Spheno-Orbital Aneurysmal Bone Cyst in a 10-Month-Old Infant

The binding protein (BiP) has been demonstrated to participate in innate immunity and attenuate endoplasmic reticulum-and osmotic stress-induced cell death. Here, we employed transgenic plants with manipulated levels of BiP to assess whether BiP also controlled developmental and hypersensitive programmed cell death (PCD). Under normal conditions, the BiP-induced transcriptome revealed a robust down-regulation of developmental PCD genes and an up-regulation of the genes involved in hypersensitive PCD triggered by nonhost-pathogen interactions. Accordingly, the BiP-overexpressing line displayed delayed leaf senescence under normal conditions and accelerated hypersensitive response triggered by Pseudomonas syringae pv tomato in soybean (Glycine max) and tobacco (Nicotiana tabacum), as monitored by measuring hallmarks of PCD in plants. The BiPmediated delay of leaf senescence correlated with the attenuation of N-rich protein (NRP)-mediated cell death signaling and the inhibition of the senescence-associated activation of the unfolded protein response (UPR). By contrast, under biological activation of salicylic acid (SA) signaling and hypersensitive PCD, BiP overexpression further induced NRP-mediated cell death signaling and antagonistically inhibited the UPR. Thus, the SA-mediated induction of NRP cell death signaling occurs via a pathway distinct from UPR. Our data indicate that during the hypersensitive PCD, BiP positively regulates the NRP cell death signaling through a yet undefined mechanism that is activated by SA signaling and related to ER functioning. By contrast, BiP's negative regulation of leaf senescence may be linked to its capacity to attenuate the UPR activation and NRP cell death signaling. Therefore, BiP can function either as a negative or positive modulator of PCD events.

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The Molecular Chaperone Binding Protein BiP Prevents Leaf Dehydration-Induced Cellular Homeostasis Disruption

Carvalho

Brustolini

Pimenta

et al. 2014

PLoS ONE

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BiP overexpression improves leaf water relations during droughts and delays drought-induced leaf senescence. However, whether BiP controls cellular homeostasis under drought conditions or simply delays dehydration-induced leaf senescence as the primary cause for water stress tolerance remains to be determined. To address this issue, we examined the drought-induced transcriptomes of BiP-overexpressing lines and wild-type (WT) lines under similar leaf water potential (ψw) values. In the WT leaves, a ψw reduction of −1.0 resulted in 1339 up-regulated and 2710 down-regulated genes; in the BiP-overexpressing line 35S::BiP-4, only 334 and 420 genes were induced and repressed, respectively, at a similar leaf ψw = −1.0 MPa. This level of leaf dehydration was low enough to induce a repertory of typical drought-responsive genes in WT leaves but not in 35S::BiP-4 dehydrated leaves. The responders included hormone-related genes, functional and regulatory genes involved in drought protection and senescence-associated genes. The number of differentially expressed genes in the 35S::BiP-4 line approached the wild type number at a leaf ψw = −1.6 MPa. However, N-rich protein (NRP)- mediated cell death signaling genes and unfolded protein response (UPR) genes were induced to a much lower extent in the 35S::BiP-4 line than in the WT even at ψw = −1.6 MPa. The heatmaps for UPR, ERAD (ER-associated degradation protein system), drought-responsive and cell death-associated genes revealed that the leaf transcriptome of 35S::BiP-4 at ψw = −1.0 MPa clustered together with the transcriptome of well-watered leaves and they diverged considerably from the drought-induced transcriptome of the WT (ψw = −1.0, −1.7 and −2.0 MPa) and 35S::BiP-4 leaves at ψw = −1.6 MPa. Taken together, our data revealed that BiP-overexpressing lines requires a much higher level of stress (ψw = −1.6 MPa) to respond to drought than that of WT (ψw = −1.0). Therefore, BiP overexpression maintains cellular homeostasis under water stress conditions and thus ameliorates endogenous osmotic stress.

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Desempenho durante o armazenamento de sementes de pepino submetidas a diferentes métodos de secagem

Nakada¹,

Oliveira

Melo³

et al. 2010

Rev. bras. sementes

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RESUMO -A secagem de sementes de pepino é etapa obrigatória no seu beneficiamento, bem como o armazenamento para conquistar mercados competitivos e melhores oportunidades de preços. Portanto, o objetivo com este trabalho foi o de avaliar o desempenho fisiológico e bioquímico durante a secagem e armazenamento de sementes de pepino. A cultivar utilizada foi o híbrido de pepino Ômega comercializado pela Agristar Ltda. As sementes foram lavadas e secadas em temperatura ambiente de 25 ºC, 35 ºC e 45 ºC até atingir grau de umidade de 7%. As sementes foram embaladas em sacos de papel multifoliado e armazenadas em condições de ambiente não controlado. As avaliações da qualidade foram realizadas aos 0, 3, 6, 9 e 12 meses pelos testes de germinação, primeira contagem, condutividade elétrica e emergência de plântulas em bandeja. Avaliaram também as atividades enzimáticas de superóxido dismutase, catalase, esterase, lipoxigenase, isocitrato liase e proteína LEA, e por fim o teste de sanidade. A secagem de sementes de pepino, em temperatura ambiente, e a 35 ºC resulta em sementes de melhor qualidade. Ocorre redução da qualidade fisiológica das sementes e da atividade da proteína LEA a partir de seis meses de armazenamento, independente da temperatura de secagem.Termos para indexação: Cucumis sativus, qualidade fisiológica, eletroforese. PERFORMANCE DURING STORAGE OF CUCUMBER SEEDS UNDER DIFFERENT METHODS OF DRYINGABSTRACT -The drying of seeds of cucumber is a compulsory stage in his improvement, as well as the storage to conquer competitive markets and better opportunities of prices. So the objective with this work valued the physiologic and biochemical performance during the drying and storage of seeds of cucumber. Cultivating used was the hybrid of cucumber Ômega marketed by the Agristar Ltda. The seeds were washed and dried at room temperature 25 °C, 35 ºC and 45 ºC, following the storage in conditions ambient. The physiologic quality was valued through the germination test, first counting, conductivity electric and seedlings emergence. Also there was done sanitary analysis, evaluation of the activity of enzymes from the superoxide dismutase, catalase, esterase, lipoxigenase, isocitrato liase and LEA protein, and finally the analysis of images through ray X. The drying of seeds 42

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Sorption isotherms of tapioca flour

Chisté

Silva

Pena

2012

Int J of Food Sci Tech

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The adsorption and desorption isotherms of tapioca flour was performed in the range of water activity (a w ) from 0.22 to 0.92 at 25°C, and the applicability of six mathematical models in data prediction was evaluated. The tapioca flour presented Type II isotherm (sigmoid), and the hysteresis effect was not observed. For the microbiological stability, the moisture of tapioca flour should not exceed 10.1%. The monolayer moisture content value indicates that the drying process of tapioca flour should not be conducted to obtain moisture levels lower than 4.92% to avoid unnecessary power consumption. The data fit showed that all mathematical models are able to predict the adsorption isotherm of tapioca flour, and the models of Handerson, Smith, GAB and BET are able to predict the desorption isotherm.

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Caracterização de cultivares de soja por descritores morfológicos e marcadores bioquímicos de proteínas e isoenzimas

Vieira¹,

Pinho²,

Carvalho³

et al. 2009

Rev. bras. sementes

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A utilização de descritores morfológicos e marcadores bioquímicos de proteínas e enzimas têm sido recomendados para fins de caracterização de cultivares de soja. O objetivo do presente trabalho foi empregar tais descritores e marcadores na identificação de dez cultivares de soja. Os marcadores morfológicos avaliados nos estádios de plântula, planta e semente foram os recomendados pela Lei de Proteção de Cultivares e UPOV, mostrando-se eficientes na separação das dez cultivares. Marcadores específicos para sete das dez cultivares foram obtidos. A utilização de proteínas de armazenamento possibilitou a separação das cultivares em três grupos: 1) Conquista, BR/IAC 21 e Garantia; 2) Liderança, Confiança e Monarca; 3) Splendor, UFV 16, FT 2000 e Vencedora. Os sistemas enzimáticos superóxido dismutase, diaforase, fosfoglucomutase, esterase, álcool desidrogenase, isocitrado desidrogenase e peroxidase separaram as cultivares em seis grupos: 1) Conquista e Confiança; 2) Splendor e FT 2000; 3) UFV 16 e Garantia; 4) BRIAC 21; 5) Liderança e Monarca; 6) Vencedora. O emprego de marcadores bioquímicos de proteínas e caracterização de cultivares de soja.

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Priscila Alves da Silva

The Endoplasmic Reticulum Binding Protein BiP Displays Dual Function in Modulating Cell Death Events

The Molecular Chaperone Binding Protein BiP Prevents Leaf Dehydration-Induced Cellular Homeostasis Disruption

Desempenho durante o armazenamento de sementes de pepino submetidas a diferentes métodos de secagem

Sorption isotherms of tapioca flour

Caracterização de cultivares de soja por descritores morfológicos e marcadores bioquímicos de proteínas e isoenzimas

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