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<p>Several bacterias are potencial resistent to Hg, among those there are Serratia marcescens, Pseudomonas putida, Cupriavidus metallidurans and Entereobacter (GIOVANELLA et al. 2010). The resistance occurs due a set of genes that direct enhance the methabolism and mercury capture (BIONDO 2008). One of these proteins is the phytochelatin, which has the ability to interact with heavy metals due its cystein amino acids having strong affinity to metals (BIONDO; R. 2008).</p> | <p>Several bacterias are potencial resistent to Hg, among those there are Serratia marcescens, Pseudomonas putida, Cupriavidus metallidurans and Entereobacter (GIOVANELLA et al. 2010). The resistance occurs due a set of genes that direct enhance the methabolism and mercury capture (BIONDO 2008). One of these proteins is the phytochelatin, which has the ability to interact with heavy metals due its cystein amino acids having strong affinity to metals (BIONDO; R. 2008).</p> | ||
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<p>The use of natural proteins from cell membrane to anchor heterologous proteins as cellsurface display shows great potential in the biotech field. Using this strategy many pepitites , were already anchored with several purposes such production of antibodies, biocatalizers, bioremediators and others (WERNÉRUS; STÅHL., 2004). For heavy metal bioremediation was showed that recombinants with cellsurface display enriched with chelant proteins have better performance in adsortion of metalic ions when compared with heavy molecular engineered devices (BIONDO, R. 2008).</p> | <p>The use of natural proteins from cell membrane to anchor heterologous proteins as cellsurface display shows great potential in the biotech field. Using this strategy many pepitites , were already anchored with several purposes such production of antibodies, biocatalizers, bioremediators and others (WERNÉRUS; STÅHL., 2004). For heavy metal bioremediation was showed that recombinants with cellsurface display enriched with chelant proteins have better performance in adsortion of metalic ions when compared with heavy molecular engineered devices (BIONDO, R. 2008).</p> | ||
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<p>Nowadays there are several strategies to anchor protein in membranes. In this project we used the most abundant cell membrane protein in E. coli, the outer membrane A (OmpA) fused to a synthetic phytochelatin in order to bio-accumulate mercury. </p> | <p>Nowadays there are several strategies to anchor protein in membranes. In this project we used the most abundant cell membrane protein in E. coli, the outer membrane A (OmpA) fused to a synthetic phytochelatin in order to bio-accumulate mercury. </p> | ||
Revision as of 16:53, 17 October 2016
Project
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Aliquam lorem elit, molestie in nunc id, viverra iaculis augue. Praesent sed gravida lorem, vel sollicitudin turpis. Mauris efficitur ligula blandit lorem auctor lacinia. Etiam vitae justo nibh. Curabitur vehicula purus auctor lacus vestibulum feugiat. Pellentesque ex dui, pretium nec odio vitae, efficitur volutpat risus. Curabitur mollis tortor et hendrerit sodales. Nam id leo sit amet libero varius luctus. Nullam mollis mauris nec magna iaculis cursus. Nunc convallis fringilla nisl, ut scelerisque urna laoreet in. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Sed vitae ante viverra, luctus dolor et, rutrum tellus. Etiam in mollis turpis. Ut eu tellus id nunc congue cursus. Phasellus non leo ut ante ultricies sodales. Mauris congue lectus dui.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Aliquam lorem elit, molestie in nunc id, viverra iaculis augue. Praesent sed gravida lorem, vel sollicitudin turpis. Mauris efficitur ligula blandit lorem auctor lacinia. Etiam vitae justo nibh. Curabitur vehicula purus auctor lacus vestibulum feugiat. Pellentesque ex dui, pretium nec odio vitae, efficitur volutpat risus. Curabitur mollis tortor et hendrerit sodales. Nam id leo sit amet libero varius luctus. Nullam mollis mauris nec magna iaculis cursus. Nunc convallis fringilla nisl, ut scelerisque urna laoreet in. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Sed vitae ante viverra, luctus dolor et, rutrum tellus. Etiam in mollis turpis. Ut eu tellus id nunc congue cursus. Phasellus non leo ut ante ultricies sodales. Mauris congue lectus dui.
Several bacterias are potencial resistent to Hg, among those there are Serratia marcescens, Pseudomonas putida, Cupriavidus metallidurans and Entereobacter (GIOVANELLA et al. 2010). The resistance occurs due a set of genes that direct enhance the methabolism and mercury capture (BIONDO 2008). One of these proteins is the phytochelatin, which has the ability to interact with heavy metals due its cystein amino acids having strong affinity to metals (BIONDO; R. 2008).
The use of natural proteins from cell membrane to anchor heterologous proteins as cellsurface display shows great potential in the biotech field. Using this strategy many pepitites , were already anchored with several purposes such production of antibodies, biocatalizers, bioremediators and others (WERNÉRUS; STÅHL., 2004). For heavy metal bioremediation was showed that recombinants with cellsurface display enriched with chelant proteins have better performance in adsortion of metalic ions when compared with heavy molecular engineered devices (BIONDO, R. 2008).
Nowadays there are several strategies to anchor protein in membranes. In this project we used the most abundant cell membrane protein in E. coli, the outer membrane A (OmpA) fused to a synthetic phytochelatin in order to bio-accumulate mercury.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Aliquam lorem elit, molestie in nunc id, viverra iaculis augue. Praesent sed gravida lorem, vel sollicitudin turpis. Mauris efficitur ligula blandit lorem auctor lacinia. Etiam vitae justo nibh. Curabitur vehicula purus auctor lacus vestibulum feugiat. Pellentesque ex dui, pretium nec odio vitae, efficitur volutpat risus. Curabitur mollis tortor et hendrerit sodales. Nam id leo sit amet libero varius luctus. Nullam mollis mauris nec magna iaculis cursus. Nunc convallis fringilla nisl, ut scelerisque urna laoreet in. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Sed vitae ante viverra, luctus dolor et, rutrum tellus. Etiam in mollis turpis. Ut eu tellus id nunc congue cursus. Phasellus non leo ut ante ultricies sodales. Mauris congue lectus dui.
Lorem ipsum dolor sit amet, consectetur adipiscing elit. Aliquam lorem elit, molestie in nunc id, viverra iaculis augue. Praesent sed gravida lorem, vel sollicitudin turpis. Mauris efficitur ligula blandit lorem auctor lacinia. Etiam vitae justo nibh. Curabitur vehicula purus auctor lacus vestibulum feugiat. Pellentesque ex dui, pretium nec odio vitae, efficitur volutpat risus. Curabitur mollis tortor et hendrerit sodales. Nam id leo sit amet libero varius luctus. Nullam mollis mauris nec magna iaculis cursus. Nunc convallis fringilla nisl, ut scelerisque urna laoreet in. Lorem ipsum dolor sit amet, consectetur adipiscing elit. Sed vitae ante viverra, luctus dolor et, rutrum tellus. Etiam in mollis turpis. Ut eu tellus id nunc congue cursus. Phasellus non leo ut ante ultricies sodales. Mauris congue lectus dui.