Molecular characterization of allelic variation in spontaneous brown midrib mutants of sorghum (Sorghum bicolor (L.) Moench)

Modification of lignin composition and content are important to enhance the saccharification potential of lignocellulosic biomass. Brown midrib (bmr) mutants with altered lignin and enhanced glucose yields are a valuable resource for modification of the lignin biosynthetic pathway in sorghum (Sorghum bicolor (L.) Moench). Of the 38 bmr mutants reported in sorghum, some have been classified into four independent groups, namely bmr2, bmr6, bmr12 and bmr19, based on the allelic test, and a few have been characterized at the molecular level. The bmr2, bmr6 and bmr12 groups have mutations that impair 4-coumarate:coenzyme A ligase (4CL), cinnamyl alcohol dehydrogenase (CAD2) and caffeic O-methyltransferase (COMT), respectively. The molecular basis of bmr19 is unknown. In the present study, four spontaneous bmr mutants of sorghum were analyzed for allelic variation at two candidate gene loci. cDNAs of CAD2 and COMT genes were cloned and sequenced from these mutants. Sequence analysis revealed that two of these mutants, IS23789 and IS23253, share a new allele of CAD2. These mutants have a G-to-C transversion at position 3699 of the genomic sequence that leads to glycine-to-arginine (G191R) substitution in the CAD2 protein sequence. This mutation lies in the highly conserved glycine-rich motif ¹⁸⁸G(X)GGV(L)G¹⁹³ that participates in the binding of the pyrophosphate group of NADP⁺ cofactor and hence might impair the activity of CAD2. Phloroglucinol staining of midribs of these mutants also showed a dark wine-red color that is characteristic of the bmr6 group. These two mutants can be distinguished by an intron length polymorphic marker developed based on the COMT gene sequence in this study. Mutant IS23549, which has also been assigned to the bmr6 group, was found to have another new allele with alanine-to-valine (A164V) substitution in CAD2. Alanine-164 is highly conserved among MDR proteins in plants and hence may be necessary for the activity of the enzyme. In mutant IS11861, there was no mutation that led to a change in amino acid in CAD2, while a threonine-to-serine (T302S) substitution was found in COMT. This single nucleotide polymorphism (SNP) at position 2645 in the COMT gene was converted into a cleaved amplified polymorphic sequence marker that can be used for its identification. In addition, additional SNP- and/or indel-based markers were developed, which can be used for exploiting these alleles in the molecular breeding of sorghum for dedicated bioenergy feedstock.     

Proprotein Convertases Process and Thereby Inactivate Formylglycine-generating Enzyme

Formylglycine-generating enzyme (FGE) post-translationally converts a specific cysteine in newly synthesized sulfatases to formylglycine (FGly). FGly is the key catalytic residue of the sulfatase family, comprising 17 nonredundant enzymes in human that play essential roles in development and homeostasis. FGE, a resident protein of the endoplasmic reticulum, is also secreted. A major fraction of secreted FGE is N-terminally truncated, lacking residues 34–72. Here we demonstrate that this truncated form is generated intracellularly by limited proteolysis mediated by proprotein convertase(s) (PCs) along the secretory pathway. The cleavage site is represented by the sequence RYSR⁷²↓, a motif that is conserved in higher eukaryotic FGEs, implying important functionality. Residues Arg-69 and Arg-72 are critical because their mutation abolishes FGE processing. Furthermore, residues Tyr-70 and Ser-71 confer an unusual property to the cleavage motif such that endogenous as well as overexpressed FGE is only partially processed. FGE is cleaved by furin, PACE4, and PC5a. Processing is disabled in furin-deficient cells but fully restored upon transient furin expression, indicating that furin is the major protease cleaving FGE. Processing by endogenous furin occurs mostly intracellularly, although also extracellular processing is observed in HEK293 cells. Interestingly, the truncated form of secreted FGE no longer possesses FGly-generating activity, whereas the unprocessed form of secreted FGE is active. As always both forms are secreted, we postulate that furin-mediated processing of FGE during secretion is a physiological means of higher eukaryotic cells to regulate FGE activity upon exit from the endoplasmic reticulum.     

Production of extracellular proteins,cellulases and antifungal metabolites by Chaetomium globosum Kunze ex. Fr.

Chaetomium globosum has been well-known potential antagonist of several seed and soilborne fungus. Eight isolates of C. globosum were obtained from different sources and were identified by morphological characters. C. globosum isolates examined for the presence of extra cellular proteins, cellulases and antifungal metabolites in culture filtrate by sodium dodecyl sulphate-polyacrylamide gel electrophoresis (SDS-PAGE), thin-layer chromatography and high-performance liquid chromatography. Variation in the mycelial protein of C. globosum isolates was noted in the SDS-PAGE analysis. Different C. globosum isolates that showed more number of bands in protein profile was further screened for the production of cellulases in culture filtrate. Cellulase activity of C. globosum isolates revealed that maximum activity was observed in the isolate Cg-6 after 11?days of incubation, while Cg-2 had least activity. C. globosum isolates were tested for antibiotic production, among which three isolates viz. Cg-6, Cg-7 and Cg-5 were found to produce the antibiotic Chaetoglobosin A in the culture filtrate. The antibiotic Chaetoglobosin A appeared blue colour under UV spectrum with a wavelength of 250?nm.     

Nucleic acid based detection technique for Ganoderma lucidum in coconut

Basal stem rot caused by Ganoderma lucidum is the most serious disease in coconut and arecanut gardens. Twenty-five Ganoderma isolates were collected from different parts of India and the pathogenicity of Ganoderma was proved on coconut seedlings. Mature sporophores developed within 10–13?weeks after inoculation of pathogen under in vivo. To detect the pathogen at early stage, DNA-based technology, polymerase chain reaction was used. In this, the primers Gan1 and Gan2 produced a product of 167?bp in size for all the Ganoderma isolates tested. Simultaneously, ITS 1 and ITS 4 primers amplified a fragment of 680?bp in the Ganoderma isolates. In addition, Ganoderma isolates showed polymorphism in the random amplified polymorphic DNA analysis.     

Purification and partial characterization of a toxin produced by Ganoderma lucidum,the coconut Ganoderma disease pathogen

Abstract

An extracellular, hydrophilic, thermostable phytotoxin was purified to homogeneity from culture fluids of Ganoderma lucidum. The phytotoxin was purified by solvent extraction, gel filtration on Sephadex G-75. Toxicity was evaluated with detached leaf sheath and electrolyte leakage bioassays. Purified phytotoxin induced visible symptoms of the disease, when applied to coconut leaves, fronds and roots even at a low concentration. The toxin is a glycoprotein with carbohydrate as the major component. The importance of the carbohydrate moiety for toxic activity was indicated by inactivation of toxic compounds after periodate oxidation. The toxin caused lesions on a number of other monocots and dicots and proved to be non-host specific.     

Induction of systemic resistance in rice to bacterial blight by 1,2,3-benzothiadiazole 7-carbothioic acid-S-methyl ester (BTH) treatments

Use of BTH to evaluate the disease severity and induction of systemic resistance in rice to bacterial blight caused by Xanthomonas oryzae pv. oryzae is investigated. A new batch of 25 isolates of Xanthomonas oryzae pv. oryzae was obtained from infected rice lead tissues collected from Pattambi, Kerala, south India. Their identification was confirmed by the plant inoculation test on to IR24 rice plants which produced characteristic bacterial blight lesions. Among the 25 of X.o. pv. oryzae, four of the isolates were also virulent to IRBB21 rice plants (a near isogenic line of IR24) which carry the Xa-21 gene for BB resistance. The results confirm that there are pathogen strains in India which can overcome Xa-21. Development of BB lesions developed in IR24 (BB susceptible) plants after they were treated with BTH applications either as seed treatment or as foliar spray at 0.1, 0.5, 0.1 and 2.0 mM concentrations showed that even at 2.0 mM concentrations, IR24 plants were still susceptible to the pathogen. There was very little or marginal effect of BTH on the induction of resistance to BB in IR24 rice plants. When the same concentrations of BTH were applied to IRBB21 (Xa-21) rice plants, they showed pronounced triggering of systemic resistance to BB pathogen even at 0.1 mM concentration of BTH applied either as seed treatment or as foliar spry. Disease severity index was reduced to 5 (against a score of 9 in untreated) and there was 85–86% reduction in BB incidence in plants that received 0.1 mM BTH. These results provide evidence that BTH-induced systemic resistance complements the R-gene resistance in IRBB21 plants but not in IR24 rice plants.     

In Vitro Investigation of the Immunomodulatory Potential of Probiotic Lactobacillus casei

The current study investigated the immunomodulatory potential of ethyl acetate soluble supernatant of Lactobacillus casei (LC-EAS) in vitro. The effect of LC-EAS on nitric oxide release was analyzed in RAW 264.7 cells, wherein, an inhibition in nitric oxide production through suppression of inducible nitric oxide synthase mRNA expression was observed. Evaluation of LC-EAS on LPS-induced peripheral blood mononuclear cells showed a down-regulation in TNF-α and IL-6 genes and an upregulation of IL-10. An inhibition in the protein expression of NF-κB, ERK1/2 and STAT3 phosphorylation confirms the immunomodulatory potential of LC-EAS. The effect of LC-EAS on in vitro intestinal epithelial cells was investigated using HT-29 human colon adenocarcinoma cancer cells. LC-EAS exhibited an inhibition of NF-κB and ERK1/2 phosphorylation, whereas STAT3 phosphorylation was unregulated. To evaluate the downstream target of STAT3 upregulation, expression of the intestinal trefoil factor TFF3 which is a NF-κB regulator and STAT3 downstream target was studied. LC-EAS was observed to elevate TFF3 mRNA expression. Overall the study shows that the anti-inflammatory potential of LC-EAS is through inhibition of NF-κB in different cell types.     

Molecular Evolution of Vertebrate Neurotrophins: Co-Option of the Highly Conserved Nerve Growth Factor Gene into the Advanced Snake Venom Arsenalf

Neurotrophins are a diverse class of structurally related proteins, essential for neuronal development, survival, plasticity and regeneration. They are characterized by major family members, such as the nerve growth factors (NGF), brain-derived neurotrophic factors (BDNF) and neurotrophin-3 (NT-3), which have been demonstrated here to lack coding sequence variations and follow the regime of negative selection, highlighting their extremely important conserved role in vertebrate homeostasis. However, in stark contrast, venom NGF secreted as part of the chemical arsenal of the venomous advanced snake family Elapidae (and to a lesser extent Viperidae) have characteristics consistent with the typical accelerated molecular evolution of venom components. This includes a rapid rate of diversification under the significant influence of positive-selection, with the majority of positively-selected sites found in the secreted β-polypeptide chain (74%) and on the molecular surface of the protein (92%), while the core structural and functional residues remain highly constrained. Such focal mutagenesis generates active residues on the toxin molecular surface, which are capable of interacting with novel biological targets in prey to induce a myriad of pharmacological effects. We propose that caenophidian NGFs could participate in prey-envenoming by causing a massive release of chemical mediators from mast cells to mount inflammatory reactions and increase vascular permeability, thereby aiding the spread of other toxins and/or by acting as proapoptotic factors. Despite their presence in reptilian venom having been known for over 60 years, this is the first evidence that venom-secreted NGF follows the molecular evolutionary pattern of other venom components, and thus likely participates in prey-envenomation.     

Optimization of food waste hydrolysis in leach bed coupled with methanogenic reactor: effect of pH and bulking agent

The effects of pH and bulking agents on hydrolysis/acidogenesis of food waste were studied using leach bed reactor (LBR) coupled with methanogenic up-flow anaerobic sludge blanket (UASB) reactor. The hydrolysis rate under regulated pH (6.0) was studied and compared with unregulated one during initial experiment. Then, the efficacies of five different bulking agents, i.e. plastic full particles, plastic hollow sphere, bottom ash, wood chip and saw dust were experimented under the regulated pH condition. Leachate recirculation with 50% water replacement was practiced throughout the experiment. Results proved that the daily leachate recirculation with pH control (6.0) accelerated the hydrolysis rate (59% higher volatile fatty acids) and methane production (up to 88%) compared to that of control without pH control. Furthermore, bottom ash improved the reactor alkalinity, which internally buffered the system that improved the methane production rate (0.182 l CH₄/g VS_added) than other bulking agents.