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Physicochemical, morphological, and adhesion properties of sodium bisulfite modified soy protein componentsZhang, Lu January 1900 (has links)
Master of Science / Department of Grain Science and Industry / X. Susan Sun / Soybean protein modified with sodium bisulfite behaves like latex adhesives, with adhesive strength comparable to formaldehyde-based adhesives. β-conglycinin and glycinin are two major protein components of the adhesive system. The objective of this research was to investigate the effect of sodium bisulfite on the physicochemical, morphological, and adhesion properties of glycinin and β-conglycinin in order to better understand the function of glycinin and β-conglycinin in the formation of the soy latex adhesive. Sodium bisulfite broke the disulfide bonds that linked acidic and basic polypeptides of glycinin, and the reducing effect was enhanced with increasing sodium bisulfite concentration. Although cleavage of disulfide bonds was expected to destabilize proteins, the thermal stability of glycinin increased as the sodium bisulfite concentration increased. Sodium bisulfite modified glycinin had higher surface hydrophobicity, which facilitated hydrophobic interations between molecules and aggregation of glycinin. The balance between hydrophobic interactions and electrostatic forces makes glycinin form unique chain-like structures. Adhesive performance of glycinin dropped significantly at lower sodium bisulfite concentration and then increased as sodium bisulfite concentration increased up to 24 g/L. Excess sodium bisulfite was detrimental to adhesive strength and water resistance. High-molecular-weight aggregates were observed in unmodified β-conglycinin, but these aggregates were dissociated by sodium bisulfite treatment. Similar to glycinin, the thermal stability of β-conglycinin was improved by the modification. However, the denaturation enthalpy of β-conglycinin decreased significantly at high level of sodium bisulfite (36 g/L). The turbidity at pH 4.8 also dropped extensively at the concentration of 36 g/L. The contact angle of β-conglycinin reached its minimum at 6 g/L sodium bisulfite on cherry wood and 24 g/L on glass. Morphology study proved that sodium bisulfite modification made the β-conglycinin solution more dispersed. At pH 9.5, water resistance of β-conglycinin was improved to a small extent by 6 g/L sodium bisulfite. At pH 4.8, adhesive performance was enhanced by 3 g/L and 6 g/L sodium bisulfite. High level of sodium bisulfite at 36 g/L reduced the adhesive performance of β-conglycinin drastically.
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Análise da Metilação do DNA de Seleções de Figueira (Ficus carica L.) por MSAP e Sequenciamento / Analysis of Fig (Ficus carica L.) Selections DNA Methylation by MSAP and SequencingRodrigues, Maria Gabriela Fontanetti 25 March 2015 (has links)
Os programas de melhoramento de figueira (Ficus carica L.) por métodos convencionais tais como cruzamentos dirigidos, para a obtenção de novos cultivares, são inviáveis em muitos países, como no Brasil, principalmente pela pequena variabilidade genética encontrada, e pela dificuldade de obtenção de plantas originadas pela fusão de gametas, uma vez que a vespa Blastophaga psenes, responsável pela polinização natural, não existe no país. Desse modo, o melhoramento genético, com o uso de mutagênicos, se torna uma linha de pesquisa importante para a melhoria da cultura, sendo necessário reunir informações sobre essa espécie, principalmente, em relação à sua variabilidade genética, para que projetos de propagação e manejo adequados sejam realizados. Diante do exposto, o objetivo do presente trabalho foi verificar a existência de variabilidade epigenética devido à metilação do DNA em seleções irradiadas de figueiras, entre si e quando comparadas ao principal cultivar comercial, Roxo-de-Valinhos, utilizando as técnicas de MSAP e ELISA, e posterior sequenciamento do DNA, tratado com bissulfito de sódio, para detecção do posicionamento das regiões polimórficas, analisado por ferramentas de bioinformática. Amostras do DNA genômico foram duplamente digeridas com a enzima HpaII (sensível à metilação) ou com o seu isoesquizomero MspI (não sensível à metilação), juntamente com a enzima EcoRI. Foram testadas 14 combinações de primers e obteve-se 87.9%, 10.1% e 2.0%, respectivamente, de regiões não metiladas CCGG, regiões metiladas CmCGG e regiões hemimetiladas hmCCGG, de um total de 553 produtos de amplificação, demostrando que a técnica MSAP é eficiente para detecção de sítios diferencialmente metilados no material genômico estudado, evidenciando sua divergência epigenética. Com o sequenciamento do DNA isolado desses sítios diferencialmente metilados, foi possível verificar diferentes padrões de metilação nos mesmos pelo sequenciamento dos DNAs tratados com bissulfito de sódio, em regiões codificadoras de genes regulatórios do desenvolvimento e amadurecimento dos frutos, além de terem sido encontrados no DNA mitocondrial dos tratamentos, o qual regula o fornecimento de energia em forma de ATP para as plantas, estando intimamente relacionado com o desenvolvimento das mesmas, justificando os diferentes fenótipos encontrados, tanto nos frutos, quanto no crescimento das plantas que sofreram estresse devido à exposição à radiação gama. Pela técnica de imunoquímica (ELISA), utilizando anticorpos anti 5-mC, foram observadas diferenças significativas pelo teste de Tukey, a 95 % de confiabilidade, no conteúdo global de metilação dos DNAs dos tratamentos, indicando que este fator abiótico foi responsável pelas alterações no epigenoma das plantas. Como o material utilizado como controle se encontrou também metilado, uma possível desmetilação dos materiais genômicos pode ser a responsável pela variação fenotípica entre os tratamentos. Diante disso, o estudo futuro da expressão gênica entre os tratamentos torna-se uma estratégia de extrema importância para o entendimento dos complexos sistemas regulatórios, levando à identificação de genes de interesse agronômico para a cultura da figueira, possibilitando a sua manipulação subsequente e propagação de cultivares melhorados para fins comerciais. / The fig tree (Ficus carica L.) breeding programs by conventional methods such as directed crosses, in order to obtain new cultivars, are unworkable in many countries, as in Brazil, mainly by small genetic variability found, and by the difficulty for obtaining plants originated from the fusion of gametes, since the wasp Blastophaga psenes, responsible for natural pollination, doesn`t exist in the country. In this way, the genetic breeding, with the use of mutagenic, becomes an important research line for the improvement of culture, being necessary to gather information about this species, mainly in relation to its genetic variability, for perform propagation projects and appropriate management. Given the above, The objective of this study was to verify the existence of epigenetic variability due to DNA methylation in irradiated fig selections, with each other and when compared to the main commercial cultivar, Roxo-de-Valinhos, using MSAP and ELISA techniques, and subsequent DNA sequencing, treated with sodium bisulfite, for detection of the position of the polymorphic regions, analyzed by bioinformatics tools. Samples of genomic DNA were double-digested with the HpaII enzyme (sensitive to methylation) with its isoschizomer MspI (insensitive to methylation), together with the EcoRI enzyme. Fourteen primer combinations were tested and it was obtained 87.9%, 10.1% e 2.0%, respectively, unmethylated CCGG, methylated CmCGG and hemimethylated regions hmCCGG, from a total of 553 amplification products, displaying, the MSAP technique, efficient for detection of differentially methylated sites in the genomic material studied, demonstrating their epigenetic divergence. With the sequencing of DNA isolated of these differentially methylated sites, it was possible to verify different patterns of methylation in them by sequencing the DNA treated with sodium bisulfite, in coding regions of regulatory genes of the development and fruits ripening, besides they have been found in the mitochondrial DNA of treatments, which regulates the supply of energy in ATP form for the plants, being closely related to their development, justifying the different phenotypes found in both fruits and plant growth that suffered stress due to exposure to gamma radiation. By the technique of immunochemistry (ELISA), using 5-mC antibodies, significant differences were observed by Tukey test, at 95% of trustworthiness, in the global content methylation of the treatments DNA, indicating that this abiotic factor was responsible for the changes in the epigenome of the plants. Since the material used as control was found also methylated, a supposed demethylation of the genomic material may be responsible for phenotypic variation among treatments. Considering this, future study of gene expression between treatments becomes an extreme important strategy for understanding the complex regulatory systems, leading to the identification of genes with agronomic interest for the fig culture, allowing its subsequent manipulation and propagation of improved cultivars for commercial purposes.
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Análise da Metilação do DNA de Seleções de Figueira (Ficus carica L.) por MSAP e Sequenciamento / Analysis of Fig (Ficus carica L.) Selections DNA Methylation by MSAP and SequencingMaria Gabriela Fontanetti Rodrigues 25 March 2015 (has links)
Os programas de melhoramento de figueira (Ficus carica L.) por métodos convencionais tais como cruzamentos dirigidos, para a obtenção de novos cultivares, são inviáveis em muitos países, como no Brasil, principalmente pela pequena variabilidade genética encontrada, e pela dificuldade de obtenção de plantas originadas pela fusão de gametas, uma vez que a vespa Blastophaga psenes, responsável pela polinização natural, não existe no país. Desse modo, o melhoramento genético, com o uso de mutagênicos, se torna uma linha de pesquisa importante para a melhoria da cultura, sendo necessário reunir informações sobre essa espécie, principalmente, em relação à sua variabilidade genética, para que projetos de propagação e manejo adequados sejam realizados. Diante do exposto, o objetivo do presente trabalho foi verificar a existência de variabilidade epigenética devido à metilação do DNA em seleções irradiadas de figueiras, entre si e quando comparadas ao principal cultivar comercial, Roxo-de-Valinhos, utilizando as técnicas de MSAP e ELISA, e posterior sequenciamento do DNA, tratado com bissulfito de sódio, para detecção do posicionamento das regiões polimórficas, analisado por ferramentas de bioinformática. Amostras do DNA genômico foram duplamente digeridas com a enzima HpaII (sensível à metilação) ou com o seu isoesquizomero MspI (não sensível à metilação), juntamente com a enzima EcoRI. Foram testadas 14 combinações de primers e obteve-se 87.9%, 10.1% e 2.0%, respectivamente, de regiões não metiladas CCGG, regiões metiladas CmCGG e regiões hemimetiladas hmCCGG, de um total de 553 produtos de amplificação, demostrando que a técnica MSAP é eficiente para detecção de sítios diferencialmente metilados no material genômico estudado, evidenciando sua divergência epigenética. Com o sequenciamento do DNA isolado desses sítios diferencialmente metilados, foi possível verificar diferentes padrões de metilação nos mesmos pelo sequenciamento dos DNAs tratados com bissulfito de sódio, em regiões codificadoras de genes regulatórios do desenvolvimento e amadurecimento dos frutos, além de terem sido encontrados no DNA mitocondrial dos tratamentos, o qual regula o fornecimento de energia em forma de ATP para as plantas, estando intimamente relacionado com o desenvolvimento das mesmas, justificando os diferentes fenótipos encontrados, tanto nos frutos, quanto no crescimento das plantas que sofreram estresse devido à exposição à radiação gama. Pela técnica de imunoquímica (ELISA), utilizando anticorpos anti 5-mC, foram observadas diferenças significativas pelo teste de Tukey, a 95 % de confiabilidade, no conteúdo global de metilação dos DNAs dos tratamentos, indicando que este fator abiótico foi responsável pelas alterações no epigenoma das plantas. Como o material utilizado como controle se encontrou também metilado, uma possível desmetilação dos materiais genômicos pode ser a responsável pela variação fenotípica entre os tratamentos. Diante disso, o estudo futuro da expressão gênica entre os tratamentos torna-se uma estratégia de extrema importância para o entendimento dos complexos sistemas regulatórios, levando à identificação de genes de interesse agronômico para a cultura da figueira, possibilitando a sua manipulação subsequente e propagação de cultivares melhorados para fins comerciais. / The fig tree (Ficus carica L.) breeding programs by conventional methods such as directed crosses, in order to obtain new cultivars, are unworkable in many countries, as in Brazil, mainly by small genetic variability found, and by the difficulty for obtaining plants originated from the fusion of gametes, since the wasp Blastophaga psenes, responsible for natural pollination, doesn`t exist in the country. In this way, the genetic breeding, with the use of mutagenic, becomes an important research line for the improvement of culture, being necessary to gather information about this species, mainly in relation to its genetic variability, for perform propagation projects and appropriate management. Given the above, The objective of this study was to verify the existence of epigenetic variability due to DNA methylation in irradiated fig selections, with each other and when compared to the main commercial cultivar, Roxo-de-Valinhos, using MSAP and ELISA techniques, and subsequent DNA sequencing, treated with sodium bisulfite, for detection of the position of the polymorphic regions, analyzed by bioinformatics tools. Samples of genomic DNA were double-digested with the HpaII enzyme (sensitive to methylation) with its isoschizomer MspI (insensitive to methylation), together with the EcoRI enzyme. Fourteen primer combinations were tested and it was obtained 87.9%, 10.1% e 2.0%, respectively, unmethylated CCGG, methylated CmCGG and hemimethylated regions hmCCGG, from a total of 553 amplification products, displaying, the MSAP technique, efficient for detection of differentially methylated sites in the genomic material studied, demonstrating their epigenetic divergence. With the sequencing of DNA isolated of these differentially methylated sites, it was possible to verify different patterns of methylation in them by sequencing the DNA treated with sodium bisulfite, in coding regions of regulatory genes of the development and fruits ripening, besides they have been found in the mitochondrial DNA of treatments, which regulates the supply of energy in ATP form for the plants, being closely related to their development, justifying the different phenotypes found in both fruits and plant growth that suffered stress due to exposure to gamma radiation. By the technique of immunochemistry (ELISA), using 5-mC antibodies, significant differences were observed by Tukey test, at 95% of trustworthiness, in the global content methylation of the treatments DNA, indicating that this abiotic factor was responsible for the changes in the epigenome of the plants. Since the material used as control was found also methylated, a supposed demethylation of the genomic material may be responsible for phenotypic variation among treatments. Considering this, future study of gene expression between treatments becomes an extreme important strategy for understanding the complex regulatory systems, leading to the identification of genes with agronomic interest for the fig culture, allowing its subsequent manipulation and propagation of improved cultivars for commercial purposes.
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A Novel Approach to Identify Candidate Imprinted Genes in HumansShapiro, Jonathan 21 March 2012 (has links)
Many imprinted genes are necessary for normal human development. Approximately 70 imprinted genes have been identified in humans. I developed a novel approach to identify candidate imprinted genes in humans using the premise that imprinted genes are often associated with nearby parent-of-origin-specific DNA differentially methylated regions (DMRs). I identified parent-of-origin-specific DMRs using sodium bisulfite-based DNA (CpG) methylation profiling of uniparental tissues, mature cystic ovarian teratoma (MCT) and androgenetic complete hydatidiform mole (AnCHM), and biparental tissues, blood and placenta. In support of this approach, the CpG methylation profiling led to the identification of parent-of-origin-specific differentially methylated CpG sites (DMCpGs) in known parent-of-origin-specific DMRs. I found new DMRs for known imprinted genes NAP1L5 and ZNF597. Most importantly, I discovered many new DMCpGs, which were associated with nearby genes, i.e., candidate imprinted genes. Allelic expression analyses of one candidate imprinted gene, AXL, suggested polymorphic imprinting of AXL in human blood.
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A Novel Approach to Identify Candidate Imprinted Genes in HumansShapiro, Jonathan 21 March 2012 (has links)
Many imprinted genes are necessary for normal human development. Approximately 70 imprinted genes have been identified in humans. I developed a novel approach to identify candidate imprinted genes in humans using the premise that imprinted genes are often associated with nearby parent-of-origin-specific DNA differentially methylated regions (DMRs). I identified parent-of-origin-specific DMRs using sodium bisulfite-based DNA (CpG) methylation profiling of uniparental tissues, mature cystic ovarian teratoma (MCT) and androgenetic complete hydatidiform mole (AnCHM), and biparental tissues, blood and placenta. In support of this approach, the CpG methylation profiling led to the identification of parent-of-origin-specific differentially methylated CpG sites (DMCpGs) in known parent-of-origin-specific DMRs. I found new DMRs for known imprinted genes NAP1L5 and ZNF597. Most importantly, I discovered many new DMCpGs, which were associated with nearby genes, i.e., candidate imprinted genes. Allelic expression analyses of one candidate imprinted gene, AXL, suggested polymorphic imprinting of AXL in human blood.
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