Integration of first and second generation bioethanol processes using edible filamentous fungus Neurospora intermedia

Nair, Ramkumar B

January 2017

Establishing a commercial, lignocellulose-based, second-generation ethanol process has received several decades of attention by both researchers and industry. However, a fully economically viable process still remains a long-term goal. The main bottleneck to this achievement is the recalcitrance of lignocellulosic feedstocks, although there are several other factors, such as the huge investment required for second-generation ethanol facilities. An intelligent alternative solution discussed in this thesis is an integrated approach using firstgeneration ethanol plants for second-generation processes. Wheat is the major feedstock for first-generation ethanol in Europe; therefore, wheat-based lignocellulose waste, such as wheat straw, bran, and whole stillage fiber (a waste stream from first-generation wheat-based ethanol plants) was the primary focus of the integration model in this thesis. Since the major share of first-generation ethanol plant economics focuses on the animal feed DDGS (Distillers’ dried gains with solubles), the integration of lignocellulose should be designed in order to maintain DDGS quality. An ethanol-producing edible filamentous fungus, Neurospora intermedia, a potential protein source in DDGS, was considered for use as the fermenting microbe. The morphological and physiological aspects of this fungus were studied in the thesis, leading to the first report of fungal pellet development. An alternative approach of using dilute phosphoric acid to pretreat lignocellulose, as it does not negatively affect fungal growth or DDGS quality, was demonstrated in both the laboratory and on a 1m3 pilot scale. Furthermore, the process of hydrolysis of pretreated lignocelluloses and subsequent N. intermedia fermentation on lignocellulose hydrolysate was also optimized in the laboratory and scaled up to 1 m3 using an in-house pilot-scale airlift bioreactor. Fungal fermentation on acid-pretreated and enzyme-hydrolyzed wheat bran, straw and whole stillage fiber resulted in a final ethanol yield of 95%, 94% and 91% of the theoretical maximum based on the glucan content of the substrate, respectively. Integrating the first- and second-generation processes using thin stillage (a waste stream from first-generation wheat-based ethanol plants) enhanced the fungal growth on straw hydrolysate, avoiding the need for supplementing with extra nutrients. Based on the results obtained from this thesis work, a new model for integrated first- and second-generation ethanol using edible filamentous fungi processes that also adds value to animal feed (DDGS) was developed.

First- and second-generation bioethanol

Integration

Neurospora intermedia

Edible filamentous fungi

Wheat straw

Wheat bran

Whole stillage fiber

Natural Sciences

Naturvetenskap

Estudo de interações eletrostáticas no processo de enovelamento e na estabilidade de proteínas utilizando modelos simplificados / Study of electrostatic interactions in protein folding process and in native state stability using simple models

Contessoto, Vinícius de Godoi [UNESP]

16 August 2016

Submitted by Vinicius de Godoi Contessoto null (vinicius@sjrp.unesp.br) on 2016-09-09T18:11:23Z No. of bitstreams: 1 Tese-Vinícius_Contessoto-Final.pdf: 17297320 bytes, checksum: f601c338b5bf6436dc595bad581418f5 (MD5) / Approved for entry into archive by Juliano Benedito Ferreira (julianoferreira@reitoria.unesp.br) on 2016-09-13T13:26:05Z (GMT) No. of bitstreams: 1 contessoto_vg_dr_sjrp.pdf: 17297320 bytes, checksum: f601c338b5bf6436dc595bad581418f5 (MD5) / Made available in DSpace on 2016-09-13T13:26:05Z (GMT). No. of bitstreams: 1 contessoto_vg_dr_sjrp.pdf: 17297320 bytes, checksum: f601c338b5bf6436dc595bad581418f5 (MD5) Previous issue date: 2016-08-16 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior (CAPES) / Entender a contribuição das interações eletrostáticas no processo de enovelamento e na estabilidade do estado nativo de proteínas é de grande relevância em biofísica molecular. Este trabalho possui duas frentes de estudos. Na primeira etapa é apresentado o estudo das interações eletrostáticas no processo de enovelamento utilizando modelos baseados em estruturas com cargas em dinâmica molecular com pH constante. O estudo foi realizado na parte N-terminal da proteína ribossomal L9 (NTL9), uma proteína com o mecanismo de enovelamento de 2 estados, reversível e realizado desde pH 1.0 até 12.0. Foi possível comparar os resultados das simulações com os resultados experimentais presentes na literatura e os dados obtidos indicam que o modelo proposto é capaz de capturar informações fundamentais sobre o processo de enovelamento referentes à estabilidade e dependência com pH. Na segunda etapa é apresentado o estudo sobre as interações eletrostáticas na estabilidade de enzimas com interesse na produção de bioetanol de segunda geração. O objetivo final deste trabalho é adequar as enzimas às condições do reator para a produção de bioetanol. Neste trabalho foi utilizada uma metodologia capaz de indicar possíveis mutações, pela otimização da interação carga–carga na superfície da proteína, que levam ao aumento de termostabilidade. Este trabalho conta com a colaboração do grupo experimental do Laboratório Nacional de Ciência e Tecnologia do Bioetanol (CTBE) que realizam os testes experimentais e as validações das mutações propostas. / The understanding of electrostatic interactions in protein folding process and in native state stability is important to molecular biophysics area. This work has two areas of interest. At first step it is presented the study about electrostatic interactions in the protein folding process using structure-based models in a constant pH molecular dynamics. It was used the N-terminal domain of ribosomal protein L9 (NTL9), which folding mechanism is a two-state pathway, fully reversible and foldable in a pH range from 1.0 to 12.0. The simulation results were compared with experimental results from literature and the obtained data indicates that the proposed model is capable of capturing essential features of folding mechanism about stability and pH dependence. At second step, it is presented the study about electrostatic interactions in stability of enzymes related with second generation bioethanol production. The final goal of this work is to adjust the enzymes to reactor conditions of bioethanol production. It was employed a method that can suggest rational mutation, based on optimization of charge-charge interactions, that leads to thermostability increase. This work can count on the collaboration of an experimental group of Brazilian Bioethanol Science and Technology Laboratory (CTBE) that performs the wet lab tests and validates the suggested mutations.

Mutações racionais

Otimização de enzimas

Bioetanol de segunda geração

Modelo de Tanford-Kirkwood

Termoestabilidade

Rational mutations

Enzyme optimization

Second generation bioethanol

Tanford-Kirkwood model

Constant-pH molecular dynamic method

Thermostability

Transcriptional regulation of wood formation in eucalyptus : Role of MYB transcription factors and protein-protein interactions / Régulation transcriptionnelle de la formation du bois chez l'eucalyptus : rôle des facteurs de transcription MYB et des interactions protéines-protéines

Plasencia Casadevall, Anna

15 December 2015

Notre objectif était de mieux comprendre la régulation de la biosynthèse des parois secondaires lors de la formation du bois chez l'Eucalyptus, le feuillu le plus planté au monde et le deuxième dont le génome est séquencé. Nous avons caractérisé trois facteurs de transcription de la famille MYB-R2R3 et montré que EgMYB137 était un nouveau régulateur de la biosynthèse des parois secondaires. Nous avons aussi démontré que l'activité transcriptionnelle de EgMYB1, un répresseur de la biosynthèse des lignines, était régulée par une interaction protéine-protéine impliquant une histone linker (EgH1.3). Enfin, nous avons mis au point une méthode de transformation homologue chez l'Eucalyptus via A. rhizogenes. Les " hairy roots " transgéniques sont adaptées à la caractérisation fonctionnelle de gènes reliés à la formation du xylème. Nos résultats ont permis de découvrir de nouveaux acteurs impliqués dans la régulation des parois secondaires, mettant en lumière la complexité de ce processus mais aussi offrant de nouvelles perspectives pour l'amélioration du bois pour des applications industrielles comme la production de bioéthanol de deuxième génération. / Our objective was to better understand the regulation of the biosynthesis of the lignified secondary cell walls during wood formation in Eucalyptus, the most planted hardwood tree, and the second whose genome has been sequenced. We functionally characterized three Eucalyptus transcription factors of the R2R3-MYB family and identified EgMYB137 as a new regulator of secondary cell wall deposition. We also showed that the transcriptional activity of EgMYB1, a repressor of lignin biosynthesis was modulated by protein-protein interactions involving a linker histone (EgH1.3). Finally, we set up a homologous transformation system for Eucalyptus using Agrobacterium rhizogenes. The transgenic hairy roots are suitable for high throughput functional characterization of cell wall-related genes. Our findings not only allowed getting new insights into the complexity of the network regulating secondary cell walls but also open new avenues to improve wood quality for industrial applications such as second-generation bioethanol.

Eucalyptus

Formation du bois

Xylème

Paroi secondaire

Lignine

Facteurs de transcription MYB

Histone linker

Hairy roots

Métabolites secondaires

Bioéthanol de deuxième génération

Eucalyptus

Wood formation

Xylem

Secondary cell wall

Lignin

MYB transcription factor

Linker histone

Hairy roots

Secondary metabolites

Second-generation bioethanol