Artigos - Periódicos Diversos
URI permanente desta seçãohttps://sbicafe.ufv.br/handle/123456789/14736
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Item Seed storage proteins in coffee(Sociedade Brasileira de Fisiologia Vegetal, 2001) BAÚ, SANDRA M. T.; MAZZAFERA, PAULO; SANTORO, LUIZ G.It has been reported that Coffea arabica seeds contain as the main reserve protein, a legumin-like protein, constituted of two subunits, alpha and beta, of approximately 35 and 20 kDa. In this work the seed proteins of several coffee species and varieties were investigated by SDS-PAGE and gel filtration. No differences were observed in the electrophoretic profiles among varieties of C. arabica, however, marked differences were observed among species, or even among individuals of some species. In general, the molecular weight of the subunits alpha and beta accounted for a monomer of 48 to 62 kDa. However, native molecular weight obtained by gel filtration showed that for most of the species there is association of 6 of such proteins, in a hexamer. The most marked difference was observed for C. canephora and C. racemosa. The former clearly showing isoforms of the subunits, and the later showing absence of the beta subunit. The influence of proteases in this observations is discussed.Item Influence of air temperature on proteinase activity and beverage quality in Coffea arabica(Sociedade Botânica de São Paulo, 2012) Abreu, Hellen Marília Couto de; Nobile, Paula Macedo; Shimizu, Milton Massao; Yamamoto, Paula Yuri; Silva, Emerson Alves; Colombo, Carlos Augusto; Mazzafera, PauloFruits were collected from trees of Coffea arabica cv. Obatã grown at Mococa and Adamantina in São Paulo State, Brazil, which are regions with marked differences in air temperature that produce coffee with distinct qualities. Mococa is a cooler location that produces high-quality coffee, whereas coffee from Adamantina is of lower quality. The amino acid and protein contents, amino acid profile, and proteinase activity and type in endosperm protein extracts were analysed. Proteinase genes were identified, and their expression was assayed. All results indicate that temperature plays a role in controlling proteinase activity in coffee endosperm. Proteinase activity was higher in the endosperm of immature fruits from Adamantina, which was correlated with higher amino acid content, changes in the amino acid profile, and increased gene expression. Cysteine proteinases were the main class of proteinases in the protein extracts. These data suggest that temperature plays an important role in coffee quality by altering nitrogen compound composition.