the performance of various cell-free polysaccharide-synthesizing systems from other organisms. Evidence is presented to suggest that in the mung bean system a stable precursor of the cell wall polysaccharide or intermediate in its synthesis is formed by incubation of the enzyme with guanosine 5′-diphosphate-d-mannose.     

Production of pinoresinol diglucoside,pinoresinol monoglucoside,and pinoresinol by <Emphasis Type="Italic">Phomopsis</Emphasis> sp. XP-8 using mung bean and its major components

Phomopsis sp. XP-8 is an endophytic fungus that has the ability to produce pinoresinol diglucoside (PDG) in vitro and thus has potential application for the biosynthesis of PDG independent of plants. When cultivated in mung bean medium, PDG production was significantly improved and pinoresinol monoglucoside (PMG) and pinoresinol (Pin) were also found in the culture medium. In this experiment, starch, protein, and polysaccharides were isolated from mung beans and separately used as the sole substrate in order to explore the mechanism of fermentation and identify the major substrates that attributed to the biotransformation of PDG, PMG, and Pin. The production of PDG, PMG, and Pin was monitored using high-performance liquid chromatography (HPLC) and confirmed using HPLC-MS. Activities of related enzymes, including phenylalanine ammonia-lyase (PAL), trans-cinnamate 4-hydroxylase (C4H), and 4-coumarate-CoA ligase (4CL) were analyzed and tracked during the cultivation. The reaction system contained the compounds isolated from mung bean in the designed amount. Accumulation of phenylalanine, cinnamic acid, p-coumaric acid, PDG, PMG, and Pin and the activities of PAL, C4H, and 4CL were measured during the bioconversion. PMG was found only when mung bean polysaccharide was analyzed, while production of PDG and Pin were found when both polysaccharide and starch were analyzed. After examining the monosaccharide composition of the mung bean polysaccharide and the effect of the different monosaccharides had on the production of PMG, PDG, and Pin, galactose in mung bean polysaccharide proved to be the major factor that stimulates the production of PMG.     

Structure of a galactomannan from Cassia alata seed

A water-soluble galactomannan, isolated from the seeds of Cassia alata Linn, has been investigated by using methylation analysis, periodate and CrO₃ oxidation, n.m.r. spectroscopy, and reaction with Bandeiraea simplicifolia lectin and an α-d-galactosidase. The polysaccharide is composed of heptasaccharide units joined by β-(1→4) linkages. The polysaccharide has a molecular weight of 26,400, corresponding to ∼23 units.     

Use of a low-cost methodology for biodetoxification of castor bean waste and lipase production

The castor bean (Ricinus communis) represents a potential candidate for biodiesel production. The Petrobras Research Center is developing a biodiesel production process from castor bean seeds, in which an unwanted byproduct named castor bean waste is produced. This extremely alkaline waste is toxic and allergenic and, as such, poses a significant environmental problem. Solid-state fermentation (SSF) of castor bean waste was carried out to achieve ricin detoxification, reduce allergenic potential and stimulate lipase production. The fungus, Penicillium simplicissimum, an excellent lipase producer, was able to grow and produce lipase enzyme. After an optimization process, the maximum lipase activity achieved was 44.8 U/g. Moreover, the fungus P. simplicissimum was able to reduce the ricin content to non-detectable levels in addition to diminishing castor bean waste allergenic potential by approximately 16%. In this way, SSF of castor bean waste by P. simplicissimum may increase the utility of the waste by promoting enzyme production and eliminating the principal toxic element, ricin.     

A galactose specific agglutinin, a blood-group H active polysaccharide, and a trypsin inhibitor in albumin glands and eggs of Arianta arbustorum (Helicidae).

Eggs and albumin glands of the land snail Arianta arbustorum contain a powerful agglutinin which reacts specially with rabbit erythrocytes. The agglutination can be inhibited completely by di-, tri-, and oligosaccharides with α-glycosidically (1 → 6) bound galactose residues. β-Linked sugars do not inhibit the agglutinin. The agglutinin activity is not dependent on Ca²⁺ ions. Eggs and albumin glands also contain a blood-group active polysaccharide which, unlike the polysaccharide from the albumin gland of Helix pomatia (Baldo, B. A., and Uhlenbruck, G. 1973. Cross-reactive human blood group H-active polysaccharide from Helix pomatia. I. Detection with catfish anti-H and eel sera. Immunology, 25, 1–13) does not react with anti-H_eel, but does react with the agglutinins of Evonymus europaeus and Laburnum alpinum. The Arianta polysaccharide has been purified and shown to be galactogen. Finally, the occurrrence of a strong trypsin inhibitor has been demonstrated in the extracts of eggs and albumin glands. The inhibitor has been separated by column chromatography. The precipitation lines of both substances have been identified in the immunoelectrophoretogram of the extracts of albumin glands and eggs.     

Purification and Properties of a Phytotoxic Polysaccharide Produced by Corynebacterium sepedonicum

A polysaccharide possessing a capacity to wilt plant cuttings has been isolated and purified from cultures of Corynebacterium sepedonicum. The molecular weight, based on the average of molecular weights determined by 3 physical methods, is 21,450. The empirical formula of the polysaccharide is C₄₈H₉₆O₄₈N. It is antigenic and the borate complex migrates in an electric field. It has an intrinsic viscosity of 0.125 and an S_20w of 0.76. A hydrolysate of the compound yields glucose, mannose, 2 unidentified reducing compounds and 1 unidentified non-reducing compound. The nitrogen in the toxin can be accounted for in 6 amino acids. Although the toxin is primarily polysaccharide it might more aptly be termed a glycopeptide.     

Recognition of Leguminous Hosts by a Promiscuous Rhizobium Strain

The lima bean (Phaseolus lunatus L.) and the pole bean (Phaseolus vulgaris L.) are nodulated by rhizobia of two different cross-inoculation groups. Rhizobium sp. 127E15, a cowpea-type Rhizobium, can induce effective nodules on the lima bean and partially effective nodules on the pole bean. Rhizobium phaseoli 127K14 can induce effective nodules on the pole bean but does not reciprocally nodulate the lima bean. Root hairs of the lima bean when inoculated with Rhizobium sp. 127E15 showed tip curling and swelling and infection thread formation as observed by light microscopy and scanning electron microscopy. When lima bean root hairs were inoculated with R. phaseoli 127K14, no host-specific responses were observed. Pole bean root hairs that had been inoculated with R. phaseoli 127K14 or Rhizobium sp. 127E15 also showed tip curling and swelling and infection thread formation. Colonization of lima bean root hairs by Rhizobium sp. 127E15 and pole bean root hairs by R. phaseoli 127K14 or Rhizobium sp. 127E15 appeared to involve the elaboration of microfibrils. This study showed that when Rhizobium sp. 127E15 nodulates a host of a different cross-inoculation group, it elicits the same specific host responses as it does from a host of the same cross-inoculation group.     

Mucilage from a fresh-water red alga of the genus Batrachospermum

The gelatinous polysaccharides of a Batrachospermum species have been extracted from the alga. The major polysaccharide is acidic and has been separated from neutral polysaccharides by chromatography on DEAE-cellulose. The constituent sugars of the acidic polysaccharide include d- and l-galactose, d-mannose, d-xylose, l-rhamnose, d-glucuronic acid, and two O-methyl sugars, which have been characterized as 3-O-methyl-l-rhamnose (l-acofriose and 3-O-methyl-d-galactose. Partial acid hydrolysis of this polysaccharide has given a complex mixture of neutral and acidic oligosaccharides. The two preponderant acidic oligosaccharides contained galactose and glucuronic acid in 1:1 ratio, suggesting the presence of a repeating sequence of these two residues as a major structural feature of the polysaccharide.     

Ultrastructure of the Interaction of Cells of Pseudomonas phaseolicola with Cell Walls of a Resistant and Susceptible Bean Cultivar

Cells of Pseudomonas phaseolicola were observed entrapped against plant cell walls in both susceptible (Red Kidney) and resistant (Red Mexican) cultivars of French bean (Phaseolus vulgaris). After staining of samples with ruthenium red for electron microscopy pectic polysaccharide within plant cell walls became particularly well contrasted as did fibrillar material connecting bacteria to the plant cell walls. In places this fibrillar material appeared to emanate from the pectic polysaccharide in the plant cell wall, and the plant cell wall surface was eroded at such points. Ruthenium red also stains acidic, bacterial extracellular polysaccharide (EPS) and some of the fibrillar material in intercellular spaces is probably from this source. It is possible that bacteria become attached through an interaction between EPS and Pectic polysaccharide in plant cell walls.     

Bean abscission cellulase : characterization of a cDNA clone and regulation of gene expression by ethylene and auxin

The physiology and anatomy of abscission has been studied in considerable detail; however, information on the regulation of gene expression in abscission has been limited because of a lack of probes for specific genes. We have identified and sequenced a 595 nucleotide bean (Phaseolus vulgaris cv Red Kidney) abscission cellulase cDNA clone (pBACl). The bean cellulase cDNA has extensive nucleic and amino acid sequence identity with the avocado cellulase cDNA pAV363. The 2.0 kilobase bean mRNA complementary to pBACl codes for a polypeptide of approximately 51 kilodalton (shown by hybrid-selection followed by in vitro translation). Bean cellulase antiserum is shown to immunoprecipitate a 51 kilodalton polypeptide from the in vitro translation products of abscission zone poly(A)⁺ RNA. Ethylene initiates bean leaf abscission and tissue-specific expression of cellulase mRNA. If ethylene treatment of bean explants was discontinued after 31 h and then 2,5-norbornadiene given to inhibit responses resulting from endogenously synthesized ethylene, polysomal cellulase mRNA hybridizing to pBACl decreased. Thus, ethylene is required not only to initiate abscission and cellulase gene expression but also to maintain continued accumulation of cellulase mRNA. Explants treated with auxin 4 hours prior to a 48 hour treatment with ethylene showed no substantial accumulation of RNA hybridizing to pBACl or expression of cellulase activity.     

Stimulation of cell wall biosynthesis and structural changes in response to cytokinin- and elicitor-treatments of suspension-cultured Phaseolus vulgaris cells

Qualitative sugar flux into cell wall polysaccharides has been determined for two model systems. The first, treatment of suspension-cultured French bean (Phaseolus vulgaris L.) cells with an increase in the cytokinin/auxin ratio and in the concentration of sucrose, models some aspects of differentiation. Wall changes are characterised by up to a five-fold increase in thickness due to the laying down of extra wall material. Sugar flux following labelling of cells with [¹⁴C]-sucrose was examined during the period of maximum extractable catalytic activities of the enzymes of sugar nucleotide conversion determined previously. Increased secretion was observed in all major groups of polysaccharides, particularly the cellulosic fraction. Analysis of the sugars in the hemicellulosic fraction indicated that the newly synthesised polysaccharide was most probably xylan. It was confirmed by immunolocalisation of xylan in these walls. This treatment thus increases incorporation into the wall of components characteristic of secondary wall. In the second system, which models the defence response, suspension cultures were treated with an elicitor from the walls of Colletotrichum lindemuthianum. Again, sugar flux was determined by labelling cells with [¹⁴C]-sucrose and examined during the period determined previously of maximum extractable catalytic activities of the enzymes of sugar nucleotide conversion. Increased secretion into unextractable polymers was the major change and was consistent with the occurrence of oxidative processes leading to immobilisation of some wall components. Callose, a polysaccharide characteristic of the defence response was immunolocalised in these walls but not in those of control cells.     

Synthesis of Lectin-Like Protein in Developing Cotyledons of Normal and Phytohemagglutinin-Deficient Phaseolus vulgaris

The genome of the common bean Phaseolus vulgaris contains a small gene family that encodes lectin and lectin-like proteins (phytohemagglutinin, arcelin, and others). One of these phytohemagglutinin-like genes was cloned by L. M. Hoffman et al. ([1982] Nucleic Acids Res 10: 7819-7828), but its product in bean cells has never been identified. We identified the product of this gene, referred to as lectin-like protein (LLP), as an abundant polypeptide synthesized on the endoplasmic reticulum (ER) of developing bean cotyledons. The gene product was first identified in extracts of Xenopus oocytes injected with either cotyledonary bean RNA or LLP-mRNA obtained by hybrid-selection with an LLP cDNA clone. A tryptic map of this protein was identical with a tryptic map of a polypeptide with the same SDS-PAGE mobility detectable in the ER of bean cotyledons pulse-labeled with either [³H]glucosamine or [³H]amino acids, both in a normal and in a phytohemagglutinin-deficient cultivar (cultivars Greensleeves and Pinto UI 111). Greensleeves LLP has M_r 40,000 and most probably has four asparagine-linked glycans. Pinto UI 111 LLP has M_r 38,500. Unlike phytohemagglutinin which is a tetramer, LLP appears to be a monomer by gel filtration analysis. Incorporation of [³H]amino acids indicates that synthesis of LLP accounts for about 3% of the proteins synthesized on the ER, a level similar to that of phytohemagglutinin.     

Isolation and characterization of a galactorhamnan polysaccharide from the seed coat of Canavalia ensiformis that is toxic to the cowpea weevil (Callosobruchus maculatus)

We have isolated a water-soluble polysaccharide from the Jack bean [Canavalia ensiformis (L) DC] seed coat that was shown to be highly detrimental to larval development of the cowpea weevil (Callosobruchus maculatus) (Coleoptera: Bruchidae). Determination of the composition and structure of this polysaccharide showed that it is a galactorhamnan with an M_w of 883.0, containing 92% rhamnose and 8% galactose. The polymer is formed by a main chain of rhamnose (1to2) substituted at O-4 by galactose nonreducing end-units. Immunolocalisation by light and electron microscopy showed that this polysaccharide is localised in the innermost cell layer of the seed coat and also in cotyledon tissues in the cytoplasm space. The presence of this toxic polysaccharide in the testa of a non-host seed may have been important for the evolutionary discrimination of legume seeds by bruchids.     

Prediction of the amino acid digestibility of legume seeds in growing pigs: a meta-analysis approach

On pig farms, a high proportion of the cost of production comes from feed costs. However, the use of alternative ingredients such as legume seeds may help to reduce this cost. In fact, legume seeds are an important source of essential amino acids (EAA) and can therefore be an alternative to oilseed meals. However, the accurate use of these legume seeds requires a precise knowledge of the standardized ileal digestibility (SID) of EAA, which may vary depending on its botanical variety. A meta-analysis was performed on a database compiling data from 41 studies published between 1981 and 2013 and 178 dietary treatments. Models of prediction of the SID of EAA as well as the dietary concentration of digestible standardized EAA (dEAA) were obtained, based on the chemical composition of ingredients reported in the publications. The effect of the type of legume seeds (faba bean, lupin, pea and soya bean), surgical procedures (T-cannula, re-entrant cannulas, post valve T-cannulas and ileo-rectal anastomosis), and BW of pigs (BW⩽25 kg BW>25 kg) were also tested in each model. Results showed that dietary CP and crude fibre (CF) were, respectively, the best predictors of each EAA SID for faba bean, lupin and pea (R²=0.42 to 0.89) and soya bean (R²=0.32 to 0.77). For the dEAA content, the best prediction models included dietary CP and ADF for faba bean, lupin and pea and soya bean, respectively, with R² ranging from 0.66 to 0.98. Models developed in this study allow predicting the digestibility of EAA in these alternatives feedstuffs.     

Isolation and Partial Characterization of a Seed Lectin from Tepary Bean that Delays Bruchid Beetle Development

Four isolectin forms of a seed lectin from mature seed of tepary bean (Phaseolus acutifolius) were isolated using solubility fractionation, affinity chromatography, and high performance liquid chromatography. The subunits are polypeptides with an apparent molecular mass of 30,000 daltons. The 30 kilodalton subunits are produced starting approximately 13 days after flowering and subsequently comprise a major fraction of the proteins found in the mature seed. The amino terminus of each isolectin fraction was determined to be highly homologous with that of the subunits of common bean (Phaseolus vulgaris L.) phytohemagglutinin (PHA). The tepary isolectin cross-reacts with both erythroagglutinating and leucoagglutinating subunits of PHA antibodies, although differential cross-reactivity was noted. A seed protein fraction enriched in tepary bean lectin was found to be toxic to bean bruchid beetles (Acanthoscelides obtectus), when incorporated into their diets at incremental concentrations from (1-5% w/w) above that of PHA concentrations in mature seeds of the susceptible common bean variety “Red Kidney.”     

Labeled indole-macromolecular conjugates from growing stems supplied with labeled indoleacetic Acid : I. Fractionation

Pea (Pisum sativum var. Alaska) and bean (Phaseolus vulgaris var. Red Kidney) stem sections treated with indoleacetic acid-1-¹⁴C, indoleacetic acid-2-¹⁴C, and indoleacetic acid-5-³H were homogenized, extracted with phenol, and the water-soluble, ethanol-insoluble material subjected to further fractionation. Following an 18-hour incubation period in indoleacetic acid-1-¹⁴C, most of the label was found as nonindole-¹⁴C in high molecular weight polysaccharide, as phenol extraction is specific for both RNA and polysaccharides. With indoleacetic acid-2-¹⁴C and -5-³H, and to a lesser extent with indoleacetic acid-1-¹⁴C, radioactive indoles were obtained by hydrolysis from a heterogeneous fraction between about 500 and 30,000 molecular weight, possibly polysaccharide in nature. Indoleacetic acid accounted for 8% and indole aldehyde accounted for 21% of the total radioactivity in the extract.     

Identification of a chlorosis-inducing toxin of Pseudomonas glycinea as coronatine

A toxin causing chlorosis in bean and soybean leaves has been isolated from liquid cultures of Pseudomonas glycinea, and purified. It has been identified as coronatine, a toxin produced also by Pseudomonas coronafaciens var. atropurpurea.     

Uptake Hydrogenase (Hup) in Common Bean (Phaseolus vulgaris) Symbioses

Strains of Rhizobium forming nitrogen-fixing symbioses with common bean were systematically examined for the presence of the uptake hydrogenase (hup) structural genes and expression of uptake hydrogenase (Hup) activity. DNA with homology to the hup structural genes of Bradyrhizobium japonicum was present in 100 of 248 strains examined. EcoRI fragments with molecular sizes of approximately 20.0 and 2.2 kb hybridized with an internal SacI fragment, which contains part of both bradyrhizobial hup structural genes. The DNA with homology to the hup genes was located on pSym of one of the bean rhizobia. Hup activity was observed in bean symbioses with 13 of 30 strains containing DNA homologous with the hup structural genes. However, the Hup activity was not sufficient to eliminate hydrogen evolution from the nodules. Varying the host plant with two of the Hup⁺ strains indicated that expression of Hup activity was host regulated, as has been reported with soybean, pea, and cowpea strains.     

Isolation of a kaurene synthetase inhibitor from castor bean seedlings and cell suspension cultures

Biosynthesis of ent-kaurene was investigated in extracts of cell suspension cultures and seedlings of castor bean. Both cell-free extracts contain an inhibitor of kaurene synthetase. The inhibition affects mainly the cyclization of geranylgeranyl pyrophosphate to copalyl pyrophosphate (activity A) and has little or no effect on the further cyclization of copalyl pyrophosphate to ent-kaurene (activity B) in both castor bean and Fusarium moniliforme cell-free enzyme preparations. In castor bean cell suspension cultures, the inhibitor diffuses out of the cells to the growth medium. The inhibitor is stable to 100 C heat treatment for 10 minutes and exposure to pH values of 2.0 or 13.0, and it diffuses through a dialysis bag (10⁴-dalton cutoff). Gel filtration chromatography of the inhibitor on a calibrated Bio-Gel P-10 column indicated a molecular weight of 7,500. Kinetic studies indicate that the inhibition of activity of A of kaurene synthetase is noncompetitive and reversible.