Determinación de urea en vinos comerciales chilenos.

Pino Fuentes, Claudia Andrea

January 2005

El propósito de este estudio se basó en el desarrollo de dos ensayos. En el primero de ellos se pretendió determinar la concentraci ón de urea en vinos comerciales chilenos, 15 vinos tintos y 5 Late Harvest, utilizando para los primeros un método colorimétrico y para los Late Harvest un método enzimático (Kit enzimático Urea-Amonio, Boehringer Manheim). En un segundo ensayo se pretendió evaluar la influencia del tiempo y la temperatura de almacenamiento, en la concentración de urea, en un vino tinto con una concentración inicial de 5 mg/L. Las mediciones se hicieron utili zando el método colorimétrico una vez por semana durante 2 meses. Los vinos comerciales utilizados corres ponden a vinos de 5 viña s escogidas al azar y para el segundo ensayo se utilizó vino en etapa de elaboración de la vendimia 2003 el cual se sometió a diferentes temperaturas para evaluar su efecto en la evolución de la concentración de urea. Los resultados obtenidos permiten señalar que en los 15 vinos tintos utilizados no se presentan niveles altos de urea, lo que reduce las posibilidades de formación potencial de carbamato de etilo, a diferencia de uno de los cinco vinos Late Harvest que presentó una concentración mayor a los 3 mg/L. Para el caso del vino sometido a distintas temperaturas se observa claramente una disminución en la concentración de urea en el tiempo, mayormente en el vino sometido a la temperatura más alta (37 ± 1º C), lo que hace probable la formación de carbamato de etilo por efecto de esta variable.

Ingeniería Agronómica

Compuestos nitrogenado

Carbamato de etilo

Urea

The use of cultured cells with defects of citrulline metabolism in diagnosis and in the study of intercellular communication

Davidson, James Schonland

January 1985

Citrullinemia and argininosuccinic aciduria are two disorders resulting from defects in two consecutive enzymes of the urea cycle, argininosuccinate synthetase and argininosuccinate lyase. Fibroblast cell lines were derived from patients with these disorders and the diagnoses, which had been made on the basis of amino acid levels in plasma and urine, were confirmed by demonstrating that the cell lines were unable to incorporate 14 c-citrulline into protein. DNA from the argininosuccinate synthetase-deficient (ASS⁻) cells was analysed by restriction enzyme digestion and hybridisation to a cDNA probe which had been cloned from human argininosuccinate synthetase mRNA. No defect in the patient's DNA could be demonstrated, indicating that no major deletions in the argininosuccinate synthetase genes were present in this patient. Co-cultures of the ASS⁻ and argininosuccinate lyase-deficient (ASL⁻) fibroblasts were able to incorporate 14 citrulline into protein at rates comparable to normal fibroblasts. This complementation did not require cell fusion, was dependent on cell contact, and was not the result of exchange of metabolites or enzymes via the culture medium. These results indicated that complementation occurred by the exchange of metabolites via intercellular junctions between the two cell types. Co-cultures of ASS⁻ and ASL⁻ cells were used as an assay system for measuring intercellular junctional communication. This allowed quantitation of the effects of pH and extracellular divalent cations on junctional communication. Tumor promoters such as phorbol esters and organochlorine pesticides have been reported to inhibit intercellular junctional communication in other systems, and this inhibitory activity may be related to the mechanism of tumor promotion. The organochlorine pesticide 1,1,1-trichloro- 2,2-bis(p-chlorophenyl)ethane (DDT) was shown to be an inhibitor of junctional communication in ASS⁻/ASL⁻ cocultures. This inhibition was reversible, of rapid onset, and independent of extracellular calcium. The tumor-promoting phorbol ester 12-0-tetradecanoyl-phorbol-13- acetate (TPA) also rapidly induced inhibition of junctional communication. However, co-cultures between Chinese hamster V79 cells, which are deficient in ASS⁻, and ASL⁻ human fibroblasts were more sensitive to inhibition by TPA than the original ASS⁻/ASL⁻ co-cultures. Refractoriness to TPA occurred following prolonged treatment with high concentrations of TPA. Retinoic acid and other retinoids also inhibited junctional communication, and the inhibitory effects of retinoic acid and TPA were additive. The significance of these results in relation to the anti-tumor-promoting activity of retinoic acid is discussed. It is concluded that co-cultures of ASS⁻ and ASL⁻ cells constitute a useful system for providing quantitative measurements of intercellular junctional communication under a wide range of experimental conditions.

Cell communication

Citrulline - Metabolism

Urea - Deficiency

Arginine

The effects of structural changes on the formation of urea adducts of esters

Smith, Gerard Vinton

01 January 1956

An unexpected discovery in 1940 revealed that urea has the peculiar property to form crystalline adducts with many straight chain organic compounds. Since the discovery, considerable time and money have been spent on the elucidation of this phenomenon, and the field of urea adducts has now advanced to the stage at which many empirical rules have been observed but, unfortunately, no sound theory has been formulated. The purpose of this research was to determine the effect, if any, of changes in structure upon the amount of urea required to adduct with esters. The change in structure consisted of changing the position of the carbonyl group in a series of straight chain twenty-carbon esters.

Esters

Urea

Chemistry

Physical Sciences and Mathematics

The urea adducts of certain esters containing twenty carbons

Johnson, Donald Eugene

01 January 1953

Urea has the interesting and unexpected property of forming solid complexes with many straight-chained organic compounds. So selective is the formation of these complexes with linear aliphatic compounds that it provides a means of separation form the analogous branched and cyclic compounds. Linear esters derived from normal saturated and unsaturated esters give adducts also but not to the same extent. Although many linear aliphatic compounds form adducts, the compounds so formed have varying degrees of stability depending on molecular weight, saturation and the shape of the molecule. The purpose of this investigation is to determine the effect of the position in the molecule of the carbonyl group in the formation of urea adducts with a series of twenty carbon esters.

Urea

Esters

Chemistry

Physical Sciences and Mathematics

Enhanced Chemical Cleaning of Reverse Osmosis Membranes to Mitigate Biofouling

Sanawar, Huma

10 1900

The effectiveness of reverse osmosis (RO) membrane systems may be compromised due to fouling, of which biofouling (excessive growth of biomass) is the most troublesome. Effective control of biofouling is essential to improve membrane performance and reduce operating costs. The periodic application of chemical cleaning agents is possibly the most widely practiced method of biofouling control in RO membranes. This research investigated advanced chemical cleaning strategies for biofouling control. The first part of this study concluded that short-term accelerated biofouling studies using lab-scale membrane fouling simulators (MFSs) are a representative and suitable approach for the prediction of long-term biofouling development in membrane systems. Thereon, the superior efficiency of urea as an alternative to conventional chemical cleaning agents was demonstrated (i) at lab-scale using MFSs, (ii) for full-scale industrial spiral-wound membranes and (iii) for multiple cleaning cycles during long-term operation. Periodic chemical cleaning with urea resulted in better restoration of membrane performance, higher biomass inactivation, enhanced biofilm solubilization and removal, disintegration of extracellular polymeric substances (EPS) particularly proteins, and a considerable reduction of key biofilm-forming bacteria. This research presented enhanced chemical cleaning strategies aiming to increase the removal of biofilms, reduce biomass accumulation and its impact on membrane performance, and delay fresh biofilm formation.

Biofouling

Chemical Cleaning

Reverse Osmosis

Urea

The preparation and spectroscopic studies of some cyclic urea adducts of triphenyl -tin and -lead halides /

Aitken, Clare T. (Clare Theresa)

January 1983

No description available.

Metal halides.

Urea.

Lead compounds.

Tin compounds.

Effects of urea-limestone treatment on metabolism of corn silage in sheep, lactic acid metabolism by rumen microorganisms, and nitrogen distribution in the silage /

Schaadt, Herbert

January 1967

No description available.

Agriculture

Sheep

Urea as feed

Metabolism

The Role of Corticosteroids in Nitrogen Excretion of the Gulf Toadfish (Opsanus beta)

Rodela, Tamara

03 May 2011

In contrast to most teleost fish that are ammoniotelic, the gulf toadfish (Opsanus beta) is both facultatively ureogenic and ureotelic. In vivo pharmacological manipulations were used to show that lowering circulating cortisol levels or blocking glucocorticoid receptors (GR) enhanced both urea excretion and urea pulse size. These findings demonstrated that changes in pulsatile urea excretion in the toadfish are mediated by the permissive action of cortisol through GRs. Measurement of urea transport across isolated basolateral gill membranes revealed a cortisol-sensitive carrier mechanism. Cortisol infusion in vivo significantly reduced urea transport capacity, suggesting that cortisol inhibits the recruitment of urea transport proteins (UT) to the basolateral membrane to ultimately decrease the size of the urea pulse in toadfish. A 1.2 kb fragment of the upstream transcription start site for the toadfish urea transporter (tUT) gene was isolated and in silico analysis revealed the presence of several putative glucocorticoid response element (GRE) half sites. Toadfish provided with this regulatory sequence in a reporter gene construct showed increased reporter gene transcription driven by cortisol. The data indicated that cortisol-mediated upregulation of tUT mRNA by GREs may be necessary to maintain tUT activity. Four Rhesus (Rh) glycoproteins (Rhag, Rhbg, Rhcg1, Rhcg2) were isolated from toadfish; these sequences grouped with those of other vertebrates coding for membrane channels that transport ammonia. In vivo increases in circulating cortisol reduced branchial Rh glycoprotein expression and decreased ammonia excretion. These changes were accompanied by cortisol-induced increases in glutamine synthetase activity, an enzyme that captures ammonia for urea synthesis. Taken together, the data indicated that cortisol reduces the loss by branchial excretion of ammonia, instead favouring biochemical pathways that convert ammonia to urea. This thesis confirms that nitrogen excretion in toadfish is controlled and regulated in fashions unlike those in other teleosts. The results demonstrate the importance of the GR signaling pathway in mediating changes in both urea and ammonia transport through molecular mechanisms. As a whole, the data provide a new understanding of branchial nitrogen excretion in the gulf toadfish and enhance our evolutionary perspective of the integrated biological systems involved in nitrogen excretion in fish.

Nitrogen excretion

Urea

Ammonia

Cortisol

Glucocorticoid receptor

Teloest

Opsanus beta

Rhesus glycoprotein

Urea transport

The Role of Corticosteroids in Nitrogen Excretion of the Gulf Toadfish (Opsanus beta)

Rodela, Tamara

03 May 2011

In contrast to most teleost fish that are ammoniotelic, the gulf toadfish (Opsanus beta) is both facultatively ureogenic and ureotelic. In vivo pharmacological manipulations were used to show that lowering circulating cortisol levels or blocking glucocorticoid receptors (GR) enhanced both urea excretion and urea pulse size. These findings demonstrated that changes in pulsatile urea excretion in the toadfish are mediated by the permissive action of cortisol through GRs. Measurement of urea transport across isolated basolateral gill membranes revealed a cortisol-sensitive carrier mechanism. Cortisol infusion in vivo significantly reduced urea transport capacity, suggesting that cortisol inhibits the recruitment of urea transport proteins (UT) to the basolateral membrane to ultimately decrease the size of the urea pulse in toadfish. A 1.2 kb fragment of the upstream transcription start site for the toadfish urea transporter (tUT) gene was isolated and in silico analysis revealed the presence of several putative glucocorticoid response element (GRE) half sites. Toadfish provided with this regulatory sequence in a reporter gene construct showed increased reporter gene transcription driven by cortisol. The data indicated that cortisol-mediated upregulation of tUT mRNA by GREs may be necessary to maintain tUT activity. Four Rhesus (Rh) glycoproteins (Rhag, Rhbg, Rhcg1, Rhcg2) were isolated from toadfish; these sequences grouped with those of other vertebrates coding for membrane channels that transport ammonia. In vivo increases in circulating cortisol reduced branchial Rh glycoprotein expression and decreased ammonia excretion. These changes were accompanied by cortisol-induced increases in glutamine synthetase activity, an enzyme that captures ammonia for urea synthesis. Taken together, the data indicated that cortisol reduces the loss by branchial excretion of ammonia, instead favouring biochemical pathways that convert ammonia to urea. This thesis confirms that nitrogen excretion in toadfish is controlled and regulated in fashions unlike those in other teleosts. The results demonstrate the importance of the GR signaling pathway in mediating changes in both urea and ammonia transport through molecular mechanisms. As a whole, the data provide a new understanding of branchial nitrogen excretion in the gulf toadfish and enhance our evolutionary perspective of the integrated biological systems involved in nitrogen excretion in fish.

Nitrogen excretion

Urea

Ammonia

Cortisol

Glucocorticoid receptor

Teloest

Opsanus beta

Rhesus glycoprotein

Urea transport

The Role of Corticosteroids in Nitrogen Excretion of the Gulf Toadfish (Opsanus beta)

Rodela, Tamara

03 May 2011

In contrast to most teleost fish that are ammoniotelic, the gulf toadfish (Opsanus beta) is both facultatively ureogenic and ureotelic. In vivo pharmacological manipulations were used to show that lowering circulating cortisol levels or blocking glucocorticoid receptors (GR) enhanced both urea excretion and urea pulse size. These findings demonstrated that changes in pulsatile urea excretion in the toadfish are mediated by the permissive action of cortisol through GRs. Measurement of urea transport across isolated basolateral gill membranes revealed a cortisol-sensitive carrier mechanism. Cortisol infusion in vivo significantly reduced urea transport capacity, suggesting that cortisol inhibits the recruitment of urea transport proteins (UT) to the basolateral membrane to ultimately decrease the size of the urea pulse in toadfish. A 1.2 kb fragment of the upstream transcription start site for the toadfish urea transporter (tUT) gene was isolated and in silico analysis revealed the presence of several putative glucocorticoid response element (GRE) half sites. Toadfish provided with this regulatory sequence in a reporter gene construct showed increased reporter gene transcription driven by cortisol. The data indicated that cortisol-mediated upregulation of tUT mRNA by GREs may be necessary to maintain tUT activity. Four Rhesus (Rh) glycoproteins (Rhag, Rhbg, Rhcg1, Rhcg2) were isolated from toadfish; these sequences grouped with those of other vertebrates coding for membrane channels that transport ammonia. In vivo increases in circulating cortisol reduced branchial Rh glycoprotein expression and decreased ammonia excretion. These changes were accompanied by cortisol-induced increases in glutamine synthetase activity, an enzyme that captures ammonia for urea synthesis. Taken together, the data indicated that cortisol reduces the loss by branchial excretion of ammonia, instead favouring biochemical pathways that convert ammonia to urea. This thesis confirms that nitrogen excretion in toadfish is controlled and regulated in fashions unlike those in other teleosts. The results demonstrate the importance of the GR signaling pathway in mediating changes in both urea and ammonia transport through molecular mechanisms. As a whole, the data provide a new understanding of branchial nitrogen excretion in the gulf toadfish and enhance our evolutionary perspective of the integrated biological systems involved in nitrogen excretion in fish.

Nitrogen excretion

Urea

Ammonia

Cortisol

Glucocorticoid receptor

Teloest

Opsanus beta

Rhesus glycoprotein

Urea transport