Bioquímica e Biologia Molecular
URI permanente desta comunidadehttps://locus.ufv.br/handle/123456789/11837
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Resultados da Pesquisa
Item Complete inventory of soybean NAC transcription factors: Sequence conservation and expression analysis uncover their distinct roles in stress response(Gene, 2009-09-01) Pinheiro, Guilherme L.; Marques, Carolina S.; Costa, Maximiller D.B.L.; Reis, Pedro A. B.; Alves, Murilo S.; Carvalho, Claudine M.; Fietto, Luciano G.; Fontes, Elizabeth P. B.We performed an inventory of soybean NAC transcription factors, in which 101 NAC domain-containing proteins were annotated into 15 different subgroups, showing a clear relationship between structure and function. The six previously described GmNAC proteins (GmNAC1 to GmNAC6) were located in the nucleus and a transactivation assay in yeast confirmed that GmNAC2, GmNAC3, GmNAC4 and GmNAC5 function as transactivators. We also analyzed the expression of the six NAC genes in response to a variety of stress conditions. GmNAC2, GmNAC3 and GmNAC4 were strongly induced by osmotic stress. GmNAC3 and GmNAC4 were also induced by ABA, JA and salinity but differed in their response to cold. Consistent with an involvement in cell death programs, the transient expression of GmNAC1, GmNAC5 and GmNAC6 in tobacco leaves resulted in cell death and enhanced expression of senescence markers. Our results indicate that the described soybean NACs are functionally non-redundant transcription factors involved in response to abiotic stresses and in cell death events in soybean.Item The soybean sucrose binding protein gene family: genomic organization, gene copy number and tissue‐specific expression of the SBP2 promoter(Journal of Experimental Botany, 2003-12-01) Contim, Luis Antônio S.; Waclawovsky, Alessandro J.; Delú‐Filho, Nelson; Pirovani, Carlos P.; Clarindo, Wellington R.; Loureiro, Marcelo E.; Carvalho, Carlos R.; Fontes, Elizabeth P. B.The sucrose binding protein (SBP) from soybean has been implicated as an important component of the sucrose uptake system. Two SBP genomic clones, gsS641.1 and gsS641.2, which correspond to allelic forms of the GmSBP2/S64 gene, have been isolated and characterized. As a member of the seed storage protein superfamily, it has been shown that the SBP gene structure is similar to vicilin genes with intron/exon boundaries at conserved positions. Fluores cence in situ hybridization (FISH) suggested that the soybean SBP gene family is represented by at least two non‐allelic genes corresponding to the previously isolated GmSBP1 and GmSBP2/S64 cDNAs. These two cDNAs share extensive sequence similarity but are located at different loci in the soybean genome. To investigate transcriptional activation of the GmSBP2 gene, 2 kb 5′‐flanking sequences of gsS641.1 and gsS641.2 were fused to the β‐glucuronidase (GUS) reporter gene and to the green fluorescent protein (GFP) reporter gene and inde pendently introduced into Nicotiana tabacum by Agrobacterium tumefaciens‐mediated transformation. The SBP2 promoter directed expression of both GUS and GFP reporter genes with high specificity to the phloem of leaves, stems and roots. Thus, the overall pattern of SBP–GUS or SBP–GFP expression is consistent with the involvement of SBP in sucrose translocation‐dependent physiological processes.