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Protein network of FT1 and FT2 in poplar reproductionKim, Hyejin 07 August 2010 (has links)
Understanding the signaling mechanisms that determine juvenile-to-mature transition and bud fate is vital for controlling tree reproduction. FD-like proteins also appear to be important for initiating reproductive development. In this study, phylogenetic analysis showed that three FD-like genes (FDL1, FDL2, and FDL3) are present in the poplar genome. FDL1 and FDL2 are products of a recent whole genome duplication event while FDL3 escaped such duplication. Yeast two-hybrid assays demonstrated that FT1 and FT2 proteins interact with FDL3 protein, but not with FDL1 or FDL2 protein. Analysis of the expression levels of FD-like transcripts in Populus deltoides via quantitative real-time PCR showed that FDL3 abundantly expresses in the shoot apex where it probably interacts with FT1 in late winter and early spring. Following the duplication event, FDL1 and FDL2 appear to have diverged in function as they express in a number of tissues in the fall, winter, and spring.
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Interação entre a proteína celular hSlu7 e a proteína NS5 do vírus da febre amarelaGomes, Arieli Fernanda Gavioli 15 December 2011 (has links)
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Previous issue date: 2011-12-15 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / Introduction: The Yellow Fever is characterized by severe hepatitis, renal failure, hemorrhage, and rapid terminal events that lead to shock and death. This disease is caused by the infection with the Yellow Fever Virus (YFV), considered the prototype of the Flavivirus genus. Its mechanism of replication is not well known but includes interactions of viral RNA with cellular and viral proteins. The nonstructural protein 5 (NS5) is the largest and most conserved protein of the Flavivirus genus; it encodes RNA-dependent RNA polymerase (RdRp) domains, besides possessing many important functions during viral replication, such as genic regulation of host cells. The protein hSlu7 is a homologous human protein, which was isolated interacting with the U5 that is involved in the second the step of alternative splicing. The hSlu7 is a predominantly nuclear protein and participates at the alternative splicing, influencing the correct choice of the alternative AGs of exon 3' so that the spliceossome is able to bind and start alternative splicing. Objective: To characterize the interaction of the hSlu7 protein with the YFV-NS5 protein and its cellular localization during viral infection. Material and Method: We confirmed the interaction of various NS5 with human proteins by two-hybrid assays. Deletion mutants were constructed and co-transformed with hSlu7 in yeast to determine the minimal domain of NS5 required for interaction. The cellular localization of the hSlu7 fused with GFP during the response of vaccine strain 17D of YFV in cells Vero E6, marked with anti-NS4AB and anti-NS5 for detection of the infection was also tested. Results: hSlu7 interacts with initial and final portions of the RdRp and the cytoplasmic sublocalization of hSlu7 occurs in the cells infected with YFV. Conclusions: Our results suggest that hSlu7 interacts with the YFV by two-hybrid system and the cellular sublocalization occurs due to the presence of viral infection. Further studies using RNA interference should be addressed to confirm the cellular function of hSlu7 , and to evaluate which alterations that infected and uninfected cells will suffer with low levels of hSlu7. / Introdução: A Febre Amarela é uma doença decorrente da infecção pelo Vírus da Febre Amarela (YFV) que é um protótipo do gênero Flavivirus que provoca uma severa hepatite, falência renal, hemorragia, e eventos que rapidamente levam ao choque e morte do indivíduo. Os mecanismos de replicação genômico do YFV não são bem conhecidos. A proteína não estrutural 5 (NS5) é a maior proteína e a mais conservada dos Flavivirus, ela codifica a RNA polimerase dependente de RNA (RdRp). A hSlu7 é uma proteína celular, predominantemente nuclear, e foi isolada interagindo com a U5 no segundo passo do splicing alternativo. A hSlu7 auxilia na correta seleção dos AGs alternativos do exon 3 para a realização da reação de splicing. Objetivo: Caracterizar a interação de hSlu7 com a proteína NS5 de YFV, quanto a sua localização celular durante a infecção. Material e Método: Pelo sistema duplo-híbrido em leveduras utilizando plasmid-linkage avaliamos a interação de hSlu7 com deleções mutantes da RdRp de YFV, e a localização celular de GFP-hSlu7 durante a replicação da cepa vacinal 17D de YFV em cultura de células Vero E6, marcadas com anticorpos NS4AB e NS5 para detecção da infecção. Resultados: A hSlu7 interage com as porções inicial e final da RdRp, e a sublocalização citoplasmática de hSlu7, ocorre nas células infectadas com YFV. Conclusão: Nossos resultados sugerem que a hSlu7 possui uma sublocalização celular durante a replicação do YFV, além de interagir com a RdRp viral. Ainda será necessária a confirmação da função celular de hSlu7 utilizando RNA de interferência para avaliar quais as alterações que a célula não infectada e infectada sofrerá diante dos níveis baixos de hSlu7.
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