Novel expression system for Corynebacterium acetoacidophilum and Escherichia coli based on the T7 RNA polymerase-dependent promoter

The industrially important species of corynebacteria viz. Corynebacterium acetoacidophilum appear to be alternative hosts for recombinant protein production; despite many efforts, a strong promoter-based system in corynebacteria has not been established so far. Described here is a T7 promoter-based expression system which was functional in both gram-positive C. acetoacidophilum and gram-negative Escherichia coli in an external inducer independent manner. This is the very first report of a T7 expression system for Corynebacterium sp. Also, it is a useful addition in the existing T7 expression systems of E. coli.     

Analysis of activity driven by upstream regulatory modules (URM) of tapetum specific genes TA29 and A9 at ectopic locations in tobacco transgenics

TA29 and A9 are genes from Nicotiana tabacum and Arabidopsis thaliana respectively, which express in a tapetum specific manner. The upstream regulatory modules (URMs; i.e. the promoter and the 5′UTR) of these genes have been used in development of male sterile and restorer lines expressing the barnase and barstar genes for hybrid seed production. While initial studies show that these URMs drive the expression in a tapetum specific manner, there are no recordings of unintended (leaky) expression driven by these URMs at ectopic locations due to position effect in developed transgenic lines. The information on leaky expression driven by tissue specific URMs is important for their use in developing transgenic plants. The present study records the leaky activity of both these URMs in transgenic tobacco lines using β-glucuronidase as a reporter gene. Leaky activity was observed in about one-fourth of the lines developed with TA29. Most interestingly in these lines, the leaky expression of the reporter gene was observed to be restricted to the meristematic tip region of the roots and at the leaf gap from where leaf trace diverges from stem bundles. Such a restricted and unique pattern of leaky activity of a tissue specific promoter or a URM has never been reported before, including the URM of the A9 gene analyzed in the present study. This observation suggests the presence of cryptic cis-elements within the URM of TA29 gene that can possibly activate it in meristematic tissue when integrated at certain ectopic locations. The URM of the A9 gene was also observed to show leaky activity. However, there was no unique pattern as observed with that of TA29. Further, in the study we also show that while the smaller (290 bp) length of TA29 URM can be used to drive the expression of barnase gene to develop male sterile lines, it adversely affects the regeneration of transgenic tobacco lines due to leaky expression. This adverse effect is significantly reduced when the full length (1.5 kb) URM of the TA29 gene is used.     

Exogenous application of calcium chloride in wheat genotypes alleviates negative effect of drought stress by modulating antioxidant machinery and enhanced osmolyte accumulation

Plants use various mechanisms to cope with drought constraints at morphological, physiological, and biochemical level by means of different adaptive mechanisms. All organisms use a network of signal transduction pathways to control their metabolism and to adapt to the environment. Among these pathways, calcium (Ca²⁺) ions play an important role as a universal second messenger. Calcium has unique properties and universal ability to transmit diverse signals that trigger primary physiological actions in the cell in response to hormones, pathogens, and stress factors. Calcium plays a fundamental role in regulating the polar growth of cells and tissues and participates in plant adaptation to various stress factors. This study was conducted to examine the role of Ca²⁺ in ameliorating the adverse effect of drought stress responses in two contrasting wheat genotypes, HD 2733 (drought sensitive) and HD 2987 (drought tolerant), differing in their drought tolerance. The plants were treated with mannitol or Hoagland solution and then supplemented with CaCl₂ (10 mM). Measurements of seed germination, shoot growth, and chlorophyll content showed that calcium treatment increased all these factors in tolerant genotype (HD 2987) under induced stress condition. Drought stress reduced relative water content, osmolyte, and soluble sugar accumulation in both the genotypes, but CaCl₂ supplementation increased all the components under stress condition in HD 2987 as compared to HD 2733. The oxidative damage caused by induced stress was lower in HD 2987 compared to HD 2733 genotypes as assessed by their higher photosynthetic capacity and lower electrolyte leakage, malondialdehyde (MDA) content as well as H₂O₂ accumulation. Less accumulation of superoxide and H₂O₂ was also observed in HD 2987 genotype after CaCl₂ supplementation combined with mannitol treatment. In addition, the enhanced accumulation of calcium in the HD 2987 genotype is correlated with the higher activities of antioxidant enzymes than HD 2733 genotype under similar stress conditions. Our findings provide evidence of the protective role of exogenous calcium in conferring better tolerance against mannitol-induced drought stress in wheat genotypes, which could be useful as genetic stock to develop wheat tolerant varieties in breeding programs.     

Determination and quantification of asiaticoside in endophytic fungus from <Emphasis Type="Italic">Centella asiatica</Emphasis> (L.) Urban

Centella asiatica (L.) Urban is a highly considered medicinal plant owing to its secondary metabolites asiaticoside, madecassoside, asiatic acid, and madecassic acid. The asiaticoside, one of the most important constituents of the plant, is a triterpenoid saponin having memory enhancement property. Given its medicinal properties, we isolated and characterized endophytic fungi from this plant with the aim to screen these microorganisms for asiaticoside production. In total, we isolated 13 endophytic fungi from the leaves of the plant, out of which one of the isolates produced asiaticoside. This asiaticoside producing isolate was identified as Colletotrichum gloeosporioides by internal transcribed spacer-based rDNA sequencing. The presence of asiaticoside in ethyl acetate extract of C. gloeosporioides was confirmed by LC–MS. The production of asiaticoside measured in relation to incubation time and subculture generation revealed presence of 62.29?±?3.36 µg/100 mL of asiaticoside by C. gloeosporioides on the 15th day in first subculture generation followed by a decrease in subsequent generations. A similar trend was also shown by yield and growth curve of C. gloeosporioides. The asiaticoside production and yield were found to be positively correlated. This paper reported the production of asiaticoside by an endophytic fungus C. gloeosporioides for the first time. The present findings definitely provide an impetus to the production of asiaticoside by utilizing the endophytic source.

Graphical Abstract

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Chemical compound studied in this article: Asiaticoside (PubChemCID: 108062)

     

Secretory phospholipase A2 in SARS-CoV-2 infection and multisystem inflammatory syndrome in children (MIS-C)

Secretory phospholipase 2 (sPLA2) acts as a mediator between proximal and distal events of the inflammatory cascade. Its role in SARS-CoV-2 infection is unknown, but could contribute to COVID-19 inflammasome activation and cellular damage. We present the first report of plasma sPLA2 levels in adults and children with COVID-19 compared with controls. Currently asymptomatic adults with a history of recent COVID-19 infection (≥4 weeks before) identified by SARS-CoV-2 IgG antibodies had sPLA2 levels similar to those who were seronegative (9 ± 6 vs.17 ± 28 ng/mL, P = 0.26). In contrast, children hospitalized with severe COVID-19 had significantly elevated sPLA2 compared with those with mild or asymptomatic SARS-CoV-2 infection (269 ± 137 vs. 2 ± 3 ng/mL, P = 0.01). Among children hospitalized with multisystem inflammatory syndrome in children (MIS-C), all had severe disease requiring pediatric intensive care unit (PICU) admission. sPLA2 levels were significantly higher in those with acute illness <10 days versus convalescent disease ≥10 days (540 ± 510 vs. 2 ± 1, P = 0.04). Thus, sPLA2 levels correlated with COVID-19 severity and acute MIS-C in children, implicating a role in inflammasome activation and disease pathogenesis. sPLA2 may be a useful biomarker to stratify risk and guide patient management for children with acute COVID-19 and MIS-C. Therapeutic compounds targeting sPLA2 and inflammasome activation warrant consideration.     

Radiation resistance in thermophiles: mechanisms and applications

The study of prokaryotic life in high temperature environments viz., geothermal areas, hot, acidic geysers and undersea hydrothermal vents has revealed the existence of thermophiles (or hyperthermophiles). These microorganisms possess various stress adaptation mechanisms which enable them to bypass multiple physical and chemical barriers for survival. The discovery of radiation resistant thermophile Deinococcus geothermalis has given new insights into the field of radiation microbiology. The ability of radiation resistant thermophiles to deal with the lethal effects of ionizing radiations like DNA damage, oxidative bursts and protein damage has made them a model system for exobiology and interplanetary transmission of life. They might be an antiquity of historical transport process that brought microbial life on Earth. These radiation resistant thermophiles are resistant to desiccation as well and maintain their homeostasis by advance DNA repair mechanisms, reactive oxygen species (ROS) detoxification system and accumulation of compatible solutes. Moreover, engineered radioresistant thermophilic strains are the best candidate for bioremediation of radionuclide waste while the extremolytes produced by these organisms may have predicted therapeutic uses. So, the present article delineate a picture of radiation resistance thermophiles, their adaptive mechanisms to evade stress viz., radiation and desiccation, their present applications along with new horizons in near future.