Avaliação da qualidade da carne-de-sol produzida e comercializada em municípios do Rio Grande do Norte / Quality evaluation of carne-de-sol produced and sold in the cities of Rio Grande do Norte

Gurgel, Teresa Emanuelle Pinheiro

22 December 2010

Made available in DSpace on 2016-08-15T20:31:14Z (GMT). No. of bitstreams: 1 TeresaEPG_DISSERT.pdf: 731676 bytes, checksum: f024d9272492149e6edd0a0a8f38a28f (MD5) Previous issue date: 2010-12-22 / It evaluated the quality of carne-de-sol in the period from June to September of 2010 sold in five cities of Rio Grande do Norte - Mossoró, Apodi, Areia Branca, Baraúna and Grossos. It was collect 80 samples of carne-de-sol, of which 44 were from small establishments and 36 purchased in supermarkets and stores. The samples were subjected to microbiological testing - Salmonella, determining the most probable number of fecal coliform, halophilic bacteria and Staphylococcus aureus, the samples were positive for this bacteria were analyzed for resistance to antibiotics, and physical-chemical properties (pH, water activity, minerals and humidity). There was an interaction between intrinsic pH value (&#956; = 5.702) and Aa (&#956; = 0.868), , indicating a favorable environment for their multiplication, resulting in values that stood out significantly in what is expected legislation counting S. aureus (&#956; = 4.81 log UFC at 78.75%), Salmonella (25%) and fecal coliform (&#956; = 2.36 LogNMP / g, 63.75%). A significant correlation (p <0.05) between the number of halophilic bacteria (&#956; = 4.87 log UFC) and S. aureus, such conditions may be used as an indicator of contamination in the sun-dried meat. To the antibiotics, 22.5% of strains were resistant to gentamicin, whereas for penicillin G, chloramphenicol, tetraciclina were 100%, 67.5% and 46.26% respectively. It was found that the meat produced and marketed in the sun studied region is improper (96.25%) for consumption in accordance with Brazilian law / Foram avaliadas a qualidade da carne-de-sol no período de junho a setembro de 2010 comercializada em cinco cidades do Rio Grande do Norte Mossoró, Apodi, Areia Branca, Baraúna e Grossos. Sendo coletadas 80 amostras de carne-de-sol, as quais 44 foram provenientes de estabelecimentos de pequeno porte e 36 adquiridas em supermercados e frigoríficos. As amostras foram submetidas à análises microbiológicas Salmonella, determinação do número mais provável de coliformes termotolerantes, bactérias halofílicas e Staphylococcus aureus, as amostras positivas para esta bactéria foram submetidas à análise de resistência à antibióticos; e físico-químicas (pH, atividade de água, cinzas e umidade). Verificou-se interação dos fatores intrínsecos, pH (µ=5,702) e Aa (µ=0,868), do produto com a contagem bacteriana, indicando ambiente favorável para a sua multiplicação, resultando assim em valores que sobressaíram de maneira significativa o que está previsto na legislação para contagem de S. aureus (µ=4,81LogUFC, em 78,75%), Salmonella (presença em 25%) e coliformes termotolerantes (µ=2,36LogNMP/g, em 63,75%). Houve correlação significativa (p<0,05) entre a contagem de bactérias halofílicas (µ=4,87LogUFC) e a de S. aureus, podendo aquelas serem utilizadas como indicador de contaminação na carne-de-sol. Quanto à sensibilidade das cepas S. aureus aos antibióticos, 22,5% das cepas apresentaram resistência à gentamicina, enquanto para penicilina G, tetraciclina e cloranfenicol foram 100%, 67,5% e 46,26% respectivamente. Ficou constatado que a carne de sol produzida e comercializada na região estudada apresenta-se imprópria (96,25%) para o consumo de acordo com a legislação brasileira

Salmonella

Condições sanitárias

S. aureus

bactérias halofílicas

resistência à antibióticos.

Salmonella

Sanitary conditions

S. aureus

halophilic bacteria

sensitivity to antibiotics

CNPQ::CIENCIAS AGRARIAS::ZOOTECNIA

Towards microbial electrochemical technologies for metal recovery / Vers des technologies électrochimiques microbiennes pour la récupération de métaux

Anaya garzon, Juan

29 March 2019

Metals, essential constituents of a vast number of products and industrial processes, are paradoxically confronted to a scarcity issue without precedents. Among the emerging technologies for sustainable metal recovery, bio-electrochemical systems (BES) stand at a research state with a potential application on low-content metal streams. They are based on electroactive bacteria that can exchange electrons with their environment to drive an (electro)chemical metal precipitation. The feasibility of three configurations of BES aiming to recover metals at low-energy and low-chemicals consumption was explored. A first approach inspired on metal-bacteria interactions aimed to transform gold and chromium ions into added-value products. A polarized cathode promoting the metal reduction and symbiotically producing metallic nanoparticles on bacteria was studied. A second configuration used a halophilic bioanode to recover a panel of metals including transition metals and rare earth elements from marine environments. Metals were not directly precipitated by the contact with bacteria, but via a gas-diffusion cathode coupled to the bioanode. The third configuration considered a neodymium electrochemical reduction coupled to an oxidation catalyzed by a bioanode. Here, the conventional metal-containing aqueous system was replaced by an ionic liquid, an emerging solvent suitable for REE electrodeposition. / Les métaux, composants essentiels d'un grand nombre de produits et de processus industriels, sont paradoxalement confrontés à un problème de pénurie sans précédent. Parmi les technologies émergentes pour la récupération durable des métaux, les systèmes bio-électrochimiques (BES) sont à la recherche d’une application potentielle sur des matrices aqueuses de métaux à faible teneur. Ils sont basés sur des bactéries dites électro-actives, pouvant échanger des électrons avec leur environnement afin de conduire une précipitation de (électro)chimique du métal. Le but étant d’explorer différents procédés de récupération de métaux à faible consommation d'énergie et de produits chimiques, trois configurations de BES ont été abordés. Une première approche inspirée des interactions métal-bactérie visait à transformer les ions d’or et de chrome en produits à valeur ajoutée. Une cathode polarisée favorisant la réduction des métaux et produisant de manière symbiotique des nanoparticules métalliques sur des bactéries a été étudiée. Une seconde configuration utilisait une bioanode halophile pour récupérer un panel de métaux comprenant des métaux de transition et des éléments de terres rares provenant d’environnements marins. Les métaux ne sont pas précipités directement par le contact avec les bactéries mais par une cathode à diffusion gazeuse couplée à la bioanode. La troisième configuration envisageait une réduction électrochimique au néodyme couplée à une oxydation catalysée par une bioanode. Le système aqueux contenant un métal conventionnel a été remplacé par un liquide ionique, un solvant émergent avantageux pour l'électrodéposition de terres rares.

Système bioelectrochimique

Biosynthèse de nanoparticules

Bioanode halophile

Liquides ioniques

Récupération de métaux

Ree

Microbial electrochemical system

Nanoparticles biosynthesis

Halophilic bioanode

Ionic liquid

Metal recovery

Ree

620

Using halophilic bacteria as pyrite biodepressants in sulphide mineral bioflotation

Luque Consuegra, Guillermo

12 July 2023

Freshwater shortages causes challenges in mineral processing in Chile, especially in arid regions. As a result, froth flotation; a mineral process, is shifting usage of freshwater to seawater. This has consequences in the consumption of flotation reagents and decreasing the flotation efficiency. Biotechnological developments allow conceptualising the use of bacterial cells and their metabolites as bioreagents in flotation; classified as bioflotation. In this thesis, 5 halophilic bacteria, namely, Halomonas boliviensis, Marinobacter spp., Halobacillus litoralis Hol-1, Marinococcus halophilus KOR-3 and Halomonas eurihalina P6-1 have been screened for the potential use as pyrite biodepressants at micro- and batch-scale flotation. The effect of bioconditioning minerals with these bacteria was studied using zeta potential, fluorescence microscopy and contact angle. Experiments measuring zeta potential show the isoelectric point (IEP) of pyrite, chalcopyrite and molybdenite became more acidic post-bioconditioning. Fluorescence microscopy with Nile red; a hydrophobic stain, allowed for a method to visualize bacterial cells or collector potassium isopropyl xanthate (KIPX) on mineral particles of pyrite, chalcopyrite and molybdenite. Additionally contact angle experiments show that strains Halobacillus litoralis Hol-1, Marinococcus halophilus KOR-3 and Halomonas eurihalina P6-1 had an influence on the contact angle of pyrite and chalcopyrite, inducing changes in their hydrophobicity. Microflotation experiments showed a decreased recovery of pyrite in presence of all strains, but notably, Halobacillus litoralis Hol-1 and Marinococcus halophilus KOR-3, also showed an increased recovery of chalcopyrite, making them ideal candidates as pyrite biodepressants. Halomonas eurihalina P6-1 showed low recoveries of both minerals, but a higher selectivity depressing more pyrite than chalcopyrite. Usage of autoclaved biomass from the three aforementioned strains in batch-flotation experiments resulted in the recovery of chalcopyrite improving, with a small decrease in the recovery of pyrite, overall showing a positive potential but not improving the system. Halophilic bacteria such as the ones used in this study show an influence on the floatability of pyrite, which could be commercially exploited to substitute lime as a pyrite depressant. Furthermore, the work in this thesis focused on studying the effects of cells in artificial seawater, both at micro and batch-scales which brings the laboratory experiments a step closer to industrially relevant conditions.

info:eu-repo/classification/ddc/570

ddc:570

Flotation

Pyrit

Halophile Bakterien

Meerwasser

Influência dos nutrientes nitrogênio e fósforo na degradação anaeróbia do pentaclorofenol e na diversidade microbiana dos sedimentos enriquecidos do Estuário de Santos-São Vicente, Estado de São Paulo / Influence of nitrogen and phosphorus nutrients on the anaerobic degradation of pentachlorophenol and on the natural microbial diversity of sediments from the Santos-São Vicente estuary, state of São Paulo, Brazil

Brucha, Gunther

01 October 2007

A pesquisa que ora se apresenta visou estabelecer as condições nutricionais adequadas para o uso do sedimento do estuário de Santos - São Vicente do Estado de São Paulo, como inóculo no reator anaeróbio horizontal de leito fixo (RAHLF) no processo de degradação anaeróbia do pentaclorofenol (PCP) em busca da aplicação da tecnologia em escala real, assim como identificar grupos microbianos envolvidos no processo. Para tanto, sedimento do estuário de Santos-São Vicente, com características metanogênicas foi utilizado. Os microrganismos provenientes do sedimento estuarino foram enriquecidos sob condições metanogênicas e halofílicas, visando a utilização do sedimento como inoculo nos ensaios nutricionais e na operação dos reatores do tipo RAHLF. O meio de cultivo salino Biota, suplementado com glicose e formiato, foi utilizado para o desenvolvimento da comunidade microbiana metanogênica halofílica. Testes de degradação do PCP foram realizados previamente sob diferentes concentrações de nitrogênio e fósforo, com vistas a uma melhor compreensão da relação N:P adequada para o processo anaeróbio. Os resultados provenientes do acompanhamento da diversidade microbiana do domínio Bacteria nas diferentes relações testadas indicaram a seleção de distintas comunidades microbianas, resultando em diferentes velocidades de degradação do PCP. A relação N:P de 10:1 foi a que apresentou melhores resultados, pois além da rápida degradação do PCP quando comparada com as outras relações, apresentou a maior diversidade de microrganismos. Posteriormente, o sistema RAHLF foi operado com vazão média afluente de aproximadamente 44 mL/hora, com meio mineral salino Biota (DQO:N:P de 1000:130:45) para R1 e com a alteração para relação DQO:N:P de 1000:10:1 para R2. Duas diferentes estratégias foram adotadas para partida dos reatores. Para R1, optou-se por acrescentar PCP na concentração inicial de 10,0 mg/L, durante 110 dias causando desestabilização da metanogênese e acúmulo de PCP, requerendo intervenção para recuperação do reator pelo período de 90 dias. Na partida do RAHLF 2, optou-se pelo aumento gradual de concentração do PCP de 0,5 mg/L a 12,0 mg/L durante 52 dias. Após estabelecimento da metanogêsenese, R1 foi alimentado durante 270 dias com 5,0 mg PCP/L, durante 41 dias com 8,0 mg/L e 59 dias com 12 mg/L. O balanço de massa no reator RAHLF 1 demonstrou que 0,52% do PCP adicionado saiu no efluente e que não ocorreu adsorção no sistema. 22,34 mg de 2,4,6 TCP, intermediário da degradação do PCP, ficaram adsorvidos na biopartícula. Os resultados das análises de diversidade microbiana apontaram para mudança da comunidade microbiana do domínio Bacteria ao longo do período operacional e morfologias de bacilos fluorescentes semelhantes a Methanobacterium sp estiveram presentes no reator. No RAHLF 2, a degradação do PCP foi de 100%, até a concentração de 10,0 mg/L. No final da fase com 12,0 mg PCP/L, a concentração no efluente foi de 1,4 mg PCP/L, com eficiência média de remoção de 93,2 \'+ ou -\' 5,5%. 2,4,6 TCP foi o intermediário principal no efluente do reator. 4,06% do PCP adicionado ao sistema foram encontradas no efluente e 15,94% ficaram adsorvidas nas biopartículas do reator. Portanto, considera-se que 80% do PCP adicionado sofreu degradação anaeróbia microbiana. A presença dos microrganismos Methanocalcullus e Methanosaeta na fase final de operação do RAHLF 2 e determinadas no sedimento coletado foi considerada fundamental para manter estabilidade do reator. Essa descoberta contribui com informações sobre a real diversidade microbiana de ecossistemas tropicais, sobretudo em habitats anaeróbios, bem como sobre as condições nutricionais e os procedimentos necessários para confiná-la em reatores e usá-la em processos de biorremediação. / The research presented here aimed to determine the optimal nutritional conditions for the use of sediment from the Santos-São Vicente estuary in the state of São Paulo, Brazil, as an inoculum for a horizontal-flow anaerobic immobilized biomass reactor (HAIB) applied to the anaerobic degradation of pentachlorophenol (PCP), seeking to apply the technology on the real scale and to identify the microbial groups involved in the process. To this end, sediment with methanogenic characteristics from the Santos-São Vicente estuary was used. The microorganisms from the estuarine sediment were enriched under methanogenic and halophilic conditions, aiming to use the sediment as an inoculum in nutritional assays and in the operation of HAIB reactors. Biota saline culture medium supplemented with glucose and formiate was used to develop the halophilic methanogenic microbial community. PCP degradation tests were carried out previously under different concentrations of nitrogen and phosphorus in order to gain a better understanding of the optimal N:P ratio for the anaerobic process. The findings on the microbial diversity of the domain Bacteria at the various ratios tested here indicated the selection of distinct microbial communities, resulting in different PCP degradation velocities. The N:P ratio utilized was 10:1 since it presented the best results not only in terms of faster PCP degradation than the other ratios but also highest diversity of microorganisms. The HAIB reactor was then operated with a mean inflow of approximately 44 mL/hour, using the biota saline mineral medium with a COD:N:P ratio of 1000:130:45 in R1 (reactor 1) and a COD:N:P ratio of 1000:10:1 in R2. Two distinct strategies were adopted to start up the reactors. In R1 PCP was added at an initial concentration of 10.0 mg/L for 100 days, causing destabilization of the methanogenesis and accumulation of PCP, requiring a 90-day intervention for the reactor\'s recovery. To start up R2, the PCP concentration was increased gradually from 0.5 mg/L to 12.0 mg/L for 52 days. After methanogenesis was established, R1 was fed for 270 days with 5.0 mg of PCP/L, followed by 41 days with 8.0 mg/L and 59 days with 12 mg/L. The mass balance in R1 indicated that 0.52% of the added PCP exited through the reactor\'s outflow and that adsorption of the system did not occur. 22.34 mg of 2,4,6 TCP, an intermediary of PCP degradation, was adsorbed in the bioparticles. The results of the analysis of microbial diversity indicated a change in the microbial community of the domain Bacteria along the operational period, with fluorescent bacilli morphologies resembling Methanobacterium sp present in the reactor. PCP degradation in R2 was 100% up to a concentration of 10.0 mg/L. At the end of the phase with 12.0 mg PCP/L, the effluent concentration was 1.4 mg PCP/L, with a mean removal efficiency of 93.2 \'+ or -\' 5,5%. 2,4,6 TCP was the main intermediary in the reactor\'s effluent. 4.06% of the PCP added to the system was found in the effluent and 15.94% was absorbed in the bioparticles of the reactor. Therefore, it was concluded that 80% of the added PCP underwent microbial anaerobic degradation. The presence of Methanocalcullus and Methanosaeta microorganisms in the final operating phase of R2, which was determined in the collected sediment, was considered fundamental for maintaining the reactor\'s stability. This discovery contributes to the body of information about the real microbial diversity of tropical ecosystems, above all in anaerobic habitats, and about the nutritional conditions and procedures involved in confining these microorganisms in reactors and using them in bioremediation processes.

Anaerobic bioremediation

Arquéias metanogênicas halofílicas

Biorremediação anaeróbia

Desalogenação redutiva do PCP

Estuário de Santos-São-Vicente

Halophilic methanogenic archaea

Reductive dehalogenation of PCP

Resource ratio theory

Santos-São Vicente estuary

Teoria dos recursos limitantes

Influência dos nutrientes nitrogênio e fósforo na degradação anaeróbia do pentaclorofenol e na diversidade microbiana dos sedimentos enriquecidos do Estuário de Santos-São Vicente, Estado de São Paulo / Influence of nitrogen and phosphorus nutrients on the anaerobic degradation of pentachlorophenol and on the natural microbial diversity of sediments from the Santos-São Vicente estuary, state of São Paulo, Brazil

Gunther Brucha

01 October 2007

A pesquisa que ora se apresenta visou estabelecer as condições nutricionais adequadas para o uso do sedimento do estuário de Santos - São Vicente do Estado de São Paulo, como inóculo no reator anaeróbio horizontal de leito fixo (RAHLF) no processo de degradação anaeróbia do pentaclorofenol (PCP) em busca da aplicação da tecnologia em escala real, assim como identificar grupos microbianos envolvidos no processo. Para tanto, sedimento do estuário de Santos-São Vicente, com características metanogênicas foi utilizado. Os microrganismos provenientes do sedimento estuarino foram enriquecidos sob condições metanogênicas e halofílicas, visando a utilização do sedimento como inoculo nos ensaios nutricionais e na operação dos reatores do tipo RAHLF. O meio de cultivo salino Biota, suplementado com glicose e formiato, foi utilizado para o desenvolvimento da comunidade microbiana metanogênica halofílica. Testes de degradação do PCP foram realizados previamente sob diferentes concentrações de nitrogênio e fósforo, com vistas a uma melhor compreensão da relação N:P adequada para o processo anaeróbio. Os resultados provenientes do acompanhamento da diversidade microbiana do domínio Bacteria nas diferentes relações testadas indicaram a seleção de distintas comunidades microbianas, resultando em diferentes velocidades de degradação do PCP. A relação N:P de 10:1 foi a que apresentou melhores resultados, pois além da rápida degradação do PCP quando comparada com as outras relações, apresentou a maior diversidade de microrganismos. Posteriormente, o sistema RAHLF foi operado com vazão média afluente de aproximadamente 44 mL/hora, com meio mineral salino Biota (DQO:N:P de 1000:130:45) para R1 e com a alteração para relação DQO:N:P de 1000:10:1 para R2. Duas diferentes estratégias foram adotadas para partida dos reatores. Para R1, optou-se por acrescentar PCP na concentração inicial de 10,0 mg/L, durante 110 dias causando desestabilização da metanogênese e acúmulo de PCP, requerendo intervenção para recuperação do reator pelo período de 90 dias. Na partida do RAHLF 2, optou-se pelo aumento gradual de concentração do PCP de 0,5 mg/L a 12,0 mg/L durante 52 dias. Após estabelecimento da metanogêsenese, R1 foi alimentado durante 270 dias com 5,0 mg PCP/L, durante 41 dias com 8,0 mg/L e 59 dias com 12 mg/L. O balanço de massa no reator RAHLF 1 demonstrou que 0,52% do PCP adicionado saiu no efluente e que não ocorreu adsorção no sistema. 22,34 mg de 2,4,6 TCP, intermediário da degradação do PCP, ficaram adsorvidos na biopartícula. Os resultados das análises de diversidade microbiana apontaram para mudança da comunidade microbiana do domínio Bacteria ao longo do período operacional e morfologias de bacilos fluorescentes semelhantes a Methanobacterium sp estiveram presentes no reator. No RAHLF 2, a degradação do PCP foi de 100%, até a concentração de 10,0 mg/L. No final da fase com 12,0 mg PCP/L, a concentração no efluente foi de 1,4 mg PCP/L, com eficiência média de remoção de 93,2 \'+ ou -\' 5,5%. 2,4,6 TCP foi o intermediário principal no efluente do reator. 4,06% do PCP adicionado ao sistema foram encontradas no efluente e 15,94% ficaram adsorvidas nas biopartículas do reator. Portanto, considera-se que 80% do PCP adicionado sofreu degradação anaeróbia microbiana. A presença dos microrganismos Methanocalcullus e Methanosaeta na fase final de operação do RAHLF 2 e determinadas no sedimento coletado foi considerada fundamental para manter estabilidade do reator. Essa descoberta contribui com informações sobre a real diversidade microbiana de ecossistemas tropicais, sobretudo em habitats anaeróbios, bem como sobre as condições nutricionais e os procedimentos necessários para confiná-la em reatores e usá-la em processos de biorremediação. / The research presented here aimed to determine the optimal nutritional conditions for the use of sediment from the Santos-São Vicente estuary in the state of São Paulo, Brazil, as an inoculum for a horizontal-flow anaerobic immobilized biomass reactor (HAIB) applied to the anaerobic degradation of pentachlorophenol (PCP), seeking to apply the technology on the real scale and to identify the microbial groups involved in the process. To this end, sediment with methanogenic characteristics from the Santos-São Vicente estuary was used. The microorganisms from the estuarine sediment were enriched under methanogenic and halophilic conditions, aiming to use the sediment as an inoculum in nutritional assays and in the operation of HAIB reactors. Biota saline culture medium supplemented with glucose and formiate was used to develop the halophilic methanogenic microbial community. PCP degradation tests were carried out previously under different concentrations of nitrogen and phosphorus in order to gain a better understanding of the optimal N:P ratio for the anaerobic process. The findings on the microbial diversity of the domain Bacteria at the various ratios tested here indicated the selection of distinct microbial communities, resulting in different PCP degradation velocities. The N:P ratio utilized was 10:1 since it presented the best results not only in terms of faster PCP degradation than the other ratios but also highest diversity of microorganisms. The HAIB reactor was then operated with a mean inflow of approximately 44 mL/hour, using the biota saline mineral medium with a COD:N:P ratio of 1000:130:45 in R1 (reactor 1) and a COD:N:P ratio of 1000:10:1 in R2. Two distinct strategies were adopted to start up the reactors. In R1 PCP was added at an initial concentration of 10.0 mg/L for 100 days, causing destabilization of the methanogenesis and accumulation of PCP, requiring a 90-day intervention for the reactor\'s recovery. To start up R2, the PCP concentration was increased gradually from 0.5 mg/L to 12.0 mg/L for 52 days. After methanogenesis was established, R1 was fed for 270 days with 5.0 mg of PCP/L, followed by 41 days with 8.0 mg/L and 59 days with 12 mg/L. The mass balance in R1 indicated that 0.52% of the added PCP exited through the reactor\'s outflow and that adsorption of the system did not occur. 22.34 mg of 2,4,6 TCP, an intermediary of PCP degradation, was adsorbed in the bioparticles. The results of the analysis of microbial diversity indicated a change in the microbial community of the domain Bacteria along the operational period, with fluorescent bacilli morphologies resembling Methanobacterium sp present in the reactor. PCP degradation in R2 was 100% up to a concentration of 10.0 mg/L. At the end of the phase with 12.0 mg PCP/L, the effluent concentration was 1.4 mg PCP/L, with a mean removal efficiency of 93.2 \'+ or -\' 5,5%. 2,4,6 TCP was the main intermediary in the reactor\'s effluent. 4.06% of the PCP added to the system was found in the effluent and 15.94% was absorbed in the bioparticles of the reactor. Therefore, it was concluded that 80% of the added PCP underwent microbial anaerobic degradation. The presence of Methanocalcullus and Methanosaeta microorganisms in the final operating phase of R2, which was determined in the collected sediment, was considered fundamental for maintaining the reactor\'s stability. This discovery contributes to the body of information about the real microbial diversity of tropical ecosystems, above all in anaerobic habitats, and about the nutritional conditions and procedures involved in confining these microorganisms in reactors and using them in bioremediation processes.

Arquéias metanogênicas halofílicas

Biorremediação anaeróbia

Desalogenação redutiva do PCP

Estuário de Santos-São-Vicente

Teoria dos recursos limitantes

Anaerobic bioremediation

Halophilic methanogenic archaea

Reductive dehalogenation of PCP

Resource ratio theory

Santos-São Vicente estuary

Transcriptional regulation and physiological importance of the kdp-system from the halophilic archaeon Halobacterium salinarum

Kixmüller, Dorthe

03 April 2012

The high affinity, ATP-dependent K+ uptake system KdpFABC of Halobacterium salinarum, is highly induced under K+ limitation. In contrast to the well-characterized Kdp system in Escherichia coli, in which the kdpFABC genes are transcriptionally regulated by the sensor kinase/response regulator system KdpD/KdpE, transcriptional regulation of the kdp genes in H. salinarum was unknown due to the absence of halobacterial homologues of KdpD/KdpE. Furthermore, the physiological relevance of the KdpFABC K+ uptake system of H. salinarum was puzzling, since hypersaline habitats usually comprise K+ concentrations which do not induce kdp expression. In order to analyze the regulation of kdp gene expression, it was essential to gain information about the transcriptional unit(s) involved. Northern blotting, primer extension analysis and real-time RT-PCR revealed the presence of a polycistronic leaderless kdpFABCQ transcript with a putative kdp terminator or at least a potential mRNA processing site downstream of kdpQ. Furthermore, promoter truncation studies verified the so far only predicted basal transcription elements together with an upstream-located operator sequence. Since deletions of this putative operator sequence did not lead to a constitutive expression, a further component has to be involved in the regulation of the kdpFABCQ genes. However, truncation and scanning mutagenesis analyses of the kdp promoter as well as translational fusions of a halophilic beta-galactosidase to the kdp promoter excluded an additional regulatory element up- or downstream of the basal transcription elements and in the kdp-coding region. These results lead to speculations of multiple basal transcription factors to be involved. Furthermore, an inducible expression vector (shuttle vector) was constructed based on the promoter of the kdpFABCQ operon due to its, K+-sensitive features. Inducible expression systems are yet not available for H. salinarum. The resulting, replicating vector pKIX is functional and enables a K+-dependent expression from the kdp promoter with rather high induction ratios of 50-fold. Expression levels could further be improved by plasmid- and additional chromosomally encoded kdpQ and mutations generated in the kdp promoter. Since transcript levels from pKIX were found to be independent of differential target genes, the general application of pKIX as an inducible expression system is strongly supported and pKIX could, thus, be made accessible to the scientific community. To decipher the physiological relevance of the halobacterial Kdp system, H. salinarum was encountered to desiccation stress and salt crystal (halite) entombment. Halite crystals grown under non-inducing K+ concentrations with entombed strains of H. salinarum and H. salinarum deleted in the kdpFABCQ genes revealed a significantly reduced survival rate of the deletion strain upon recultivation. Additionally, a kdpFABCQ-inducing desiccation stress could already be determined on agar plates under non-limiting K+ concentrations. Furthermore, the cell morphology of H. salinarum entrapped in halite crystals resembled that of H. salinarum grown under K+-limiting conditions. Therefore, the Kdp system promotes survival of H. salinarum under desiccation stress. Furthermore, the Kdp system could be identified as at least one of the systems important for long-term survival of H. salinarum in halite.

Halobacterium

Halobacterium salinarum

H. salinarum

halophile

halophil

archaea

archaeon

kdp

kdpFABC

kdpFABCQ

kdp-System

ATP

Kalium

Kaliumaufnahme

K+

Halit

Salzkristall

Austrocknung

Trockenstress

transkriptionelle Regulation

Genexpression

pKIX

induzierbarer Expressionsvektor

Expressionsvektor

kdpQ

Kdp Komplex

halobacterial

halophilic

kdpFABC genes

kdp-system

high-affinity

ATP-dependent

potassium

potassium pump

K+ uptake

desiccation

desiccation stress

halite

salt crystal

long-term survival

transcriptional regulation

gene expression

inducible expression vector

expression vector

Kdp complex

ddc:570