Comportamento de frangos de corte em diferentes condições térmicas / Broiler behavior in different thermal conditions

Klein, Daniela Regina

25 February 2016

Fundação de Amparo a Pesquisa no Estado do Rio Grande do Sul / The climate changes are a challenge to maintain the production of broiler, and find a balance between the costs of maintaining the proper temperature and optimize production. The aim of this study was to evaluate broiler behavior in three different thermal conditions: comfort, cold and heat, analyzing the behavior and production performance. The experiment was conducted in three climatic chambers, and monitored by video cameras. Each week were used 27 birds, divided between the chambers and individually identified. The experiment period was: 3rd, 4th, 5th and 6th week of age from broilers. The birds remained housed in the chamber for five days, 48 hours of adaptation and 72 hours to collect data. Each compartment of the chamber provides a different temperature: comfort (recommendation strain), low (8 °C below the comfort) and high (8 °C above the comfort) simulating conventional housing conditions. To evaluate the broiler behavior were analyzed 15 minutes of video every 3 hours, and the performance data. The experimental design was completely randomized with variance analysis and Tukey test at 5%. The behaviors were evaluated too with data mining, using thermal conditions class, applying J48 algorithm. The broiler behaviors were efficient to maintain productivity in short-term stress conditions. With data mining was possible to establish behavior standards applicable to thermal condition indicators of broilers. These are important knowledge for the sustainability of broilers production, helping in decision making for mitigation measures. / As mudanças e variações climáticas representam um desafio em manter a produção de frangos de corte, e encontrar um equilíbrio entre os custos de manter a temperatura ambiente adequada e otimizar a produção. O objetivo deste estudo foi avaliar o comportamento de frangos de corte em três condições térmicas distintas: frio, conforto e calor, analisando o comportamento, o desempenho produtivo e descrevendo padrões de comportamento. O experimento foi realizado em três câmaras climáticas monitoradas por câmeras de vídeo. Em cada semana foram utilizadas 27 aves, com identificação individual. O período experimental foi de quatro semanas, 3ª, 4ª, 5ª e 6ª semana de idade. As aves permaneciam alojadas nas câmaras durante cinco dias, 48 horas de adaptação e 72 horas de coleta de dados. Cada câmara proporcionava uma temperatura distinta: conforto (recomendação da linhagem), baixa (8°C abaixo do conforto) e alta (8°C acima do conforto) simulando condições convencionais em granjas. Para a avaliação do comportamento dos frangos de corte foram analisados 15 minutos de vídeos a cada 3 horas, e os dados de desempenho mensurados a cada 24 horas. O delineamento utilizado foi o inteiramente casualizado, com análise de variância e teste de médias de Tukey a 5%. Os comportamentos também foram avaliados por mineração de dados utilizando como classe as condições térmicas, aplicando o algoritmo J48. O comportamento de frangos de corte foi eficiente para manter a produtividade em condições de estresse em curto prazo. A mineração de dados possibilitou estabelecer padrões de comportamento aplicáveis como indicadores de condição térmica das aves. Estes são conhecimentos importantes para a sustentabilidade da produção de frangos de corte, pois auxiliam na tomada de decisão em medidas de mitigação.

Análise comportamental

Estresse térmico

Mineração de dados

Behavior analysis

Heat stress

Cold stress

Data mining

CNPQ::CIENCIAS AGRARIAS::ZOOTECNIA

Análise transcricional dos genes do sistema ISC em EUCALYPTUS GRANDIS e AZOBACTER VINELAND

Oliveira, Luisa Abruzzi de

January 2012

Os cofatores de ferro-enxofre [Fe-S] estão entre os mais versáteis e antigos cofatores enzimáticos encontrados na natureza. As células têm explorado as propriedades eletrônicas e estruturais destes cofatores inorgânicos para uma ampla variedade de atividades incluindo a transferência de elétrons, a catálise e a ativação de substratos. Um grande número de proteínas está envolvido na biogênese dos cofatores [Fe-S], e este processo pode ser dividido em três etapas principais: (i) formação do enxofre elementar, (ii) montagem do cofator [Fe-S], e (iii) inserção do cofator em apoproteínas. As plantas realizam fotossíntese e respiração, dois processos que requerem proteínas Fe-S, sendo os únicos organismos em que a biossíntese destas proteínas é compartimentalizada. Diversos fatores afetam o desenvolvimento das plantas, entre eles, a temperatura baixa, fator limitante à produtividade e à distribuição geográfica das plantas, incluindo Eucalyptus grandis, uma espécie com grande importância econômica. Devido a esse fato, foi realizada uma análise transcricional dos genes codificados pelo sistema ISC de biossíntese de cofatores [Fe-S] NFS1, ISA1 e ISU1 de E. grandis por meio de PCR quantitativa (RT-qPCR), após plântulas desta espécie serem submetidas ao tratamento de frio. O gene NFS1 teve sua expressão reprimida nas primeiras 48 horas de tratamento, porém, após esse período observa-se um aumento da expressão gênica em relação à condição controle. O genes ISU1 e ISA1 apresentaram maior expressão gênica nas primeiras duas horas de tratamento, diminuindo drasticamente logo após este período. Foi verificado um aumento na quantidade relativa de Fe e S nos nas plântulas submetidas ao tratamento de frio, indicando um possível aumento na quantidade de cofatores [Fe-S] requeridos para o reestabelecimento da homeostase celular. As bactérias, por sua vez, desenvolveram pelo menos três sistemas de biossíntese, altamente conservados, que estão envolvidos na formação dos cofatores [Fe-S], sendo estes NIF, ISC e SUF. Em muitas proteobactérias, a regulação da produção de cofatores [Fe-S] pelos sistemas ISC e SUF é controlada por uma única proteína, IscR, pertencente à família de reguladores Rrf2. A proteína IscR possui um domínio de ligação ao DNA na região N-terminal e um segundo domínio de ligação de cofatores com três resíduos de cisteínas (Cys) altamente conservados. A ligação de um cofator do tipo [2Fe-2S] reprime a transcrição do seu próprio promotor in vitro. O genoma de Azotobacter vinelandii não inclui um sistema SUF completo e, portanto, permite o estudo dos efeitos da regulação de IscR não relacionada a SUF. No presente trabalho, objetivamos analisar a expressão do operon isc em linhagens selvagens e mutantes para IscR de A. vinelandii por meio das técnicas de sequenciamento do transcritoma e RT-qPCR. As substituições das Cys92, Cys104, His107 e a deleção de 120 pb da região codificadora do segundo domínio de IscR levaram à indução de um aumento da expressão de todo o operon isc. Notou-se também uma diferença fenotípica clara no tamanho das colônias portadoras das substituições de Cys e His, sendo estas menores em relação à linhagem selvagem. As substituições das Cys98 e Cys111, ou ainda a dupla substituição Cys98/111 não levaram a alteração da expressão do operon. A ligação ou não do cofator [Fe-S] é, portanto, responsável pela regulação do operon isc em A. vinelandii, bem como, de outros operons codificadores de proteínas envolvidas em cadeias tranportadoras de elétrons. / The iron-sulfur clusters [Fe-S] are among the oldest and most versatile enzyme cofactors found in nature. The cells have explored the structural and electronic properties of these inorganic clusters for a wide variety of activities including electron transfer, catalysis and activation of substrates. A large number of proteins is involved in the biogenesis of the [Fe-S] clusters, and this process can be divided into three main steps: (i) formation of elemental sulfur, (ii) assembly of the [Fe-S] cluster and (iii) insertion into apoproteins. Plants perform photosynthesis and respiration, two processes that require Fe-S protein, and in these organisms the synthesis of these proteins is compartmentalized. Several factors affect the development of plants, among them, the low temperature is a limiting factor to productivity and geographical distribution of plants, including Eucalyptus grandis, a specie with great economic importance. Due to this fact, we performed a transcriptional analysis by quantitative PCR (RT-qPCR) of the genes encoded by the E. grandis [Fe-S] cluster ISC system NFS1, ISA1 and ISU1 after seedlings were submitted to the chilling treatment. The NFS1 gene expression is repressed in the first 48 hours of treatment, but after this period there was an increase in gene expression relating to the control condition. The genes ISU1 and ISA1 showed higher gene expression in the first two hours of treatment, followed by a sharp decrease. There was an increase in the relative amount of Fe and S in the seedlings subjected to cold treatment, indicating a possible increase in the amount of [Fe-S] clusters, required for the reestablishment of cellular homeostasis. Bacteria have developed at least three synthesis systems, highly conserved, which are involved in the formation of Fe-S proteins, NIF, ISC and SUF. In many proteobacteria, the regulation of clusters production by ISC and SUF is controlled by a single protein, IscR, belonging to the Rrf2 regulators family. The protein IscR has a DNA binding site at the N-terminal domain and second cofactors binding domain with three cysteine residues (Cys) highly conserved. The binding of a [2Fe-2S] cluster represses the transcription of its own promoter in vitro. The genome of Azotobacter vinelandii does not include a full SUF system and thus permits the study of the effects of IscR regulation unrelated to SUF. In this study, the aim was to analyze the expression of isc operon in wild type and mutant strains of A. vinelandii IscR by the techniques of the transcriptome sequencing and qRT-PCR. The replacement of Cys92, Cys104, His107 and a deletion of 120 bp region encoding the second IscR domain led to an increased expression of the whole isc operon. It also showed a clear phenotypic difference in colonies size in the strains carrying the substitutions of His and Cys, it was smaller compared to the wild type strain. The replacement of Cys98 and Cys111, or the double substitution Cys98/111 not led to an altered operon expression. The [Fe-S] cluster binding or not, is therefore responsible for the regulation of the isc operon in A. vinelandii as well as of other operons encoding proteins involved in electron tranport chains.

Eucalyptus grandis

Azotobacter vinelandii

Genes

Genética vegetal

Eucalyptus grandis

Azotobacter vinelandii

[Fe-S] cluster

RT-qPCR

Cold stress

IscR

Análise transcricional dos genes do sistema ISC em EUCALYPTUS GRANDIS e AZOBACTER VINELAND

Oliveira, Luisa Abruzzi de

January 2012

Os cofatores de ferro-enxofre [Fe-S] estão entre os mais versáteis e antigos cofatores enzimáticos encontrados na natureza. As células têm explorado as propriedades eletrônicas e estruturais destes cofatores inorgânicos para uma ampla variedade de atividades incluindo a transferência de elétrons, a catálise e a ativação de substratos. Um grande número de proteínas está envolvido na biogênese dos cofatores [Fe-S], e este processo pode ser dividido em três etapas principais: (i) formação do enxofre elementar, (ii) montagem do cofator [Fe-S], e (iii) inserção do cofator em apoproteínas. As plantas realizam fotossíntese e respiração, dois processos que requerem proteínas Fe-S, sendo os únicos organismos em que a biossíntese destas proteínas é compartimentalizada. Diversos fatores afetam o desenvolvimento das plantas, entre eles, a temperatura baixa, fator limitante à produtividade e à distribuição geográfica das plantas, incluindo Eucalyptus grandis, uma espécie com grande importância econômica. Devido a esse fato, foi realizada uma análise transcricional dos genes codificados pelo sistema ISC de biossíntese de cofatores [Fe-S] NFS1, ISA1 e ISU1 de E. grandis por meio de PCR quantitativa (RT-qPCR), após plântulas desta espécie serem submetidas ao tratamento de frio. O gene NFS1 teve sua expressão reprimida nas primeiras 48 horas de tratamento, porém, após esse período observa-se um aumento da expressão gênica em relação à condição controle. O genes ISU1 e ISA1 apresentaram maior expressão gênica nas primeiras duas horas de tratamento, diminuindo drasticamente logo após este período. Foi verificado um aumento na quantidade relativa de Fe e S nos nas plântulas submetidas ao tratamento de frio, indicando um possível aumento na quantidade de cofatores [Fe-S] requeridos para o reestabelecimento da homeostase celular. As bactérias, por sua vez, desenvolveram pelo menos três sistemas de biossíntese, altamente conservados, que estão envolvidos na formação dos cofatores [Fe-S], sendo estes NIF, ISC e SUF. Em muitas proteobactérias, a regulação da produção de cofatores [Fe-S] pelos sistemas ISC e SUF é controlada por uma única proteína, IscR, pertencente à família de reguladores Rrf2. A proteína IscR possui um domínio de ligação ao DNA na região N-terminal e um segundo domínio de ligação de cofatores com três resíduos de cisteínas (Cys) altamente conservados. A ligação de um cofator do tipo [2Fe-2S] reprime a transcrição do seu próprio promotor in vitro. O genoma de Azotobacter vinelandii não inclui um sistema SUF completo e, portanto, permite o estudo dos efeitos da regulação de IscR não relacionada a SUF. No presente trabalho, objetivamos analisar a expressão do operon isc em linhagens selvagens e mutantes para IscR de A. vinelandii por meio das técnicas de sequenciamento do transcritoma e RT-qPCR. As substituições das Cys92, Cys104, His107 e a deleção de 120 pb da região codificadora do segundo domínio de IscR levaram à indução de um aumento da expressão de todo o operon isc. Notou-se também uma diferença fenotípica clara no tamanho das colônias portadoras das substituições de Cys e His, sendo estas menores em relação à linhagem selvagem. As substituições das Cys98 e Cys111, ou ainda a dupla substituição Cys98/111 não levaram a alteração da expressão do operon. A ligação ou não do cofator [Fe-S] é, portanto, responsável pela regulação do operon isc em A. vinelandii, bem como, de outros operons codificadores de proteínas envolvidas em cadeias tranportadoras de elétrons. / The iron-sulfur clusters [Fe-S] are among the oldest and most versatile enzyme cofactors found in nature. The cells have explored the structural and electronic properties of these inorganic clusters for a wide variety of activities including electron transfer, catalysis and activation of substrates. A large number of proteins is involved in the biogenesis of the [Fe-S] clusters, and this process can be divided into three main steps: (i) formation of elemental sulfur, (ii) assembly of the [Fe-S] cluster and (iii) insertion into apoproteins. Plants perform photosynthesis and respiration, two processes that require Fe-S protein, and in these organisms the synthesis of these proteins is compartmentalized. Several factors affect the development of plants, among them, the low temperature is a limiting factor to productivity and geographical distribution of plants, including Eucalyptus grandis, a specie with great economic importance. Due to this fact, we performed a transcriptional analysis by quantitative PCR (RT-qPCR) of the genes encoded by the E. grandis [Fe-S] cluster ISC system NFS1, ISA1 and ISU1 after seedlings were submitted to the chilling treatment. The NFS1 gene expression is repressed in the first 48 hours of treatment, but after this period there was an increase in gene expression relating to the control condition. The genes ISU1 and ISA1 showed higher gene expression in the first two hours of treatment, followed by a sharp decrease. There was an increase in the relative amount of Fe and S in the seedlings subjected to cold treatment, indicating a possible increase in the amount of [Fe-S] clusters, required for the reestablishment of cellular homeostasis. Bacteria have developed at least three synthesis systems, highly conserved, which are involved in the formation of Fe-S proteins, NIF, ISC and SUF. In many proteobacteria, the regulation of clusters production by ISC and SUF is controlled by a single protein, IscR, belonging to the Rrf2 regulators family. The protein IscR has a DNA binding site at the N-terminal domain and second cofactors binding domain with three cysteine residues (Cys) highly conserved. The binding of a [2Fe-2S] cluster represses the transcription of its own promoter in vitro. The genome of Azotobacter vinelandii does not include a full SUF system and thus permits the study of the effects of IscR regulation unrelated to SUF. In this study, the aim was to analyze the expression of isc operon in wild type and mutant strains of A. vinelandii IscR by the techniques of the transcriptome sequencing and qRT-PCR. The replacement of Cys92, Cys104, His107 and a deletion of 120 bp region encoding the second IscR domain led to an increased expression of the whole isc operon. It also showed a clear phenotypic difference in colonies size in the strains carrying the substitutions of His and Cys, it was smaller compared to the wild type strain. The replacement of Cys98 and Cys111, or the double substitution Cys98/111 not led to an altered operon expression. The [Fe-S] cluster binding or not, is therefore responsible for the regulation of the isc operon in A. vinelandii as well as of other operons encoding proteins involved in electron tranport chains.

Eucalyptus grandis

Azotobacter vinelandii

Genes

Genética vegetal

Eucalyptus grandis

Azotobacter vinelandii

[Fe-S] cluster

RT-qPCR

Cold stress

IscR

Prostorové vzory vazeb mezi teplotními extrémy a úmrtností na kardiovaskulární nemoci v ČR / Spatial patterns of links between temperature extremes and cardiovascular mortality in the Czech Republic

Urban, Aleš

January 2016

Name of the thesis: Spatial patterns of links between temperature extremes and cardiovascular mortality in the Czech Republic Author: Mgr. Aleš Urban Previous studies have examined relationships of high and low air temperatures to mortality due to cardiovascular diseases (CVDs) in the Czech Republic as a whole. Much less has been understood about possible regional differences in the heat and cold effects on mortality. Within four papers published in international peer-reviewed journals, the author of this thesis investigated links between extreme temperatures and CVD mortality in the Czech Republic while considering in particular differences between (i) urban and rural areas, (ii) regions with different socioeconomic status, and (iii) regions with different physical-environmental conditions. Various biometeorological approaches were compared in order to identify meteorological characteristics affecting heat- and cold-related mortality. Excess mortality was determined as differences between observed and expected daily values, the latter being adjusted for long-term changes, annual and weekly cycles, and epidemics of influenza/acute respiratory infections. Air temperature, biometeorological indices (including the Universal Thermal Climate Index, Apparent Temperature, and Physiologically Equivalent...

The Effects of Temperatures on System Performance and Bacterial Community Structure in a Biological Phosphorus Removal System

Erdal, Ufuk Goksin

21 March 2002

It is generally accepted that a decrease in temperature causes the rates of chemical and biochemical reactions to slow down, usually resulting in poorer performance of biological wastewater treatment systems. Despite this, early researchers repeatedly showed that excess biological phosphorus removal (EBPR) was more efficient at colder temperatures. Recent studies, however, have demonstrated that the reaction rates of EBPR processes decrease with temperature in accordance with Arrhenius' Law, resulting in an apparent contradiction in the literature. The objective of this study was to investigate the EBPR temperature controversy. The experimental systems used were two, lab-scale UCT configuration plants fed with acetate as the sole volatile fatty acid (VFA) source. The results showed that EBPR systems do perform more efficiently at colder temperatures, i.e., at 5°C compared to 20°C. The reason for better system performance was determined to be related to reduced competition for substrate in the non-oxic zones that results in an increased population of phosphate accumulating organisms (PAOs) relative to non-PAOs and, therefore, greater EBPR efficiency even though the reaction rates are slower. The proliferation of PAOs relative to non-PAOs at cold temperature indicates that some of the PAOs are psychrophilic, i.e., they have alternate biochemical pathways that give them a competitive advantage over bacteria dependent upon glycogen metabolism. The activated sludge acclimated to 20°C had relatively high polyhydroxyvalerate (PHV) and glycogen contents relative to sludge acclimated to 5°C. It was initially hypothized that there is a significant competition between PAO and glycogen accumulating organisms (GAOs) at 20°C and cold temperature (5°C) nearly eliminates this competition in favor of the PAOs. A series of batch test experiments revealed that despite similar acetate utilization by the sludges grown at the two temperatures nearly 30% less PHA was produced by the sludge taken from the 20°C reactor, indicating that GAOs were a small fraction of the population at 20°C. Transmission electron microscopy pictures showed that the biomass acclimated to 20°C had a much more diverse bacterial population than the biomass acclimated to 5°C. However, no GAO population was detected in electron microscopy samples under any temperature conditions. The decreased P removal efficiency at 20°C was then attributed to the presence of fermentative or other non poly-P bacteria that are capable of utilizing substrate under anaerobic conditions. PHA production greatly increased at 5°C, whereas glycogen metabolism substantially reduced. Even though glycogen is an essential requirement for EBPR mechanism, the EBPR microorganisms have the ability to adapt their metabolic pathways to environmental conditions and greatly reduce their need for glycogen. It is apperant that cold temperature inhibits some of the key enzymes in glycogen metabolism resulting in lower glycogen accumulation that in turn increases the EBPR performance. Therefore temperature not only exerts selective pressure on the dominant population but also alters the metabolic pathways of the EBPR process. Increased glycogen accumulation, as observed in this study at 20°C, may not be related to GAO proliferation as suggested by Filipe et al. (2001) instead it may be related to EBPR bacteria to efficiently use glycogen metabolism. Current models (Brdjanovic et al. 1997; Filipe et al. 2002) consider that GAO metabolism is an integral part of EBPR metabolism and the performance of EBPR processes depends on PAO/GAO fraction in the EBPR system. No GAO proliferation was observed even the A/O process was operated without P addition for more than 3 weeks at 10°C. Therefore such important concept should be further investigated before it is included in EBPR models. EBPR stoichiometry was presumed to be insensitive to temperatures (Brdjanovic et al. 1997). However, observed stoichiometric values of PHA storage per unit glycogen utilization and PHA utilization per unit glycogen rephlenishment were quite different at different temperatures. Temperature, therefore, not only affects the kinetics of EBPR systems but also affects the EBPR stoichiometry. Most prokaryotic cells have the ability to alter their cellular membrane fatty acid composition as temperature decreases to counteract the adverse effects of temperature on membrane fluidity (Becker et al., 1996). This unique ability is known as "homeoviscous adaptation". In this study, homeoviscous adaptation by EBPR activated sludge was investigated for a series of temperatures ranging from 20°C to 5°C using one of the lab scale EBPR systems. The fatty acid analysis results showed that the unsaturated to saturated fatty acid ratio increased from 1.40 to 3.61 as temperature dropped from 20 to 5°C. The increased cis-9-hexadecanoic acid (C16:1) at 5°C strongly indicated the presence of homeoviscous adaptation in the EBPR bacterial community. Thus the cell membranes of the EBPR community were still in a fluid state, and solute transport and proton motive force mechanisms were operable even at 5°C. It was concluded that loss of EBPR performance at low temperatures, as reported by McClintock et al. (1992) was not related to the physical state of the cellular membranes, but was probably caused by unsuitable operational conditions. Even though the transport of volatile fatty acids (e.g. acetate) is an integral part of EBPR biochemistry and stoichiometry, this important concept has been ignored. Fleet (1997) concluded that acetate entry into bacterial cells in EBPR sludge was simple passive diffusion based upon the results of a single study (Baronofsky et al. 1984). However, this study showed that neither acetate nor propionate can cross the cell membrane via simple passive diffusion. The existence of apparent saturation curves when the substrate uptake rates (acetate and propionate) were plotted against the substrate concentrations suggested that transport of volatile fatty acids obey facilitated or active transport. Following from the above results, an investigation of the impacts of operational conditions such as low solids retention time (SRT), presence of electron acceptors in the non-oxic zones, low anaerobic detention time, and lack of acclimation was performed. The results showed that the "critical, i.e., wash-out" SRT increased as temperature decreased, but if the biomass was permitted to acclimate to the lower temperature, a major population shift would occur which would increase the capacity of the system for phosphorus (P) removal. When the 5 °C sludge was allowed to acclimate at a relatively high SRT (18 d), the system's P-removal capacity greatly surpassed that of the 20 °C system. The decrease in EBPR performance because of the presence of nitrates in the non-oxic zones was determined to be greater than what would be predicted based on accepted stoichiometry. / Ph. D.

homeoviscous adaptation

competition

activated sludge

biological phosphorus removal

energy metabolism

aerobic recycle

PAOs

cold stress

polyhydroxyalkanoates

GAOs

Temperature

glycogen

Diurnal Movements and Site Fidelity of the Florida Manatee, Trichechus manatus latirostris, in Fort Lauderdale, FL.

Walsh, Kym

11 January 2010

The diurnal movements of Florida manatees (Trichechus manatus latirostris) in warmwater refugia are poorly understood and these may prove critical in accurately estimating populations of these animals. Previous studies indicate that manatee populations in such refuges in Tampa Bay, FL, peak mid-day and decline towards evening when the animals leave to forage. This trend suggests that variation in the timing of aerial manatee population surveys may hamper accurate estimation of the true population size. Aerial survey counts are known to underestimate population size, yet the extent of the underestimation may be greater than expected. In this study data were collected over three seasons from land-based surveys monitoring the presence of manatees in the effluent canal from the Florida Power and Light electricity generating facility in Port Everglades, FL between 15 November and 31 March. My findings indicated there was no significant difference in the number of manatees observed during the seasons studied despite a significant difference in ambient water temperatures. There was a significant correlation in the number of manatees an observer can expect to see based on time of day with the trend indicating there are higher numbers of observable manatees in the morning compared to later in the day. This suggests that early morning aerial counts will more accurately reflect true manatee presence in the Port Everglades power plant. Photographs of individual manatees yielded a total of 58 animals with unique scaring patterns.

manatee

cold stress

warm water refugia

population

Port Everglades

photo-identification

diurnal cycles

Marine Biology

Vliv teplotních extrémů na hospitalizace s onemocněním oběhové soustavy / Effects of temperature extremes on hospital admissions for cardiovascular diseases

Urban, Aleš

January 2012

Faculty of Sicence, Charles University Aleš Urban, Praha 2012 Effects of temperature extremes on hospital admissions for cardiovascular diseases The thesis compares differences in the impacts of warm and cold days on both excess mortality and hospitalizations for individual cardiovascular diseases (CVDs) in Prague and a selected rural region (southern Bohemia - JČ) consisting of the Jihočeský kraj and Vysočina districts in the period 1994- 2009. Population size and age structure are similar in the two regions. The differences are compared between selected population groups (men and women; < 65 and 65+ years). Value of the 90% (10%) percentile of daily mean air temperature in summer (winter) during the period were used for the definition of warm (cold) days for each region separately. The excess mortality and hospitalizations were determined as the difference from standardized daily counts of death and hospital admissions, adjusted for epidemics of influenza/acute respiratory infections, long-term changes, and for annual and weekly cycles of mortality and hospitalizations. Generally higher relative excess CVD mortality on warm days was identified in Prague, while for cold days we found higher excess mortality in south Bohemia. In contrast to mortality, weak excess CVD hospitalizations were observed for both...

RNA-Bindestudien und funktionelle Analysen der chloroplastidären RNA-Bindeproteine CP29A und CP31A in Arabidopsis thaliana

Kupsch, Christiane

09 January 2014

cpRNPs (chloroplastidäre Ribonukleoproteine) sind kernkodierte RNA-Bindeproteine, die jeweils zwei RRM (RNA recognition motif)-Domänen besitzen und in die Chloroplasten höherer Landpflanzen importiert werden. Die Mitwirkung dieser Proteine an der Reifung plastidärer mRNAs in vitro, ihre bemerkenswert hohe Abundanz sowie die Beeinflussung ihrer Funktion durch lichtabhängige posttranslationale Modifikationen weisen auf eine bedeutende Rolle der cpRNPs in der Regulierung der plastidären Genexpression hin. In dieser Arbeit erfolgte erstmals eine Analyse der in vivo bestehenden Interaktionen zwischen cpRNPs und RNA im Stroma von Chloroplasten mittels RIP-Chip-Analysen. Es konnte gezeigt werden, dass ein Großteil der plastidären mRNA-Spezies mit CP31A und CP29A kopräzipitiert. Neben der mehrheitlichen Überlappung der RNA-Interaktionen konnten spezifische Präferenzen von CP29A und CP31A für bestimmte Transkripte identifiziert werden. Um Einblicke in die molekularen Funktionen der cpRNPs zu erhalten, wurden cp29a- und cp31a- Einzel- und Doppelmutanten hinsichtlich der Akkumulation, sowie des Spleiß- und Edierungsstatus plastidärer mRNAs untersucht. Da unter Standard-Wachstumsbedingungen lediglich wenige milde Defekte innerhalb der mRNA-Reifung in den Mutanten detektiert wurden, erfolgten weitere Analysen unter Kältestress-Bedingungen, die zu einer Induktion der CP29A-Expression und zu dem Ausbleichen junger Blattgewebe in cp29a- und cp31a-Mutanten führten. In diesen chlorotischen Geweben wurden reduzierte Akkumulationen plastidärer Proteine sowie PEP-abhängig transkribierter mRNAs detektiert. Darüber hinaus Prozessierungsdefekte für einige Transkripte beobachtet: Die Reifung der 23S-rRNA findet in cp29a- und cp31a-Mutanten nur eingeschränkt statt. In cp31a-Mutanten sind zudem die Prozessierung der ycf3-RNA sowie die Spaltung eines polycistronischen rpl33-Vorläufers gestört. In cp29a-Mutanten ist unter anderem die Prozessierung der rpoC1- und der ycf3-mRNA defizitär. / cpRNPs (chloroplast ribonucleoproteins) are nuclear encoded RNA-binding proteins, which contain two RRM (RNA recognition motif) domains and reside within the chloroplasts of higher land plant species. They are involved in plastid mRNA accumulation and processing in vitro. Their involvement in multiple steps of mRNA maturation and their remarkable abundance together with their regulation via posttranslational modifications identified the cpRNPs as potential central regulators of chloroplast gene expression. This work investigated the in vivo interactions of CP29A and CP31A from Arabidopsis with RNA in isolated chloroplasts via RIP-Chip. In this approach the association of both proteins with the majority of plastid mRNA species could be shown. While the interaction profiles of CP29A and CP31A were largely overlapping, also specific preferences for some transcripts were detected. To gain insights in the molecular functions of CP29A and CP31A, null mutants for one or both cpRNPs were analyzed for mRNA accumulation, splicing and editing. Since only few mild mRNA maturation defects were detected at standard growth conditions, analyses at cold stress were performed. Cold stress leads to an increase in CP29A expression and in both cp29a- and cp31a single- and double mutants a bleaching of young leaf tissue was observed. The chlorotic tissues showed a strong decrease in plastid protein accumulation accompanied by reduced levels of PEP-dependent transcripts. In addition some processing defects were observed: The maturation of the 23S-rRNA was reduced in cp29a- and cp31a mutants. In addition the processing of the ycf3-mRNA and a polycistronic rpl33 transcript were defective in cp31a mutants. In cp29a mutants processing defects within the rpoC1- and the ycf3-mRNA were detected.

Chloroplast

RNA-Bindeproteine

Kältestress

cpRNPs

chloroplast

RNA binding proteins

cold stress

cpRNPs

570 Biowissenschaften, Biologie

32 Biologie

WE 3250

ddc:570

Effect of Heat Exposure On Allogeneic Cytotoxic T Lymphocyte Responses in Mice

Sukumaran, M K

January 1996

No description available.

Mice - Lymphocytes

Mice - Heat Exposure

Mice - Immunobilization Stress

Mice - Cold Stress

Mice - Heat Stress

Allogenic Cytoxic T Lymphocyte (CTL)

Immunology

The Effects of an Extended Power Plant Shutdown on the Florida Manatee (Trichechus manatus latirostris) in Port Everglades, Florida

Grissett, Christopher

01 November 2014

Florida manatees (Trichechus manatus latirostris) seek out warmer waters during winter months when ambient water temperatures drop below 20 degrees Celsius. Over time, manatees have discovered artificial warm water sites from power plant discharges in addition to natural sites such as springs and passive thermal refugia (PTRs). The Florida Power and Light (FPL) Port Everglades power plant in Broward County is one such artificial warm water refuge used by manatees. This plant was shutdown on July 16, 2013, and is expected to remain off line for at least three years during demolition and construction of a new facility. The purpose of this study was to determine changes in habitat usage and other responses to the disruption of a warm water refugia (the closure of a power plant) on Florida manatees within the greater Port Everglades region. From November 15, 2013 to March 31, 2014, manatees were counted at the site via shore line and aerial surveys. Environmental data were collected to determine variables correlated to manatee presence and absense. Two manatees were radio-tagged using remote sensing devices in an effort to identify alternative warm water refugia and feeding areas. Data were collected from state and local organizations and photo-identified manatees were used to analyze for trends in cold stress syndrome (CSS) lesions and watercraft scarring. Results confirmed that manatee presence was positively correlated with heater outlet temperature. Differences did not exist between the results of survey methods between the FPL Port Everglades (PE) and Fort Lauderdale (FL) power plant sites, however, differrences in the aerial survey counts showed an increased presence at the FL site during the colder month of January 2014. Data from tagging identified one manatee that preferred the FL site while another preferred PE, presumably due to more convenient access to feeding grounds in Biscayne Bay. Data from mortality events indicated a low number of CSS and watercraft deaths in Broward County as compared to other parts of the state of Florida. Further monitoring of the study area for the remainder of the shutdown period is recommended, as are improvements in survey design, expansion to include additional environmental data from FL, continued mortality statistic analysis and locating possible PTRs.

Florida Manatee

Warm water refugia

Power plant

Cold stress syndrome

FPL

Port Everglades

Photo-identification

Shutdown

Mortality

Marine Biology