Produção de plásticos biodegradáveis utilizando hidrolisado hemicelulósico de bagaço de cana-de-açúcar. / Production of biodegradable plastics using sugarcane bagasse hemicellulosic hydrolysate.

Lopes, Mateus Schreiner Garcez

15 June 2010

O objetivo deste trabalho foi produzir poli-3-hidroxibutirato (P3HB) e poli-3-hidroxibutirato-co-3-hidroxivalerato (PHB-co-3HV), polímeros biodegradáveis, utilizando hidrolisado hemicelulósico, rico em xilose, de bagaço de cana-de-açúcar. O estudo dos fluxos metabólicos de xilose in silico indicou que, através do redirecionamento do metabolismo, é possível aumentar o rendimento P3HB a partir de xilose de 0.25 g g-1 para 0.40 g g-1. Obtiveram-se mutantes no sistema repressão catabólica nos quais se verificaram consumo simultâneo de carboidratos e redução do tempo de consumo dos açúcares. Porém, diferenças de fluxos de carbono resultaram em menores valores de crescimento e produção de PH3B em relação às linhagens parentais. Um programa de bioprospecção destacou Burkholderia sp. F24, em experimentos em biorreator obteve-se 25.04 g l-1 de biomassa, 49.31% de acúmulo de P3HB na massa seca celular, alcançando uma produtividade de 0.28 g l-1 h-1. Além disso, foi possível controlar a fração molar de 3HV na síntese PHB-3HV em F24 utilizando xilose e ácido levulínico. / The aim of this thesis is to produce poly3-hydroxybutyrate (P3HB) and poli-3-hidroxibutirate-co-3-hydroxyvalerate (PHB-co-3HV), biodegradable polymers, using hemicellulosic hydrolysate, rich in xylose, from sugarcane bagasse. Metabolic flux analysis in silico of xylose metabolism indicated that, though metabolism redirection is possible to increase P3HB yield from 0.25 g g-1 to 0.40 g g-1. It was observed simultaneous consumption of sugars and reduction of time necessary to exhaust of all sugars in the media culture in mutants with catabolite repression partially abolished. However, differences in carbon flux resulted in lower growth and P3HB production in comparison to the parental strain. A bioprospecting program selected Burkholderia sp. F24, in experiments in bioreactor it reached 25.04 g l-1, 49.31% of P3HB accumulation of the dry cell mass and 0.28 g l-1 h-1 of productivity. Moreover, it was possible to modulate to molar fraction of 3HV in PHB-co-3HV biosyntheses with Burkholderia sp. F24 using xylose and levulinic acid.

Análise de fluxo metabólico

Biodegradable plastics (Production)

Biomass

Biomassa

Cana-de-açúcar

Catabolite repression

Enzimas hidrolíticas

Hidrólise

Hydrolysis

Hydrolytic enzymes

Metabolic flux analysis

Plásticos biodegradáveis (Produção)

Polihidroxialcanoatos

Polyhydroxyalkanoates

Repressão catabólica

Sugarcane

Xilose

Xylose

Produção de plásticos biodegradáveis utilizando hidrolisado hemicelulósico de bagaço de cana-de-açúcar. / Production of biodegradable plastics using sugarcane bagasse hemicellulosic hydrolysate.

Mateus Schreiner Garcez Lopes

15 June 2010

O objetivo deste trabalho foi produzir poli-3-hidroxibutirato (P3HB) e poli-3-hidroxibutirato-co-3-hidroxivalerato (PHB-co-3HV), polímeros biodegradáveis, utilizando hidrolisado hemicelulósico, rico em xilose, de bagaço de cana-de-açúcar. O estudo dos fluxos metabólicos de xilose in silico indicou que, através do redirecionamento do metabolismo, é possível aumentar o rendimento P3HB a partir de xilose de 0.25 g g-1 para 0.40 g g-1. Obtiveram-se mutantes no sistema repressão catabólica nos quais se verificaram consumo simultâneo de carboidratos e redução do tempo de consumo dos açúcares. Porém, diferenças de fluxos de carbono resultaram em menores valores de crescimento e produção de PH3B em relação às linhagens parentais. Um programa de bioprospecção destacou Burkholderia sp. F24, em experimentos em biorreator obteve-se 25.04 g l-1 de biomassa, 49.31% de acúmulo de P3HB na massa seca celular, alcançando uma produtividade de 0.28 g l-1 h-1. Além disso, foi possível controlar a fração molar de 3HV na síntese PHB-3HV em F24 utilizando xilose e ácido levulínico. / The aim of this thesis is to produce poly3-hydroxybutyrate (P3HB) and poli-3-hidroxibutirate-co-3-hydroxyvalerate (PHB-co-3HV), biodegradable polymers, using hemicellulosic hydrolysate, rich in xylose, from sugarcane bagasse. Metabolic flux analysis in silico of xylose metabolism indicated that, though metabolism redirection is possible to increase P3HB yield from 0.25 g g-1 to 0.40 g g-1. It was observed simultaneous consumption of sugars and reduction of time necessary to exhaust of all sugars in the media culture in mutants with catabolite repression partially abolished. However, differences in carbon flux resulted in lower growth and P3HB production in comparison to the parental strain. A bioprospecting program selected Burkholderia sp. F24, in experiments in bioreactor it reached 25.04 g l-1, 49.31% of P3HB accumulation of the dry cell mass and 0.28 g l-1 h-1 of productivity. Moreover, it was possible to modulate to molar fraction of 3HV in PHB-co-3HV biosyntheses with Burkholderia sp. F24 using xylose and levulinic acid.

Análise de fluxo metabólico

Biomassa

Cana-de-açúcar

Enzimas hidrolíticas

Hidrólise

Plásticos biodegradáveis (Produção)

Polihidroxialcanoatos

Repressão catabólica

Xilose

Biodegradable plastics (Production)

Biomass

Catabolite repression

Hydrolysis

Hydrolytic enzymes

Metabolic flux analysis

Polyhydroxyalkanoates

Sugarcane

Xylose

High throughput characterization of cell response to polymer blend phase separation

Zapata, Pedro José

12 July 2004

Combinatorial techniques, which overcome limitations of actual models of material research permitting to effectively address this large amount of variables, are utilized in this work to prepare combinatorial libraries of the blend of the biodegradable polymers Poly(e-caprolactone) and Poly(lactic acid). These libraries present continuous composition and temperature gradients in an orthogonal fashion that permit to obtain multiple surface morphologies with controllable microstructures due to the blends low critical solution phase behavior (LCST). The goal of this study is to investigate the effect of surface morphology (surface chemical patterning and surface topography) on cell behavior. The varied surface topography of the libraries is used as a valuable tool that permits to assay the interaction between MC3T3-E1 cells and hundreds of different values of critical surface properties, namely, surface roughness and microstructure size. The outcome of this tool is a rapid screening of the effect of surface topography on cell behavior that is orders of magnitude faster than the standard 1-sample for 1 measurement techniques. The results obtained show that cells are very sensitive to surface topography, and that the final effect of surface properties on cell function is intimately related with the stage of the cell developmental process. Meaning that, for example, areas with optimal characteristics to elicit enhancement of cell attachment is not necessarily the same that promotes cell proliferation. This study imparts an improved understanding of an often neglected factor in biomaterials performance: surface morphology (particularly surface topography). The results provide a new insight into the importance of taking into consideration both chemistry and physical surface features for superior biomaterial design.

Combinatorial

Phase separation

Polymers

Biomaterials

Tissue engineering

Osteoblast

Cell-surface interaction

High throughput

Tissue engineering

Surfaces (Technology) Analysis

Polymers Biodegradation

Combinatorial chemistry

Cells Morphology

Biomedical materials Design

Biodegradable plastics

微生物の高密度連続培養に関する研究

山根, 恒夫, 上田, 俊策

03 1900

科学研究費補助金 研究種目:一般研究(C) 課題番号:05650796 研究代表者:山根 恒夫 研究期間:1993-1994年度

生分解性プラスチック

連続培養

生産性

高密度培養

biodegradable plastics

生分解性プラスチックス

高密度連続培養

continuous culture

スタ-トアップ

高密度流加培養

Alcaligenes latus

high-cell-density

Paracoccus denitrificans

遺伝子クロ-ニング

productivity