Seleção de um suporte sintético para imobilizar células do Botryospaheria rhodina e comparação da produção de lacase por células livres e imobilizadas

Covizzi, Luiz Gustavo [UNESP]

26 February 2007

Made available in DSpace on 2014-06-11T19:23:27Z (GMT). No. of bitstreams: 0 Previous issue date: 2007-02-26Bitstream added on 2014-06-13T19:09:12Z : No. of bitstreams: 1 covizzi_lg_me_sjrp.pdf: 1482206 bytes, checksum: 2f1c1f77dc261f160aba2bc3a1d1ffea (MD5) / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / O uso de células microbianas imobilizadas para aumentar a produção de metabólitos fúngicos em processos fermentativos tem mostrado altos rendimentos. Nesse trabalho foi avaliado pela primeira vez, a imobilização de células do Botryosphaeria rhodina, um fungo ligninolitico produtor constitutivo de lacases. Três suportes foram avaliados: Fibra Acrílica Fina (FAF); Espuma de Poliuretano Expandido (EPE); Espuma de Poliuretano Fibroso (EPF). O EPF foi o melhor suporte por ter mostrado uma imobilização mais homogenia das células. Um planejamento fatorial foi desenvolvido para otimizar a produção de lacases por células livres, na presença de álcool veratrílico (AV). A análise da superfície de resposta mostrou que 18mM como a melhor concentração de AV para a produção de lacases, usando-se 3 mL de homogeinato de células como inóculo (DOλ400nm 0.4-0.6) para 25 mL de meio de cultura em frascos de 125mL, a 180 rmp, durante 126 horas a 28ºC. O perfil de crescimento do fungo, associado a produção de lacase foram comparados na presença e na ausência de AV, usando-se células livres e células imobilizadas do B. rhodina. A imobilização aumentou aproximadamente 3 vezes a produção de lacases e manteve estável o nível de produção durante 6 reciclos. A imobilização de células do B. rhodina mostrou-se útil uma vez que economizou 72horas para atingir a maior produção de lacase, quando comparada com células livres e também aumentou a tolerância do fungo a concentrações mais altas de AV (500mM) / The use of microbial immobilized cells to increase the production of fungal metabolites in fermentation processes has showed higher yields. This work evaluated by the first time, the immobilization of Botryosphaeria rhodina cells, a ligninolytic fungus that produces laccase. Three carriers were evaluated: acrylic fine fiber (FAF), expanded polyurethane foam (EPE), and fiber polyurethane foam (EPF). The EPF was the best carrier because showed a homogeneous immobilization cells. A factorial design was developed in order to optimize the laccase production by free cells in the presence of the laccase inducer veratryl alcohol (VA). The analysis by response surface answer showed 18 mM as the best VA concentration to produce laccase using 3 mL of a cell homogenate (ODλ400nm 0.4-0.6) as inoculum, to 25 mL of culture medium in shaked flasks (125 mL) at 180 rpm, during 126 hours at 28 °C. A growth profile for laccase and fungal biomass production were compared with and without VA using free and immobilized cells of B. rhodina. The cell immobilization increased approximately 3 folds the laccase production and maintained it stable during 6 consecutive recycles. The cell immobilization of B. rhodina showed to be useful once saved 72 hours to achieve the higher laccase production when compared to the one with free cells, and also increased the fungal cell tolerance at higher VA concentrations (500 mM)

Micologia aplicada

Microbiologia industrial

Biotecnologia

Fungo ascomiceto

Imobilização de células

Lacases

Botryosphaeria rhodina

Accase production with immobilized cells

Veratryl alcohol

Carriers

Polyurethane foam

Cell immobilization

Seleção de um suporte sintético para imobilizar células do Botryospaheria rhodina e comparação da produção de lacase por células livres e imobilizadas /

Covizzi, Luiz Gustavo.

January 2007

Orientador: Roberto da Silva / Banca: Crispin Humberto Garcia Cruz / Banca: Aneli de Melo Barbosa / Resumo: O uso de células microbianas imobilizadas para aumentar a produção de metabólitos fúngicos em processos fermentativos tem mostrado altos rendimentos. Nesse trabalho foi avaliado pela primeira vez, a imobilização de células do Botryosphaeria rhodina, um fungo ligninolitico produtor constitutivo de lacases. Três suportes foram avaliados: Fibra Acrílica Fina (FAF); Espuma de Poliuretano Expandido (EPE); Espuma de Poliuretano Fibroso (EPF). O EPF foi o melhor suporte por ter mostrado uma imobilização mais homogenia das células. Um planejamento fatorial foi desenvolvido para otimizar a produção de lacases por células livres, na presença de álcool veratrílico (AV). A análise da superfície de resposta mostrou que 18mM como a melhor concentração de AV para a produção de lacases, usando-se 3 mL de homogeinato de células como inóculo (DOλ400nm 0.4-0.6) para 25 mL de meio de cultura em frascos de 125mL, a 180 rmp, durante 126 horas a 28ºC. O perfil de crescimento do fungo, associado a produção de lacase foram comparados na presença e na ausência de AV, usando-se células livres e células imobilizadas do B. rhodina. A imobilização aumentou aproximadamente 3 vezes a produção de lacases e manteve estável o nível de produção durante 6 reciclos. A imobilização de células do B. rhodina mostrou-se útil uma vez que economizou 72horas para atingir a maior produção de lacase, quando comparada com células livres e também aumentou a tolerância do fungo a concentrações mais altas de AV (500mM) / Abstract: The use of microbial immobilized cells to increase the production of fungal metabolites in fermentation processes has showed higher yields. This work evaluated by the first time, the immobilization of Botryosphaeria rhodina cells, a ligninolytic fungus that produces laccase. Three carriers were evaluated: acrylic fine fiber (FAF), expanded polyurethane foam (EPE), and fiber polyurethane foam (EPF). The EPF was the best carrier because showed a homogeneous immobilization cells. A factorial design was developed in order to optimize the laccase production by free cells in the presence of the laccase inducer veratryl alcohol (VA). The analysis by response surface answer showed 18 mM as the best VA concentration to produce laccase using 3 mL of a cell homogenate (ODλ400nm 0.4-0.6) as inoculum, to 25 mL of culture medium in shaked flasks (125 mL) at 180 rpm, during 126 hours at 28 °C. A growth profile for laccase and fungal biomass production were compared with and without VA using free and immobilized cells of B. rhodina. The cell immobilization increased approximately 3 folds the laccase production and maintained it stable during 6 consecutive recycles. The cell immobilization of B. rhodina showed to be useful once saved 72 hours to achieve the higher laccase production when compared to the one with free cells, and also increased the fungal cell tolerance at higher VA concentrations (500 mM) / Mestre

Micologia aplicada.

Microbiologia industrial.

Biotecnologia.

Botryosphaeria rhodina. eng

Veratryl alcohol. eng

Carriers. eng

Polyurethane foam. eng

Cell immobilization. eng

Comparative Mapping of QTLs Affecting Oil Content, Oil Composition, and other Agronomically Important Traits in Oat (Avena sativa L.)

Hizbai, Biniam T.

January 2012

Groat oil content and composition are important quality traits in oats (Avena sativa L). These traits are controlled by many genes with additive effects. The chromosomal regions containing these genes, known as quantitative trait loci (QTL), can be discovered through their close association with markers. This study investigated total oil content and fatty acid components in an oat breeding population derived from a cross between high oil ('Dal') and low oil ('Exeter') parents. A genetic map consisting of 475 DArT (Diversity Array Technology) markers spanning 1271.8 cM across 40 linkage groups was constructed. QTL analysis for groat oil content and composition was conducted using grain samples grown at Aberdeen, ID in 1997. QTL analysis for multiple agronomic traits was also conducted using data collected from hill plots and field plots in Ottawa, ON in 2010. QTLs for oil content, palmitic acid (16:0), stearic acid (18:0), oleic acid (18:1), linoleic acid (18:2) and linolenic acid (18:3) were identified. Two of the QTLs associated with oil content were also associated with all of the fatty acids examined in this study, and most oil-related QTL showed similar patterns of effect on the fatty acid profile. These results suggest the presence of pleiotropic effects on oil-related traits through influences at specific nodes of the oil synthesis pathway. In addition, 12 QTL-associated markers (likely representing nine unique regions) were associated with plant height, heading date, lodging, and protein content. The results of this study will provide information for molecular breeding as well as insight into the genetic mechanisms controlling oil biosynthesis in oat.

Oat (Avena sativa)

DArT markers

ACCase

DGAT

oil content

fatty acid biosynthesis

plant height

heading date

protein

lodging

marker assisted selection (MAS)

Triacylglycerol (TAG)

oil profile

Herbicide resistance in grain sorghum

Kershner, Kellan Scott

January 1900

Doctor of Philosophy / Department of Agronomy / Kassim Al-Khatib / Mitchell R. Tuinstra / Sorghum acreage is declining throughout the United States because management options and yield have not maintained pace with maize improvements. The most extreme difference has been the absence of herbicide technology development for sorghum over the past twenty years. The objectives of this study were to evaluate the level of resistance, type of inheritance, and causal mutation of wild sorghums that are resistant to either acetyl-coenzyme A carboxylase (ACCase)-inhibiting herbicides or acetohydroxyacid synthase (AHAS)-inhibiting herbicides. ACCase-inhibiting herbicides used in this study were aryloxyphenoxypropionate (APP) family members fluazifop-P and quizalofop-P along with cyclohexanedione (CHD) family members clethodim and sethoxydim. The level of resistance was very high for APP herbicides but low to nonexistent to CHD herbicides. With genetic resistance to APP herbicides, the resistance factors, the ratio of resistance to susceptible, were greater than 54 to 64 for homozygous individuals and greater than 9 to 20 for heterozygous individuals. Resistance to CHD herbicides was very low with resistance factors ranging from one to about five. Genetic segregation studies indicate a single gene is the cause of resistance to APP herbicides. Sequencing identified a single mutation that results in cysteine replacing tryptophan (Trp-2027-Cys). Trp-2027-Cys has previously been reported to provide resistance to APP but not CHD herbicides. The other wild sorghum evaluated in this study was resistant to AHAS-inhibiting herbicides including imidazolinone (IM) family member, imazapyr, and sulfonylurea (SU) family member, nicosulfuron. Resistance factors in this genotype were very high, greater than 770 for the IM herbicide and greater than 500 for the SU herbicide, for both herbicide chemical families. Genetic segregation studies demonstrate that resistance was controlled by one major locus and two modifier loci. DNA sequencing of the AHAS gene identified two mutations, Val-560-Ile and Trp-574-Leu. Val-560-Ile is of unknown importance, but valine and isoleucine are similar and residue 560 is not conserved. Trp-574 is a conserved residue and Leu-574 is a known mutation that provides strong cross resistance to IM and SU herbicides. The results of these studies suggest that these sources of APP, SU, and IM resistance may provide useful herbicide resistance traits for use in sorghum.

Acelolactate synthase (ALS)

Acetohydroxyacid synthase (AHAS)

Herbicide resistance weeds dose response

Acetyl-coenzyme A carboxylase (ACCase)

Agronomy (0285)

Genetics (0369)

Plant Sciences (0479)