Anodic Polarization of Copper Single Crystal Planes in Sulphuric Acid

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Acute necrotizing encephalopathy in a young adult with EBV and COVID19 co-infection: A case report

Clinical history: A 22yr old female came with complaints of fever and altered sensorium since 2 days. Serology showed positive for Epstein-Barr virus (EBV) and COVID-19 IgG antibodies. Laboratory investigations revealed elevated total counts & inflammatory markers

<i>In Vitro</i> Activity of Two Cefepime-Based Novel Combinations, Cefepime/Taniborbactam and Cefepime/Zidebactam, against Carbapenemase-Expressing <i>Enterobacterales </i>Collected in India

In recent times, discovery efforts for novel antibiotics have mostly targeted carbapenemase-producing Gram-negative organisms. Two different combination approaches are pertinent: b-lactam-b-lactamase inhibitor (BL/BLI) or b-lactam-b-lactam enhancer (BL/ BLE). Cefepime combined with a BLI, taniborbactam, or with a BLE, zidebactam, has been shown to be promising. In this study, we determined the in vitro activity of both these agents along with comparators against multicentric carbapenemase-producing Enterobacterales (CPE). Nonduplicate CPE isolates of Escherichia coli (n = 270) and Klebsiella pneumoniae (n = 300), collected from nine different tertiary-care hospitals across India during 2019 to 2021, were included in the study. Carbapenemases in these isolates were detected by PCR. E. coli isolates were also screened for the presence of the 4-Amino-Acid insert in penicillin binding protein 3 (PBP3). MICs were determined by reference broth microdilution. Higher MICs of cefepime/taniborbactam (.8 mg/L) were linked to NDM, both in K. pneumoniae and in E. coli. In particular, such higher MICs were observed in 88 to 90% of E. coli isolates producing NDM and OXA-48-like or NDM alone. On the other hand, OXA-48-like-producing E. coli or K. pneumoniae isolates were nearly 100% susceptible to cefepime/taniborbactam. Regardless of the carbapenemase types and the pathogens, cefepime/ zidebactam showed potent activity (.99% inhibited at#8mg/L). It seems that the 4-amino-Acid insert in PBP3 (present universally in the study E. coli isolates) along with NDM adversely impact the activity of cefepime/taniborbactam. Thus, the limitations of the BL/BLI approach in tackling the complex interplay of enzymatic and nonenzymatic resistance mechanisms were better revealed in whole-cell studies where the activity observed was a net effect of b-lactamase inhibition, cellular uptake, and target affinity of the combination. IMPORTANCE The study revealed the differential ability of cefepime/taniborbactam and cefepime/zidebactam in tackling carbapenemase-producing Indian clinical isolates that also harbored additional mechanisms of resistance. NDM-expressing E. coli with 4-Amino-Acid insert in PBP3 are predominately resistant to cefepime/taniborbactam, while the b-lactam enhancer mechanism-based cefepime/zidebactam showed consistent activity against single-or dual-carbapenemase-producing isolates including E. coli with PBP3 inserts.</p

Hypocrea rufa/Trichoderma viride: a reassessment, and description of five closely related species with and without warted conidia

The type species of the genus Hypocrea (Hypocreaceae, Hypocreales, Ascomycota, Fungi), H. rufa, is re-defined and epitypified using a combination of phenotype (morphology of teleomorphs and anamorphs, and characteristics in culture) and phylogenetic analyses of the translation-elongation factor 1α gene. Its anamorph, T. viride, the type species of Trichoderma, is re-described and epitypified. Eidamia viridescens is combined as Trichoderma viridescens and is recognised as one of the most morphologically and phylogenetically similar relatives of T. viride. Its teleomorph is newly described as Hypocrea viridescens. Contrary to frequent citations of H. rufa and T. viride in the literature, this species is relatively rare. Although both T. viride and T. viridescens have a wide geographic distribution, their greatest genetic diversity appears to be in Europe and North America. Hypocrea vinosa is characterised and its anamorph, T. vinosum sp. nov., is described. Conidia of T. vinosum are subglobose and warted. The new species T. gamsii is proposed. It shares eidamia-like morphology of conidiophores with T. viridescens, but it has smooth, ellipsoidal conidia that have the longest L/W ratio that we have seen in Trichoderma. Trichoderma scalesiae, an endophyte of trunks of Scalesia pedunculata in the Galapagos Islands, is described as new. It only produces conidia on a low-nutrient agar to which filter paper has been added. Additional phylogenetically distinct clades are recognised and provisionally delimited from the species here described. Trichoderma neokoningii, a T. koningii-like species, is described from a collection made in Peru on a fruit of Theobroma cacao infected with Moniliophthora roreri

Plant growth-promoting actinobacteria: a new strategy for enhancing sustainable production and protection of grain legumes

Grain legumes are a cost-effective alternative for the animal protein in improving the diets of the poor in South-East Asia and Africa. Legumes, through symbiotic nitrogen fixation, meet a major part of their own N demand and partially benefit the following crops of the system by enriching soil. In realization of this sustainability advantage and to promote pulse production, United Nations had declared 2016 as the “International Year of pulses”. Grain legumes are frequently subjected to both abiotic and biotic stresses resulting in severe yield losses. Global yields of legumes have been stagnant for the past five decades in spite of adopting various conventional and molecular breeding approaches. Furthermore, the increasing costs and negative effects of pesticides and fertilizers for crop production necessitate the use of biological options of crop production and protection. The use of plant growth-promoting (PGP) bacteria for improving soil and plant health has become one of the attractive strategies for developing sustainable agricultural systems due to their eco-friendliness, low production cost and minimizing consumption of non-renewable resources. This review emphasizes on how the PGP actinobacteria and their metabolites can be used effectively in enhancing the yield and controlling the pests and pathogens of grain legumes

Thermal Response of Long Jute and Banana Hybrid Epoxy Fibrous Natural Composites

&lt;p&gt;The thermal response of long Jute and Banana reinforced epoxy natural composites has been investigated. The materials systems used for the investigation are : Epoxy (EP), Epoxy/4 wt.% Banana fiber (BF)/4 wt.% Jute fiber (JF) (EP8), Epoxy/8 wt.% BF/8 wt.% JF (EP16), Epoxy/12 wt.% BF/12 wt.% JF (EP24), and Epoxy/16 wt.% BF/16 wt.% JF (EP32). These composites were processed and fabricated using hand – lay-up technique. The thermal response of the aforesaid material systems were studied using thermogravimetric analysis (TGA). The % weight loss of these composites at defined temperature has been recorded from the thermograms. The hybridization effect of long jute and banana fibers on the thermal stability of epoxy fibrous composites were investigated. It is revealed from the experimentation that higher loading of natural fibers has enhanced the thermal stability of composites. The percentage weight loss of these composites has been controlled at higher thermal load using the combined effect of natural fibers.&lt;/p&gt;&lt;p&gt;Keywords:- Thermal; Jute Fiber; Banana Fiber; Epoxy; Natural Composites.&lt;/p&gt