129 research outputs found
Model-based Optimization of Biopolymer Production from Glycerol
The present study focuses on sustainable production of biodegradable polymers by Cupriavidus necator DSMZ 545 using glycerol as substrate. The batch growth and biopolymer production kinetics were established in a 7-L bioreactor, which resulted in a total biomass of 8.88 g L–1 and poly(3-hydroxybutyrate) (PHB) accumulation of 6.76 g L–1. The batch kinetic and independently acquired substrate inhibition data were then used to develop a mathematical model for PHB production process. This was eventually used to design different nutrient feeding strategies under constant feed rate, decreasing feed rate, and pseudo steady state of substrate (glycerol) to optimize the PHB production during fed-batch cultivation. Among all the fed-batch cultivation strategies, the highest PHB accumulation and productivity of 13.12 g L–1 and 0.27 g L–1 h–1, respectively, was achieved in fed-batch bioreactor cultivation where a pseudo steady state with respect to glycerol was maintained.
This work is licensed under a Creative Commons Attribution 4.0 International License
A CASE REPORT ON ENTERIC FEVER INDUCED HYPOPHOSPHATEMIA
ABSTRACTHypophosphatemia is critical ill patients are a common entity which causes unnoticed most of the time. This can lead to considerable morbidity and insome cases contribute to mortality. A 20-year-old female patient presented to Emergency Medicine with complaints of diarrhea, breathing difficulty, andtachypnea. Her routine electrolyte investigation showed low phosphate level. Once hypophosphatemia was corrected with intravenous phosphorous,patient became symptomatically better. In this study, we encounter that enteric fever can also be a factor for symptomatic hypophosphatemia andit should be corrected even if it is mild. Therefore, this case emphasis on importance of correcting symptomatic hypophosphatemia in critically illpatients.Keywords: Enteric fever, Hypophosphatemia, Emergency medicine
Distinct or shared actions of peptide family isoforms: I. Peptidespecific actions of pyrokinins in the lobster cardiac neuromuscular system
Although the crustacean heart is modulated by a large number of peptides and amines, few of these molecules have been localized to the cardiac ganglion itself; most appear to reach the cardiac ganglion only by hormonal routes. Immunohistochemistry in the American lobster Homarus americanus indicates that pyrokinins are present not only in neuroendocrine organs ( pericardial organ and sinus gland), but also in the cardiac ganglion itself, where pyrokinin-positive terminals were found in the pacemaker cell region, as well as surrounding the motor neurons. Surprisingly, the single pyrokinin peptide identified from H. americanus, FSPRLamide, which consists solely of the conserved FXPRLamide residues that characterize pyrokinins, did not alter the activity of the cardiac neuromuscular system. However, a pyrokinin from the shrimp Litopenaeus vannamei [ADFAFNPRLamide, also known as Penaeus vannamei pyrokinin 2 (PevPK2)] increased both the frequency and amplitude of heart contractions when perfused through the isolated whole heart. None of the other crustacean pyrokinins tested (another from L. vannamei and two from the crab Cancer borealis) had any effect on the lobster heart. Similarly, altering the PevPK2 sequence either by truncation or by the substitution of single amino acids resulted in much lower or no activity in all cases; only the conservative substitution of serine for alanine at position 1 resulted in any activity on the heart. Thus, in contrast to other systems (cockroach and crab) in which all tested pyrokinins elicit similar bioactivities, activation of the pyrokinin receptor in the lobster heart appears to be highly isoform specific
Development and optimization of low power non-thermal plasma jet operational parameters for treating dyes and emerging contaminants
Emerging contaminants (ECs) have come out as the latest class of
environmental contaminants, which are highly recalcitrant and toxic in nature.
Currently, no suitable rectification methods are available against the ECs,
resulting in a continuous increase in their concentration. Non-thermal plasma,
as an advanced oxidation process, has been emerging as a promising technology
against the ECs treatment. In the present work, a detailed experimental study
is carried out to evaluate the efficacy of a non-thermal plasma jet with two
dyes, Rhodamine B and Methylene Blue, as model contaminants. The plasma jet
provided a complete dye decoloration in 30 min with an applied voltage of 6.5
kV. .OH, having the highest oxidation potential, acts as the main reactive
species, which with direct action on contaminants also acts indirectly by
getting converted into H2O2 and O3. Further, the effect of critical operational
parameters viz., sample pH, applied voltage (4.5-6.5 kV), conductivity (5-20
mScm-1), and sample distance on plasma treatment efficacy was also examined.
Out of all the assessed parameters, the applied voltage and sample conductivity
was found to be the most significant operating parameter. A high voltage and
low conductivity were found to favor the dye decoloration, while the pH effect
was not that significant. To understand the influence of plasma discharge gas
on treatment efficacy, all the experiments are conducted with Argon and Helium
gases under the fixed geometrical configuration. Both the gases provided a
similar dye decoloration efficiency. The DBD plasma system with complete dye
removal also rendered maximum mineralization of 73 % for Rd. B, and 60 % for
Met. Blue. Finally, the system's efficiency against the actual ECs (four
pharmaceutical compounds, viz., metformin, atenolol, acetaminophen, and
ranitidine) and microbial contaminant (Escherichia coli) was also tested.Comment: 23 pages, 7 figure
Distinct or shared actions of peptide family isoforms: II. Multiple pyrokinins exert similar effects in the lobster stomatogastric nervous system
Many neuropeptides are members of peptide families, with multiple structurally similar isoforms frequently found even within a single species. This raises the question of whether the individual peptides serve common or distinct functions. In the accompanying paper, we found high isoform specificity in the responses of the lobster (Homarus americanus) cardiac neuromuscular system to members of the pyrokinin peptide family: only one of five crustacean isoforms showed any bioactivity in the cardiac system. Because previous studies in other species had found little isoform specificity in pyrokinin actions, we examined the effects of the same five crustacean pyrokinins on the lobster stomatogastric nervous system (STNS). In contrast to our findings in the cardiac system, the effects of the five pyrokinin isoforms on the STNS were indistinguishable: they all activated or enhanced the gastric mill motor pattern, but did not alter the pyloric pattern. These results, in combination with those from the cardiac ganglion, suggest that members of a peptide family in the same species can be both isoform specific and highly promiscuous in their modulatory capacity. The mechanisms that underlie these differences in specificity have not yet been elucidated; one possible explanation, which has yet to be tested, is the presence and differential distribution of multiple receptors for members of this peptide family
Increased waterborne blaNDM-1 resistance gene abundances associated with seasonal human pilgrimages to the Upper Ganges River
Antibiotic resistance (AR) is often rooted in inappropriate antibiotic use, but poor water quality and inadequate sanitation exacerbate the problem, especially in emerging countries. An example is increasing multi-AR due to mobile carbapenemases, such as NDM-1 protein (coded by blaNDM-1 genes), which can produce extreme drug-resistant phenotypes. In 2010, NDM-1 positive isolates and blaNDM-1 genes were detected in surface waters across Delhi and have since been detected across the urban world. However, little is known about blaNDM-1 levels in more pristine locations, such as the headwaters of the Upper Ganges River. This area is of particular interest because it receives massive numbers of visitors during seasonal pilgrimages in May/June, including visitors from urban India. Here we quantified blaNDM-1 abundances, other AR genes (ARG) and coliform bacteria in sediments and water column samples from seven sites in the Rishikesh-Haridwar region of the Upper Ganges and five sites on the Yamuna River in Delhi to contrast blaNDM-1 levels and water quality conditions between season and region. Water quality in the Yamuna was very poor (e.g., anoxia at all sites), and blaNDM-1 abundances were high across sites in water (5.4 ± 0.4 log(blaNDM-1·mL-1); 95% confidence interval) and sediment (6.3 ± 0.7 log(blaNDM-1·mg-1)) samples from both seasons. In contrast, water column blaNDM-1 abundances were very low across all sites (2.1 ± 0.6 log(blaNDM-1·mL-1)) in February in the Upper Ganges and water quality was good (e.g., near saturation oxygen). However, per capita blaNDM-1 levels were 20 times greater in June in the Ganges water column relative to February and blaNDM-1 levels significantly correlated with fecal coliform levels (r=0.61; p=0.007). Given waste management infrastructure is limited in Rishikesh-Haridwar; data imply blaNDM-1 levels are higher in visitor's wastes than local residents, which results in seasonally higher blaNDM-1 levels in the river. Pilgrimage areas without adequate waste treatment are possible "hot spots" for AR transmission, and waste treatment must be improved to reduce broader AR dissemination via exposed returning visitors
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