Molecular and physiological characterization of the nitrogen transport system in Caenorhabditis elegans

Aida, Adlimoghaddam

15 December 2014

In this study, we investigated the mechanism of nitrogen excretion in the soil nematode Caenorhabditis elegans. Utilizing the scanning ion electrode technique (SIET), it was shown for the first time in nematodes that the excretory cell promotes a secretion of ions, including Na+, K+, H+ and Ca2+. In addition, observations from experiments exposing the animal to various environmental pH regimes suggested that the mode of ammonia excretion is dependent on acidification of the unstirred boundary layer, supported also by a detected H+-net-excretion over the hypodermis employing SIET. Pharmacological experiments, SIET and enzyme activity measurements implicated the participation of a functional microtubule network, V-type H+-ATPase, carbonic anhydrase, Na+/K+-ATPase, and apical Na+-channels in the ammonia excretion mechanism of this roundworm. Most importantly, employing ammonia transporter deficient Saccharomyces cerevisiae we were able to show for the first time that an invertebrate Rh-like protein (Rhr-1) does indeed function as an ammonia transporter. Further, a second Rh-protein, Rhr-2, was found to be predominantly expressed in the hypodermis. Knock-out experiments on this transporter further suggested participation of Rhr-2 in the apical ammonia trapping mechanism. Overall, the results of this study provided evidence for a novel ammonia excretion mechanism over the hypodermis, which exhibits features commonly seen in both freshwater (ammonia trapping) and seawater inhabiting species (vesicular transport and exocytosis). / October 2015

Acid-base regulation and ammonia excretion in the American horseshoe crab, Limulus polyphemus

Hans, Stephanie

15 September 2016

Acid-base regulation is vital for animals and while the inorganic carbon system largely determines body fluid pH, another potentially valuable acid-base pair is ammonia (NH4+/NH3). This study focuses on the American horseshoe crab (Limulus polyphemus), a phylogenetically ancient marine chelicerate with no published studies on its acid-base physiology. Physiological and molecular analyses indicate that Na+/K+-ATPase, Rhesus-protein (Rh), and carbonic anhydrase (CA) are involved in acid-base homeostasis and/or ammonia regulation. This likely occurs in the book gills, which consist of ultrastructurally distinct regions. The ventral half-lamella is ion-leaky and displayed high Rh-protein, cytoplasmic CA, and hyperpolarization-activated cyclic nucleotide-gated K+ channel mRNA expression levels, suggesting a specialization in facilitated CO2 and/or ammonia diffusion compared to the dorsal half-lamella. During hypercapnia acclimation, hemolymph acid-base status exhibited a compensated respiratory acidosis accompanied with signs of metabolic depression. Ammonia influx associated with high environmental ammonia acclimation was successfully counteracted, but induced modifications in acid-base homeostasis. / October 2016

Acid-base regulation

Ammonia

Hypercapnia

Book gills

Flow injection analysis of bismuth, ammonia and sulphur dioxide.

January 1986

by Chan Wing Fat. / Bibliography: leaves 134-136 / Thesis (M.Ph.)--Chinese University of Hong Kong, 1986

Bismuth--Analysis

Ammonia--Analysis

Sulfur dioxide--Analysis

Membranes for gas separation

Pengilley, Christine

January 2016

The effective separation of ammonia from the synthesis loop in ammonia synthesis plants is an important step in its manufacture. This work presents the use of nanocomposite MFI zeolite membranes prepared by a pore-plugging method for this separation process. Performance of a zeolite membrane is highly dependent on the operating conditions. Therefore, the influences of differential pressure, temperature, sweep gas flow, feed gas flow and gas composition are studied experimentally. Transport of NH3 in this membrane is by surface diffusion in the intracrystalline (zeolite) pores in parallel with capillary condensation in the intercrystalline (non-zeolite) pores. The separation of NH3 from a mixture with H2 and N2 is by preferential adsorption of NH3, which hinders the permeation of weakly adsorbed H2 and N2. Differential pressure has only relatively small effects in the pressure range 300kPa – 1550kPa. Increase in sweep flow rate has little effect on NH3 gas permeance, but H2 and N2 permeances increase thereby decreasing the selectivities. Increase in feed flowrate also has little effect on NH3 permeance. However, the N2 and H2 permeances increase and there is a subsequent decrease in selectivities. Membrane performance was found to be highly dependent on temperature. NH3 permeance in the mixture increases linearly with temperature. NH3 selectivity was found to increase with temperature up to 353K after which it starts to decrease due to N2 and H2 permeances increasing with temperatures beyond 353K (αNH3/N2 = 46 and αNH3/H2 = 15) and is therefore the optimum temperature for separation. A potential barrier model is developed to describe the hindering effect of NH3 on H2 and N2 permeance. The model fails to predict correctly H2 and N2 permeances in the ternary mixture using pure gas (H2 and N2) permeances. Binary mixture permeation H2/N2 studies showed that there are diffusion effects (single file diffusion) that have not been taken into account in the potential barrier model. When permeances of the individual components in the binary mixture are used in the model instead of the pure gas permeances, there is an improved agreement between experimental and predicted results.

660

Ammonia threshold and ammonia measurement as potential physiological parameters. / Ammonia threshold and ammonia measurement as potential physiologic parameters / CUHK electronic theses & dissertations collection / Digital dissertation consortium

January 2002

"May 2002." / Thesis (Ph.D.)--Chinese University of Hong Kong, 2002. / Includes bibliographical references (p. 142-163). / Electronic reproduction. Hong Kong : Chinese University of Hong Kong, [2012] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Electronic reproduction. Ann Arbor, MI : ProQuest Information and Learning Company, [200-] System requirements: Adobe Acrobat Reader. Available via World Wide Web. / Mode of access: World Wide Web. / Abstracts in English and Chinese.

Ammonia--blood

Blood Chemical Analysis

Exercise--physiology

Gold leaching in thiosulfate solutions containing copper(II) and ammonia

Breuer, Paul, 1968-

January 2002

Abstract not available

Gold

Leaching

Thiosulphates

Ammonia

Copper

Copper compounds

Gold leaching in thiosulfate solutions containing copper(II) and ammonia

Breuer, Paul,1968-

January 2002

For thesis abstract select View Thesis Title, Contents and Abstract

Gold

Leaching

Thiosulphates

Ammonia

Copper

Copper compounds

Effects of ammonia, pH, and nitrite on the physiology of Nitrosmonas europaea, an obligate ammonia-oxidizing bacterium

Stein, Lisa Yael

14 May 1998

Graduation date: 1998

Bacteria -- Physiology

Ammonia -- Psysiological effect

Nitrosmonas

Development of an ammonia emission protocol and preliminary emission factor for a central Texas dairy

Rose, Adam Joseph

30 September 2004

A protocol was developed to measure ammonia emission concentrations from dairies using an isolation flux chamber. A hybrid dairy in Comanche county, Texas, was measured for one week each during August 2002 and January 2003. Sixty total ammonia samples were taken from the free stall barn, open lot, mixing tank, separated solids, compost, and two lagoons using the developed protocol. The ammonia concentration measurements were made using a chemiluminescence analyzer located inside a mobile laboratory. From the emission concentrations recorded, it was estimated that 9.68 metric tons of ammonia were produced from this dairy per year. An emission factor of 13.34 ± 28.80 kilograms per day per thousand head of cattle (kg/day/1000 head) was estimated for this dairy (±95% confidence intervals) during summer conditions. For winter conditions the emission factor was 12.05 ± 12.89 kg/day/1000 head. The 11% difference of the emission factors from summer to winter conditions was predominantly from the change in ambient and control volume temperatures (a mean difference of approximately 25 degrees Celsius), differences in source temperatures, and seasonal variability in husbandry. The adsorption of ammonia onto different polymer tubing used in pollutant stream conveyance was researched for possible systematic losses. Teflon and low density polyethylene (LDPE) were tested for ammonia losses with treatments of: temperature, length, and inlet concentration. Inlet concentration and temperature were significant factors used to describe ammonia adsorption for Teflon, whereas LDPE was also affected by tubing length. These factors were used to create a model to correct the summer dairy measurements for ammonia losses, resulting in an emission factor increase of 8.3% over the original value obtained from the flux chamber. A nitrogen mass balance was performed to estimate the amount of nitrogen available for ammonia formation as excreted - 177.5 kilograms per year per animal (wet basis). The amount of ammonia excreted per year was also estimated to be 26.63 kilograms per year. The measured ammonia emitted from the dairy was five times less than the ammonia excreted and thirty-six times less than the total nitrogen excreted.

dairy

ammonia

flux chamber

adsorption

emission factor

Gluconeogenesis and Ammonia Production in the Isolated Perfused Rat Kidney : The Effect of Starvation, Acidosis and Diabetic Ketosis

SAKAMOTO, NOBUO, TSUCHIDA, ISAMU, SANO, TAKAHISA, KAWAMURA, TAKAHIKO, NISHIDA, TOMOATSU, SAKAKIBARA, FUMIHIKO, GOTO, ENJIRO

03 1900

No description available.

Isolated perfused rat kidney

Ammonia production

Gluconeogenesis