Purification and characterization of fructosyltransferase for the synthesis of short-chain fructo-oligosaccharides and investigation into thier anti-carcinogenic properties

Nemukula, Aluwani

January 2009

There is a growing attention in the synthesis of fructo-oligosaccharides (FOS) due to their excellent bio-functional and health-promoting properties. The current production processes are limited to chemical hydrolysis reactions of plant extracts, which are often associated with several drawbacks. In this study, fructosyltransferase (FTase) and polygalacturonase (PGase) activities, present in a commercial enzyme preparation (Pectinex® Ultra SP-L) sourced from Aspergillus aculeatus, have been separated and fully purified by anion-exchange and sizeexclusion chromatography. The FTase possesses fructosyl transfer activity for FOS synthesis and the PGase has pectin hydrolytic activity. Fructosyltransferase is a single-band protein with a molecular weight of 85 kDa, whereas PGase is a distinct protein of 40 kDa. The temperature and pH optima of FTase were 60 ºC and 6.0, with a half-life of 8 h; while that for PGase were 40 ºC and 6.0, respectively. FTase was slightly inhibited in the presence of Ni²⁺, Mg²⁺ and urea; but PGase was more susceptible to divalent ions such as Ca²⁺, Mg²⁺ and Mn²⁺. The kinetic parameters (Km and Vmax) of FTase for the hydrolysis of β-(2→1) linkages from sucrose were 752.3 mM and 120.5 μmol.min⁻¹.mL⁻¹, respectively; whereas the same parameters for pectin hydrolysis by PGase were 13.0 mg.mL⁻¹ and 263 μmol.min-1.mL⁻¹, respectively. The purified FTase was able to transfer fructosyl residues from sucrose, synthesizing the corresponding chains of FOS. PGase was relatively stable at 40 ºC (t½ > 3 h), depolymerizing the pectin backbone while releasing the inulins from within the chicory roots. Analysis of various mixtures of FOS by mass spectrometry, HPLC and ¹H-NMR was undertaken. Results indicated that MS with electrospray ionization and ¹H-NMR are capable of providing relative quantitative data of the FOS present in the mixtures. The pharmaceutical effects of various sc-FOS (0.5%, v/v) and SCFA (0.3%, v/v) on certain bacterial enzymes (β-glucuronidase, urease and β-glucosidase) associated with the formation of carcinogens were also studied. These enzyme activities were not directly influenced by the sc-FOS, but were found to be remarkably decreased by SCFA, pointing toward the prebiotic effect of FOS in intestinal microflora modulation.

Oligosaccharides

Polygalacturonase

Aspergillus

Fructose

Inulin

Cancer -- Prevention

Cancer -- Research

Carcinogens

High performance liquid chromatography

Development of the polygalacturonase inhibiting protein (PGIP) for delivery of foreign proteins to the surfaces of plant cells

Feltman, Natalie Ruth

22 February 2012

Polygalacturonase-inhibiting proteins (PGIPs) are cell wall-associated plant proteins that inhibit endopolygalacturonases (endo-PGs) from phytopathogenic fungi. For proteins to confer resistance to invading plant pathogens, it is preferred that they are either associated with the plant cell wall or secreted into the intercellular spaces where they can act almost immediately upon pathogen attack. The bactericidal efficacy of the Hen Egg White Lysozyme (HEWL) has previously been unequivocally demonstrated in transgenic plants; however, most of the protein remains intracellular. It was hypothesized that bean PGIP1, that has previously been expressed correctly in transgenic tomato plants and was found to inhibit the endopolygalacturonase activity of Stenocarpella maydis in a reducing sugar assay, would deliver the HEWL protein to the intercellular spaces due to its inherent translocation to the plant cell wall by means of a translational fusion between bean pgip1 and hewl genes. In this study, the efficacy of such a translational fusion was determined. The bean pgip1-hewl fusion was inserted into the binary vector pCAMBIA2300 and transformed into Nicotiana tabacum cv. LA Burley 21 plants by Agrobacterium-mediated transformation. Phenotypically normal transgenic plants were produced. Stable transgene insertion into the transgenic N. tabacum genomes was verified by PCR and Southern blot analyses. To demonstrate the efficacy of the bean PGIP1-HEWL fusion, independent homogenate and intercellular fluid protein extracts were prepared from transgenic N. tabacum leaf material. Protein extracts prepared so as to enrich for PGIP activity were tested in vitro for inhibition of S. maydis endo-PGs whereas protein extracts for HEWL activity were tested for lysis of Micrococcus luteus cells. Biochemical assays showed that bean PGIP1-HEWL inhibited S. maydis endo-PGs and cleaved M. luteus cell walls sufficiently to suggest that the PGIP1- HEWL fusion was structurally and functionally stable. Total protein extracts from the PGIP-HEWL and HEWL transgenic plants showed similar levels of HEWL specific activity, whereas intercellular fluid samples from PGIP-HEWL transgenic plants showed high activity in contrast to HEWL plants. With the success of showing protein activity in vitro of HEWL in intercellular spaces, bean PGIP1 can be recommended as a vehicle for delivery of other proteins to cell surfaces. Copyright 2006, University of Pretoria. All rights reserved. The copyright in this work vests in the University of Pretoria. No part of this work may be reproduced or transmitted in any form or by any means, without the prior written permission of the University of Pretoria. Please cite as follows: Feltman, NR 2006, Development of the polygalacturonase inhibiting protein (PGIP) for delivery of foreign proteins to the surfaces of plant cells, MSc dissertation, University of Pretoria, Pretoria, viewed yymmdd < http://upetd.up.ac.za/thesis/available/etd-07152008-111131 / > E416/gm / Dissertation (MSc)--University of Pretoria, 2012. / Plant Science / unrestricted

Phytopathogenic fungi

Plant cells

Foreign proteins

Pgip

Polygalacturonase inhibiting protein

UCTD

Studium produkce hydrolytických enzymů pro zpracování celulosového odpadu / The study of production of hydrolytic enzymes for cellulose wastes treatment

Řezáčová, Barbora

January 2011

The study of production of hydrolytic enzymes dealt with the production of cellulase and polygalacturonase by two microbial strains - Aspergillus niger and Aureobasidium pullulans. The enzymes were produced in solid-state fermentation system. The wheat straw and sugar beet pulp were used as a substrate. The substrates were moistened by water, mineral solution or by medium with glucose. The effect of mineral solution and glucose on production of these enzymes were monitored during cultivation. The highest production of polygalacturonase was achieved by Aspergillus niger during cultivation on sugar beet pulp moistened by mineral solution. The highest production of cellulase was achieved by Aspergillus niger during cultivation on wheat straw moistened by medium with glucose.

Evaluation of the role of PGIPs in plant defense responses

Becker, John van Wyk, 1975-

12 1900

Dissertation (PhD)--University of Stellenbosch, 2007. / ENGLISH ABSTRACT: Plants have developed sophisticated means of combating plant diseases. The events that prepare the plant for, and follow plant-pathogenic interactions, are extremely complex and have been the topic of intensive investigation in recent years. These interactions involve a plethora of genes and proteins, and intricate regulation thereof; from the host and pathogen alike. Studying the contribution of single genes and their encoded proteins to the molecular dialogue between plant and pathogen has been a focus of plant molecular biologists. To this end, a gene encoding a polygalacturonase-inhibiting protein (PGIP) was recently cloned from Vitis vinifera. These proteins have the ability to inhibit fungal endopolygalacturonases (ePGs), enzymes which have been shown to be required for the full virulence of several fungi on their respective plant hosts. The activity of PGIP in inhibiting fungal macerating enzymes is particularly attractive for the improvement of disease tolerance of crop species. The VvPGIP-encoding gene was subsequently transferred to Nicotiana tabacum for high-level expression of VvPGIP. These transgenic plants were found to be less susceptible to infection by Botrytis cinerea in an initial detached leaf assay. Also, it was shown that ePG inhibition by protein extracts from these lines correlated to the observed decrease in susceptibility to B. cinerea. This study expands on previous findings by corroborating the antifungal nature of the introduced PGIP by whole-plant, timecourse infection assays. Six transgenic tobacco lines and an untransformed wildtype (WT) were infected and the lesions measured daily from day three to seven, and again at day 15. The transgenic lines exhibited smaller lesions sizes from three to seven days post-inoculation, although these differences only became statistically significant following seven days of incubation. At this point, four of the six lines exhibited significantly smaller lesions than the WT, with reductions in disease susceptibility ranging between 46 and 69% as compared to the WT. Two of the lines exhibited disease susceptibility comparable to the WT. In these resistant plant lines, a correlation could be drawn between Vvpgip1 expression, PGIP activity and ePG inhibition. These lines were therefore considered to be PGIP-specific resistant lines, and provided ideal resources to further study the possible in planta roles of PGIP in plant defense. The current hypothesis regarding the role(s) of PGIP in plant defense is twofold. Firstly, PGIPs have the ability to specifically and effectively inhibit fungal ePGs. This direct inhibition results in reduced fungal pathogenicity. Alternatively, unhindered action of these enzymes results in maceration of plant tissue and ultimately, tissue necrosis. Subsequently, it could be shown that, in vitro, the inhibition of ePGs prolongs the existence of oligogalacturonides, molecules with the ability to activate plant defense responses. Thus, PGIPs limit tissue damage by inhibition of ePG; this inhibition results in activation of plant defense responses aimed at limiting pathogen ingress. Several publications reported reduced susceptibility to Botrytis in transgenic plant lines overexpressing PGIP-encoding genes. However, none of these publications could expand on the current hypotheses regarding the possible in planta roles of PGIP in plant defense. In this study we used transgenic tobacco lines overexpressing Vvpgip1 as resources to study the in planta roles for PGIP. Transcriptomic and hormonal analyses were performed on these lines and a WT line, both before and following inoculation with Botrytis cinerea. Transcriptomic analysis was performed on uninfected as well as infected tobacco leaf material utilizing a Solanum tuberosum microarray. From the analysis with healthy, uninfected plant material, it became clear that genes involved in cell wall metabolism were differentially expressed between the transgenic lines and the WT. Under these conditions, it could be shown and confirmed that the gene encoding tobacco xyloglucan endotransglycosylase (XET/XTH) was downregulated in the transgenic lines. Additionally, genes involved in the lignin biosynthetic pathway were affected in the individual transgenic lines. Biochemical evidence corroborated the indication of increased lignin deposition in their cell walls. Additionally, phytohormone profiling revealed an increased indole-acetic acid content in the transgenic lines. These results show that constitutive levels of PGIP may affect cell wall metabolism in the Vvpgip1-transgenic lines which may have a positive impact on the observed reduced susceptibilities of these plants. An additional role for PGIP in the contribution to plant defenses is therefore proposed. PGIP may directly influence defense responses in the plant leading to the strengthening of cell walls. This might occur by virtue of its structural features or its integration in the cell wall. These reinforced cell walls are thus “primed” before pathogen ingress and contribute to the decrease in disease susceptibility observed in lines accumulating high levels of PGIP. Transcriptional and hormonal analyses, at the localized response, were performed on Botrytis-infected leaf tissue of the transgenic lines and a WT line. Several Botrytis responsive genes were found to be upregulated in both the WT and the transgenic lines. Although limited differential expression was observed between the two genotypes, the analyses identified a gene which was upregulated two-fold in the transgenic lines, as compared to WT. This was confirmed by quantitative Real-Time PCR. This gene is involved in the lipoxygenase pathway, specifically the 9-LOX branch, leading to the synthesis of the divinyl ether oxylipins colneleic and colnelenic acid, which show inhibitory effects on Botrytis spore germination. Phytohormone profiling revealed that the transgenic lines accumulated more of the defense-related hormone pool of jasmonates. These are formed via the 13-LOX pathway and have been shown to be important for the restriction of Botrytis growth at the site of infection. Collectively, the results from the infection analyses indicate that in these transgenic lines, both branches of the lipoxygenase pathway are differentially induced at the level of the localized response to Botrytis infection. Similarly, an increased induction of the synthesis of the defense-related hormone salicylic acid could be observed, although this hormone did not accumulate to significantly higher levels. These results are the first report of differential induction of a defense-related pathway in pgip-overexpressing lines and substantiate the proposal that following ePG inhibition by PGIP, signaling which activates plant defense responses, takes place. Taken together, these results significantly contribute to our understanding of the in planta role of PGIP in plant defense responses. / AFRIKAANSE OPSOMMING: Plante het deur evolusie gesofistikeerde meganismes teen die aanslag van plantsiektes ontwikkel. Die gebeure wat die plant voorberei, asook dié wat op plant-patogeen interaksies volg, is uiters kompleks en vorm die kern van verskeie navorsingstemas die afgelope paar jaar. Etlike plant- én patogeengene en proteïene is by hierdie interaksies betrokke en aan komplekse reguleringsprosesse onderworpe. Die bestudering van die bydrae van enkelgene en hul gekodeerde proteïene tot die molekulêre interaksie tussen ‘n plant en patogeen is ‘n sterk fokus van plant-molekulêre bioloë. Met hierdie doel as fokus, is ‘n geen wat vir ‘n poligalakturonaseinhiberende proteïen (PGIP) kodeer, van Vitis vinifera gekloneer. Hierdie proteïene beskik oor die vermoë om fungiese endopoligalakturonases (ePG's), ensieme wat benodig word vir die virulensie van verskeie fungi op hul gasheerplante, te inhibeer. Die inhibisie van ePG's deur PGIP en die gepaardgaande verminderde weefseldegradasie is ‘n baie belowende strategie vir die verbetering van verboude gewasse se patogeentoleransie. Die VvPGIPenkoderende geen is gevolglik na Nicotiana tabacum oorgedra vir hoëvlakuitdrukking van VvPGIP. Daar is gevind dat hierdie transgeniese plante minder vatbaar vir Botrytis cinerea-infeksies was in ‘n inisiële antifungiese toets wat gebruik gemaak het van blaarweefsel wat van die moederplant verwyder is. Daar is ook ‘n korrelasie gevind tussen B. cinerea-siekteweerstand en ePG-inhibisie deur proteïenekstrakte van die transgeniese populasie. Die huidige studie bou voort op en bevestig vorige bevindinge betreffende die antfungiese aard van die heteroloë PGIP in die heelplant en oor tyd. Ses transgeniese tabaklyne en 'n ongetransformeerde wilde-tipe (WT) is geïnfekteer en die lesies is vanaf dag drie tot sewe, en weer op dag 15, gemeet. Die transgeniese lyne het in die tydperk van drie tot sewe dae ná-inokulasie kleiner lesies as die WT getoon, alhoewel hierdie verskille slegs statisties beduidend geword het na sewe dae van inkubasie. Op daardie tydstip het vier van die ses lyne aansienlik kleiner lesies as die WT getoon, en verlagings in siektevatbaarheid het, in vergelyking met die WT, van 46% tot 69% gewissel. Twee van die lyne het siektevatbaarheid getoon wat vergelykbaar was met dié van die WT. In die siekteweerstandbiedende plantlyne was daar 'n verband tussen Vvpgip1-ekspressie, PGIP-aktiwiteit en ePG-inhibisie. Hierdie plantlyne is dus as PGIP-spesifieke siekteweerstandslyne beskou en dien dus as ideale eksperimentele bronne vir die ontleding van die moontlike in plantafunksies van PGIP in plantsiekteweerstandbiedendheid. Die huidige hipotese betreffende die funksie(s) van PGIP in plantsiekteweerstand is tweeledig. Eerstens het PGIP die vermoë om fungusePG's spesifiek en doeltreffend te inhibeer. Hierdie direkte inhibisie veroorsaak ‘n vermindering in patogenisiteit van die fungus op die gasheer. Indien ePG's egter hulle ensimatiese aksie onverstoord voortsit, sal weefseldegradasie en uiteindelik weefselnekrose die gevolg wees. Daar kon ook bewys word dat die in vitroinhibisie van ePG's deur PGIP die leeftyd van oligogalakturoniede, molekules wat die vermoë het om die plantweerstandsrespons aan te skakel, kan verleng. PGIP het dus nie net die vermoë om ePG's, en dus weefseldegradasie, te inhibeer nie; maar hierdie inhibisie lei ook daartoe dat plantweerstandsresponse aangeskakel word met die oog op die vermindering van patogeenindringing. Verskeie publikasies het reeds gerapporteer oor verminderde Botrytisvatbaarheid in PGIP transgeniese plantlyne. Geeneen van hierdie publikasies kon egter uitbrei op die huidige hipotese aangaande die moontlike in planta-funksie van PGIP in plantsiekteweerstand nie. In hierdie studie is transgeniese tabaklyne wat PGIP ooruitgedruk gebruik om hierdie moontlike in planta-funksies vir PGIP uit te klaar. Transkriptoom- en hormonale analises is op hierdie plantlyne en ‘n WT voor en ná inokulasie met die nekrotroof Botrytis cinerea uitgevoer,. Transkriptoomanalises is uitgevoer op ongeïnfekteerde, sowel as geïnfekteerde tabakblaarmateriaal deur gebruik te maak van ‘n Solanum tuberosum-mikroraster. Die analises met gesonde, ongeïnfekteerde plantmateriaal het daarop gewys dat gene betrokke by selwandmetabolisme tussen die transgeniese lyne en die WT verskillend uitgedruk was. Dit kon bewys word dat, sonder infeksiedruk, die geen wat xiloglukaan-endotransglikosilase (XET) kodeer, in die transgeniese lyne afgereguleer was. Gene wat betrokke is in die lignien-biosintetiese pad was ook in die individuele transgeniese lyne beïnvloed. Biochemiese toetse het ook die aanduiding van verhoogde ligniendeposisie in die transgeniese lyne se selwande bevestig. Addisionele fitohormoonprofiele het getoon dat hierdie lyne ook beskik oor verhoogde vlakke van indoolasynsuur (IAA). Hierdie resultate wys daarop dat konstitutiewe vlakke van PGIP selwandmetabolisme in die Vvpgip1-transgeniese lyne moontlik kan beïnvloed, wat plantsiekteweerstand in dié lyne positief kan beïnvloed. Dit wil dus voorkom asof PGIP 'n bykomende funksie in plantsiekteweerstand het. Plantweerstandsreponse kan direk deur PGIP beïnvloed word, wat tot die versterking van plantselwande kan lei; dit kan geskied by wyse van die strukturele eienskappe van die proteïen of die integrasie daarvan in die selwand. Hierdie selwande is dus “voorberei” alvorens patogeenindringing plaasvind en kon bydra tot die verminderde siektevatbaarheid wat waargeneem is in lyne wat hoë vlakke van PGIP akkumuleer. Transkriptoom- en hormonale analises is ook uitgevoer op Botrytisgeïnfekteerde blaarmateriaal van beide die transgeniese lyne en ‘n WT. Verskeie Botrytis-responsgene is in beide die transgeniese lyne en die WT opgereguleer. Differensïele geenekspressie tussen die twee genotipes was taamlik beperk, maar in die analises kon ‘n geen geïdentifiseer word wat tweevoudig in die transgeniese lyne opgereguleer was in vergelyking met die WT. Hierdie resultaat is ook bevestig met behulp van die “Real-Time” Polimerasekettingreaksie (PKR). Hierdie geen is betrokke in die lipoksigenase (LOX) -pad (spesifiek die 9-LOXarm), wat tot die sintese van die diviniel-eter oksilipiene “colneleic-” en “colnelenic”-suur lei. Daar is al bewys dat hierdie twee verbindings Botrytisspoorontkieming kan inhibeer. Fitohormoonprofiele van die geïnfekteerde plante het gewys dat die transgeniese lyne verhoogde vlakke van die poel van jasmonate wat plantsiekteweerstands-hormone is, ná inokulasie akkumuleer. Hierdie hormone word in die 13-LOX-arm van die lipoksigenase pad gevorm en is belangrik vir die beperking van Botrytis by die infeksiesetel. Die resultate van die analises wat op Botrytis-infeksie volg, dui daarop dat beide arms van die lipoksigenasepad in die transgeniese lyne verskillend by die lokale respons geïnduseer word. ‘n Verhoogde induksie van ‘n ander plantsiekteweerstandshormoon, salisielsuur, kon ook opgemerk word, alhoewel die totaal geakkumuleerde vlakke nie beduidend hoër was as dié van die WT nie. Hierdie resultate is die eerste wat onderskeidende induksie van ‘n siekteweerstandspad in enige van die pgip-ooruitgedrukte plantlyne rapporteer. Daarmee ondersteun dit ook die hipotese dat, seintransduksie wat plantweerstandsresponse aanskakel, ná inhibisie van ePG deur PGIP plaasvind. Die resultate wat met hierdie studie verkry is, dra dus beduidend by tot die huidige kennis van die in planta-funksie van PGIP in plantsiekteweerstandsresponse.

Plant-pathogen relationships

Grapes -- Disease and pest resistance

Grapes -- Defenses

Polygalacturonase

Agricultural biotechnology

Plant defenses

Polygalacturonase-inhibiting proteins

Theses -- Wine biotechnology

Dissertations -- Wine biotechnology

Transcriptional regulation of the endo-polygalacturonase-encoding gene in Saccharomyces cerevisiae

Louw, Campbell Trout

03 1900

Thesis (PhD (Science) (Viticulture and Oenology. Wine Biotechnology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Wine fermentation with a yeast strain able to degrade grape cell polysaccharides can result in improved processability and an increase in wine quality by improving extraction of essential compounds from the grapes during the maceration stage. Pectin is the only important cell wall polysaccharide that can be degraded by wild-type Saccharomyces cerevisiae strains. Pectin is degraded by a polygalacturonase (PG) encoded by the PGU1 gene (ORF YJR153W). Only certain S. cerevisiae strains can degrade pectin and PG activity is thus strain specific. The lack of activity in certain strains has been attributed to a number of factors: (1) the complete absence of the PGU1 gene, (2) the PGU1 gene is present but the allele is dysfunctional and (3) the PGU1 gene is present but not transcribed. The lack in transcription has been shown to be due to the gene having a dysfunctional promoter or to regulatory differences between strains. Results published in the literature are contradictory. The primary aim of this investigation was to clarify the regulation of PG activity in S. cerevisiae and to determine why there are differences in PG activity between different strains. Regulation of PG activity between several wine and laboratory strains with varying PG activities was compared by looking at the sequence of the PGU1 gene and its promoter as well as transcription levels of this gene and its main transcription factors, TEC1 and STE12. In order to identify regulatory factors influencing PG activity, the S. cerevisiae genome was screened for activators and inhibitors of PG activity. Fourteen inhibitors and two activators of PG activity were identified during this screen. Real-time PCR analysis showed that the PG activity is regulated by transcription of the PGU1 gene. A linear relationship was demonstrated between PGU1 and its two transcription factors TEC1 and STE12. Some of the genes identified as inhibitors of PGU1 transcription are involved in gene silencing by Telomere Position Effect (TPE) indicating that PGU1 is possibly silenced due to its subtelomeric location within 25 kb from the right telomere of chromosome X. Moving the PGU1 gene with its native regulatory machinery to a different position away from its telomere resulted in an increase in PGU1 transcription and PG activity, demonstrating the epigenetic influence on PGU1 regulation. Results from this study suggested that the strain related difference in PGU1 expression occurs at an epigenetic level, with steric hindrance preventing RNA polymerase access to the PGU1 promoter and thus inhibiting transcription of this gene in some strains. Understanding regulation of PG activity can potentially lead to the development of more effective strategies to improve PG degradation by S. cerevisiae. The genetic model describing regulation of PGU1 transcription was extended by this study and a novel mechanism of regulation of PG activity was identified. The secondary aim of this study written as an addendum to this thesis, focussed on degradation of another grape cell wall polysaccharide xylan by recombinant strains of S. cerevisiae. These strains were enabled to degrade this polysaccharide through heterologous expression of novel xylanase encoding genes from various origins. Xylanase activity of the recombinant strains generated was compared. Overexpressing the complete gene xynA of Ruminococcus flavefaciens, the functional domain xynAa or the functional domain xynAc within optimal conditions for these enzymes all conferred very low xylanase activity to S. cerevisiae, with xynAc resulting in the highest xylanase activity. Since overexpression of the R. flavefaciens xynA gene yielded very low activity under optimal conditions activity in wine making conditions would be negligible. The genes XYN2 and XYN4 from Trichoderma reesei and Aspergillus niger respectively yielded higher levels of activity. According to these results, only the expression of XYN2 and XYN4 could have a potential effect on wine An effective strategy for improving pectin degradation can in future potentially be combined with heterologous expression of a xylanase encoding gene in S. cerevisiae in order to engineer a wine yeast strain with improved polysaccharase abilities. / AFRIKAANSE OPSOMMING: Gisting van druiwe met polisakkaried-afbrekende gisrasse kan lei tot ‘n verbetering in wyn prosessering en tot die produksie van hoër kwaliteit wyne deur die ekstraksie van belangrike wynkomponente uit druifselle te verbeter. Pektien is die hoof komponent van die druifselwand wat deur wilde tipe Saccharomyces cerevisiae giste afgebreek kan word en word afgebreek deur ‘n poligalaktoronase (PG) wat deur die PGU1 (YJR153W) geen gekodeer word. Slegs spesifieke gisrasse kan pektien afbreek en die ensiem aktiwiteit is dus ras-spesifiek. Die gebrek aan PG aktiwiteit in sekere rasse is al omskryf as gevolg van die afwesigheid van die geen, die teenwoordigheid van ‘n nie-funksionele alleel of dat die geen wat teenwoordig is nie uitgedruk word nie. Transkripsie is al bewys om nie plaas te vind nie a.g.v. die teenwoordigheid van ‘n nie-funksionele promotor of a.g.v. ‘n verskil in regulering van transkripsie tussen rasse. Sommige studies wat PG regulering ondersoek het, het teenstrydige resultate verkry. Die hoofdoel van hierdie studie was om PG regulering te ondersoek en te bepaal waarom daar verskille in PG aktiwiteit tussen verskillende gisrasse voorkom. Regulering van PG aktiwiteit is ondersoek tussen wyn en laboratorium gisrasse met wisselende vlakke van PG aktiwiteit deur die DNS volgorde van die PGU1 geen en sy promotor, so wel as die DNS volgorde van die geen se hoof transkripsie faktore TEC1 en STE12 te bepaal. Om reguleerders van PG aktiwiteit te identifiseer is die genoom van die gis S. cerevisiae ondersoek om faktore te identifiseer wat PG aktiwiteit aktiveer of inhibeer. “Real-time PCR” het bewys dat PG aktiwiteit gereguleer word deur transkripsie van die PGU1 geen en dat daar ‘n lineêre verhouding tussen die transkripsie van die PGU1 geen en sy twee hoof transkripsie faktore TEC1 en STE12 bestaan. Sommige van die gene wat geïdentifiseer is as inhibeerders van PG aktiwiteit is voorheen bewys om betrokke te wees by die inhibering van transkripsie deur middel van die telomeer posisie effek, dit dui daarop dat transkripsie van die PGU1 geen moontlik geïnhibeer word as gevolg van die geen se subtelomeriese posisie binne 25 kb vanaf die regter telomeer van chromosoom X. Die PGU1 geen is met sy natuurlike regulerings elemente na ‘n ander posisie in die genoom, weg van sy naaste telomeer geskuif, die verandering in posisie van die geen het gelei tot ‘n toename in PG aktiwiteit en transkripsie van die PGU1 geen en het dus bewys regulering word beïnvloed deur ‘n epigenetiese effek. Die resultate van hierdie studie het daarop gedui dat die verskil in transkripsie van die PGU1 geen plaasvind op ‘n epigenetiese vlak waartydens die chromatien struktuur toegang van die RNA polimerase tot die PGU1 geen voorkom en dus word transkripsie van die geen sodoende in sommige rasse voorkom. Die tweede doelwit van hierdie studie het gefokus op die afbraak van ‘n ander komponent van die druif selwand, xilaan, deur S. cerevisiae. Hierdie navorsing vorm ‘n addendum aan die tesis en Xylanase aktiwiteit van verskeie rekombinante rasse is in hierdie studie vergelyk. Baie lae xylanase aktiwiteit is verleen aan rekombinante giste wat die volledige xynA geen gekloneer van die bakteriee Ruminococcus flavefaciens, asook twee aktiewe domeins van die geen, domein xynAa en domein xynAc uitdruk. Van die voorafgenoemde giste het die uitdrukking van die domein xynAc die rekombinante gis ras met die hoogste aktiwiteit tot gevolg gehad. Ooruitdrukking van die gene XYN2 en XYN4 wat gekloneer is van die fungi Trichoderma reesei en Aspergillus niger onderskeidelik, het beide gisrasse wat oor hoë vlakke van xylanase aktiwiteit beskik tot gevolg gehad. Hierdie resultate dui dus daarop dat van die gene ondersoek in die studie, slegs XYN2 en XYN4 potensiaal het om xylanase aktiwiteit van wyngiste te verbeter. Deur die regulering van PG aktiwiteit te bestudeer kan meer effektiewe strategieë potensieel ontwikkel word om PG aktiwiteit in S. cerevisiae te verbeter. Hierdie studie het die genetiese model wat PG regulering omskryf uitgebrei deur ‘n nuwe meganisme van regulering van toepassing op PGU1 te identifiseer. As ons die regulering van die PGU1 goed verstaan kan dit in die toekoms gekombineer word met ‘n effektiewe strategie om ‘n gis aan te pas om xylaan af te breek, om sodoende ‘n wyngis geneties te verbeter om beide xylaan en pektien te kan afbreek.

Saccharomyces cerevisiae -- Genetics

PGU1

Gene expression

Endo-polygalacturonase activity

Dissertations -- Wine biotechnology

Theses -- Wine biotechnology

Pectolytic activity

Xylanase activity

Analysis of endo-polygalacturonase activity in a recombinant yeast containing a reconstituted PGU1 gene

Van Wyk, Herine

03 1900

Thesis (MSc (Wine Biotechnology))--University of Stellenbosch, 2009. / The PGU1 gene encodes an endo-polygalacturonase, an enzyme that degrades pectin. Although the presence and function of this gene is well characterized in Saccharomyces cerevisiae, its regulation is very complex and not yet fully understood. Yeast producing a highly active polygalacturonase (PG) during alcoholic fermentation could potentially improve filtration and turbidity and also enhance extraction of certain aroma compounds. This could replace the addition of expensive commercial enzyme preparations that often contain unwanted enzymes. The first objective of this study was to evaluate PGU1 expression in recombinant strains of S. cerevisiae that originally lacked the PGU1 gene. A functional PGU1 gene and its promoter were successfully re-introduced into their native position in the genomes of five wine strains. Three of these strains recovered PG activity while two did not transcribe the gene and subsequently lacked activity. The three strains that recovered activity were used in microvinification experiments to determine the effect of PG-producing yeast on the aroma profile of the wine. No significant differences were observed in the volatile compounds production between the recombinants and their respective wild types, but some tendencies arose, especially for the monoterpene geraniol. The second objective of this study was to analyze the PGU1 gene and promoter from Saccharomyces paradoxus RO88 (a strain that exhibits high PG activity) and to compare it to those of S. cerevisiae S288C in order to identify differences that could potentially be responsible for the difference in their PG activities. Comparison of the gene sequences revealed several amino acid differences, one of which was in the peptide secretion signal. Analyses of the promoters also indicated some potentially important differences. Furthermore, S. cerevisiae strain VIN13, RO88 as well as two interspecies hybrids (all displaying varying PG activities) were compared under winemaking conditions. Clear differences were observed for the production of certain compounds. RO88 and the hybrids produced higher concentrations of certain volatile compounds, although they were not strong fermenters. Two recombinants, each containing a PGU1-overexpressing plasmid (one with the PGU1 gene from S. paradoxus and the other from S. cerevisiae), were also used in vinification to determine the effects of the different PGU1 gene on the aroma profile of the wine. Unfortunately, the plasmids were unstable and lost during the fermentation. Nevertheless, some tendencies were observed that indicated possible higher production of certain compounds by the recombinants compared to their wild types. This study identified that regulation of the PGU1 gene differs between strains with different genetic backgrounds. Certain differences were observed in the PGU1 gene and promoter sequences between S. cerevisiae and S. paradoxus that could potentially be the reason for the difference in their PG activities. From an oenological point of view, the presence of PGU1 in the genome of a fermenting strain tends to increase the aromatic potential of wine. These results provide a good platform for further studies on the PGU1 gene.

PGU1

Endo-polygalacturonase

Dissertations -- Wine biotechnology

Theses -- Wine biotechnology

Wine and wine making

Yeast -- Genetics

Wine -- Flavor and odor

Fermentation

Viticulture and Oenology

Obtenção e caracterização de linhagens recombinantes de Penicillium griseoroseum com alta produção de pectina liase e poligalacturonase / Obtainment and characterizing of recombinant strains of Penicillium griseoroseum with pectin lyase and polygalacturonase overproduction

Teixeira, Janaina Aparecida

12 March 2007

Made available in DSpace on 2015-03-26T13:42:00Z (GMT). No. of bitstreams: 1 texto completo.pdf: 520006 bytes, checksum: baf36fdbccb290fdbea3be4be8fae1fc (MD5) Previous issue date: 2007-03-12 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Penicillium griseoroseum has been described as a promising species for polygalacturonase (PG) and pectin lyase (PL) production. However, the genes encoding these enzymes in this organism require induction by pectin and are repressed by glucose. One strategy to increase the expression of these genes is the replacement of original promoter by a strong constitutive one. Thus, in order to obtain PG and PL overproducing strains with no need of pectin induction, we performed the co-transformation of previously described recombinant T105, a strain that contains additional copies of plg1 gene under the control of gpdA promoter from Aspergillus nidulans, using the plasmids pAN52pgg2 and pAN7.1. The resulting strains showed at least one copy of pAN52pgg2 into the genome. A genetically stable strain, named recombinant R20 was chosen for further characterization because of its high levels of PG and PL activity compared to the other recombinant strains obtained. This strain exhibited elevated production of both enzymes when cultivated in presence of glucose, sucrose or sugar cane juice. Increases of up to 11 times in PG activity and 45 times in PL activity were detected when the recombinant R20 was cultivated in sugar cane juice, in comparison with the wild type strain grown in optimized production conditions. The maximum production of PG, PL, and dry mycelium mass by recombinant strain was observed in the following conditions: inoculum of 106 conidia.mL-1, 1% glucose, 200 mL of culture medium in 500 mL Erlenmeyer flasks, and incubation time of 72 to 96 hours under agitation of 150 RPM at 25oC. Denaturing SDS-PAGE of the recombinant R20 culture filtrate revealed the presence of two protein bands of about 38 and 36 KDa corresponding to PG and PL, respectively. In addition, this strain secreted 18 mg of total protein per liter of culture medium in 120 hours of incubation, being PG and PL the main protein secreted. These results will be valuable for the setting of enzyme production experiments in large scale and ultimately in the application of R20 strain for industrial production of pectinases. / Penicillium griseoroseum foi descrita como uma espécie promissora para a produção de poligalacturonase (PG) e pectina liase (PL). No entanto, os genes que codificam estas enzimas em P. griseoroseum requerem indução por pectina e sofrem repressão catabólica na presença de glicose. Uma estratégia para aumentar a expressão destes genes é a substituição do promotor endógeno por um promotor forte e constitutivo. Desse modo, para se obter linhagens com alta produção de poligalacturonase e pectina liase, sem a necessidade de indução, foi feita a co-transformação da linhagem recombinante 105, que possui cópias adicionais do gene plg1 sob controle do promotor do gene gpd de A. nidulans, utilizando-se os plasmídeos pAN52pgg2 e pAN7.1. As linhagens recombinantes obtidas apresentaram, pelo menos, uma cópia do pAN52pgg2 integrada no genoma. A linhagem mitoticamente estável, denominada recombinante R20 de P. griseoroseum, foi selecionada por apresentar a maior produção de PG e PL em comparação com as demais linhagens recombinantes obtidas. Esta linhagem apresentou uma elevada produção de poligalacturonase e pectina liase, quando cultivada em presença de glicose, sacarose ou caldo de cana. Aumentos de 11 vezes na atividade de PG e de 45 vezes na atividade de PL ocorreram, quando a linhagem recombinante R20 foi cultivada em caldo de cana, em relação à linhagem selvagem cultivada em condições ótimas de produção. A maior produção de PG, PL e massa micelial seca pela linhagem recombinante R20 foi obtida, quando se utilizou inóculo de 106 conídios/mL, concentração de glicose 1% (p/v), volume de 200 mL de meio de cultivo em Erlenmeyers de 500 mL e tempo de cultivo de 72 a 96 horas, sob agitação de 150 RPM a 25ºC. No perfil protéico da linhagem recombinante R20 evidenciou-se a presença de duas bandas de proteínas distintas com aproximadamente 38 e 36 kDa, que correspondem a PG e a PL, respectivamente. A linhagem apresentou baixa atividade de protease no período final de cultivo, enquanto a atividade celulolítica não foi detectada nas condições avaliadas. Além disso, a linhagem recombinante R20 teve uma secreção de 18 mg de proteína total/L em 120 horas de cultivo, sendo pectina liase e poligalacturonase preferencialmente secretadas. Os resultados são úteis para a condução de experimentos de otimização em larga escala e posterior aplicação da linhagem recombinante R20 na indústria de produção de pectinases.

Penicillium sp.

Pectina liase

Poligalacturonase

Penicillium sp.

Pectin liase

Polygalacturonase

Produção de pectina liase e poligalacturonase pela linhagem recombinante Penicillium griseoroseum T20 / Production of pectin lyase and polygalacturonase by recombinant strain Penicillium griseoroseum T20

Gonçalves, Daniel Bonoto

30 October 2008

Made available in DSpace on 2015-03-26T13:51:57Z (GMT). No. of bitstreams: 1 texto completo correto.pdf: 535635 bytes, checksum: 2ca42e241dd388099a705af6f2c401d0 (MD5) Previous issue date: 2008-10-30 / Conselho Nacional de Desenvolvimento Científico e Tecnológico / Filamentous fungi are recognized as excellent producers of extracellular enzymes and the genetically modified strains have made possible the production of pectinases with greater specificity and purity, better use of raw materials and lower production of waste. The production of pectin lyase (PL) and polygalacturonase (PG) by genetically modified strain Penicillium griseoroseum T20 has been studied. The response surface methodology (RSM) was used to optimize PL and PG production. The parameters sucrose concentration and cultivation time were evaluated. The highest PL production in Erlenmeyer flasks with 200 mL of culture medium was achieved after 87.7 h in sucrose 15.7 g/L and the highest PL estimated activity was 2428 U/ml. The higher PG production in Erlenmeyer flasks with 200 mL of culture medium was achieved after 83.8 hours and the highest PG estimated activity was 9465 U/ml. The sucrose concentration showed no significant influence on the production of this enzyme. The optimization in Erlenmeyer flasks was followed by the scaleup to 10 L bioreactor. The aeration conditions were evaluated and the highest PL and PG activity was observed in 1.0 L of air per minute. Under this condition, the strain showed low protease activity, just in the final period of cultivation, and &#946;-glucosidase activity was not detected. The protein profile of the recombinant strain T20 showed the presence of two distinct bands of with approximately 38 and 36 kDa. These bands corresponded to PL and PG, respectively. The mycelial growth of the strain P. griseoroseum T20 has been studied by RSM, and the maximum mycelial dry weight observed was 8.63 g/L, on 30 g/L sucrose and 120 hours of cultivation. The mycelial morphology suggested a link between the occurrence of free and dispersed hyphae and the production of PL and PG. The kinetic parameters of fermentation were determined and compared between the scales of PL and PG production. The maximum total protein was 9.1 and 9.5 mg/L in cultures of 200 ml and 10 L, respectively. The specific PL (PspePLp) and PG (PspePGp) activities in relation to total protein were 353 and 613 U/g at 200 mL cultivation and 305 and 1106 U/g at 10 L cultivation, respectively. The maximum yield of PL (PdPL) and PG (PdPG) observed were 33.4 and 73.3 U/mL.h at 200 mL cultivation and 24.1 and 289 U/L.mL.h at 10 L. The performance parameters of PL (RPL/S) and PG (RPG/S) were 214 and 352 at 200 ml cultivation and 87.4 and 1049 at 10 L, respectively. The PL and PG production between P. griseoroseum T20 and P. griseoroseum wide type strain was compared. Increases of more than 400 times in the PL production and at least 14 times in the PG production were observed. The results suggest the great potential for industrial application of this strain for the production of PL and PG. / Fungos filamentosos são reconhecidos como excelentes produtores de enzimas extracelulares e as linhagens geneticamente modificadas têm tornado possível a produção de pectinases com maior especificidade e pureza, melhor utilização de matéria-prima e menor produção de resíduos. O processo de produção de pectina liase (PL) e poligalacturonase (PG) pela linhagem geneticamente modificada Penicillium griseoroseum T20 foi estudado. As condições ótimas de cultivo para a produção de PL e PG foram determinadaspor meio da Metodologia de Superfície de Resposta (RSM). A maior produção de PL em frascos Erlenmeyer com 200 mL de meio de cultivo foi obtida após 87,7 h em meio contendo sacarose em concentração inicial de 15,7 g/L, sendo a maior atividade de PL estimada de 2.428 U/mL. A maior produção de PG em frascos Erlenmeyer com 200 mL de meio de cultivo foi obtida após 83,8 h, sendo a maior atividade de PG estimada de 9.465 U/mL. A concentração de sacarose não mostrou influência significativa sobre a produção dessa enzima. Após otimização dos fatores tempo de cultivo e concentração de sacarose em Erlenmeyers, foi feito o escalonamento para biorreator com 10 L de trabalho. A condição de aeração que proporcionou a maior atividade de PL e PG foi de 1,0 L de ar por minuto. Nessa condição, a linhagem apresentou baixa atividade de protease no período final de cultivo e não foi detectada atividade de &#946;-glicosidase. O perfil protéico da linhagem recombinante T20 mostrou a presença de duas bandas de proteínas distintas com aproximadamente 38 e 36 kDa, correspondentes à PG e à PL, respectivamente. O crescimento micelial da linhagem P. griseoroseum T20 foi estudado por meio da RSM, e a massa micelial seca máxima estimada foi de 8,63 g/L, na condição de 30 g/L de sacarose após 120 horas de cultivo. A avaliação da morfologia micelial sugeriu a existência de uma relação entre a ocorrência de hifas livres e dispersas e a produção de PL e PG. Os parâmetros cinéticos da fermentação foram determinados e comparados entre as escalas de produção de PL e PG. A proteína total máxima observada foi de 9,1 e 9,5 mg/L nos cultivos de 200 mL e 10 L, respectivamente. As atividades específicas de PL (PspePLp) e PG (PspePGp) em relação à proteína total foram de 353 e 613 U/&#956;g no cultivo em 200 mL e de 305 e 1.106 U/&#956;g no cultivo em 10 L, respectivamente. As produtividades enzimáticas máximas de PL (PdPL) e PG (PdPG) observadas foram de 33,4 e 73,3 U/mL.h em 200 mL e de 24,1 e 289 U/mL.h em 10 L. Os parâmetros rendimento de PL (RPL/S) e de PG (RPG/S) calculados foram de 214 e 352 no cultivo em 200 mL e de 87,4 e 1.049 no cultivo em 10 L, respectivamente. A produção de PL e PG entre as linhagens P. griseoroseum T20 e P. griseoroseum selvagem foi comparada e aumentos de mais 400 vezes na produção de PL e de pelo menos 14 vezes na produção de PG foram observados. Os resultados sugerem o grande potencial de aplicação industrial dessa linhagem para a produção de PL e PG.

Penicillium griseoroseum

Pectina liase

Poligalacturonase

Penicillium griseoroseum

pectin lyase

Polygalacturonase

Produção de pectinase em fermentação semissólida usando substrato residual de laranja.

MEDEIROS, Matheus Serrano de.

08 May 2018

Submitted by Emanuel Varela Cardoso (emanuel.varela@ufcg.edu.br) on 2018-05-08T19:36:33Z No. of bitstreams: 1 MATHEUS SERRANO DE MEDEIROS – DISSERTAÇÃO (PPGEG) 2016.pdf: 1109873 bytes, checksum: 1cf7065cdf5a41264131e8b3448f8f38 (MD5) / Made available in DSpace on 2018-05-08T19:36:33Z (GMT). No. of bitstreams: 1 MATHEUS SERRANO DE MEDEIROS – DISSERTAÇÃO (PPGEG) 2016.pdf: 1109873 bytes, checksum: 1cf7065cdf5a41264131e8b3448f8f38 (MD5) Previous issue date: 2016-05 / Capes / A laranja pêra é uma das principais matérias-primas para a agroindústria brasileira. Da laranja pode-se extrair o suco, essências e o bagaço, este último sendo considerado um resíduo agrícola do processo da indústria de suco, onde representa em torno de 49,0% da composição da fruta, ou seja, aproximadamente a metade do total da produção de laranja destinada a produção de suco no Brasil. O objetivo deste trabalho foi o produzir pectinas e através da fermentação semissólida, sendo utilizado como substrato o bagaço da laranja pêra em forma de farinha e como agente da fermentação um fungo filamentoso Aspergillus niger mutante CCT0916. O processo produtivo foi realizado com um planejamento fatorial 2³ com três pontos centrais. Foram analisadas a influência das variáveis independentes: umidade (40, 50 e 60%); suplementação do meio com fonte de nitrogênio (1, 1,5 e 2%) e temperatura (25, 30 e 35 °C), utilizou-se como fonte de nitrogênio o sulfato de amônia, observando-se estas influencias na síntese de pectinase. A composição físico-química da farinha do bagaço apresentou umidade de 10,3% em b.u., cinzas de 2,562%, a distribuição granulométrica apresentou 58 % com grânulos de 0,841 mm proteína total de 3,428%, pectina de 4,25%, pH de 4,026, ART de 33,30%, AR de 17,867%, sólidos solúveis de 40 °Brix e densidade 0,658 g/mL. O quarto ensaio (60% de teor de água, 2,0% de N e 25 °C) foi o que melhor apresentou atividade poligalacturonásica, nas condições de 60% de umidade, 2% de suplementação de fonte de nitrogênio e 25 °C de temperatura, obtendo-se 18,78 U/g, ratificando o modelo estatístico da superfície de resposta que apresentou produção de atividade poligalacturonásica de 16 U/g. / Orange - Pear is one of the main raw materials for the Brazilian agribusiness. This fruit extract the juice, and bagasse essence, the latter being considered a waste product of the juice industry process , which is around 49.0% of the fruit composition , approximately half of the total production orange intended for juice production in Brazil. The objective of this work was to study the production of pectinase through semisolid fermentation is used as a substrate pulp of the orange - pear shaped flour and as a leavening agent of a filamentous fungus Aspergillus Niger mutant CCT0916 .Through the experimental design 2³ with three central points , the data were analyzed using Statistica 7.0 statistical software , we analyzed the influence of independent humidity variables (40, 50 and 60%) , the medium supplemented with a nitrogen source (1, 1.5 and 2%) and temperature (25, 30 and 35 °C) was used as the nitrogen source ammonium sulfate. The physical and chemical composition of bagasse flour showed moisture of 10.3% wb, ash 2,562%, 3,428% total protein, pectin 4.25%, pH 4,026, ART 33.30%, AR 17.867 % soluble solids of 40° Brix and density 0,658 g / ml. The four test was the best presented polygalacturonase activity under the conditions of 60% moisture content, 2% nitrogen source of supplementation and 25 °C, yielding 18.78 U/g , confirming the statistical model of surface response which features production polygalacturonase activity of 16 U/g .

Engenharia agrícola

Ciências agrárias

Citrus sinensis (L.)

Osbeck var. pera

Resíduo agroindustrial

Aspergillus niger CCT0916

Poligalacturonase

Agroindustrial waste

Polygalacturonase

The functional analysis of Vitaceae polygalacturonase-inhibiting protein (PGIP) encoding genes overexpressed in tobacco

Venter, Alida

03 1900

Thesis (MScAgric (Viticulture and Oenology. Wine Biotechnology))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: Agriculture worldwide is under great pressure to produce enough food in order to sustain the ever-growing world population. Among the many challenges faced by food producers, crop losses and damage caused by fungal plant pathogens is a major problem. The study of fungal pathogens and the interaction between plants and fungi is therefore essential, and has been carried out for many years. Much has been learned in this time, but the full mechanisms of the various modes of fungal attack and plant defence have still not been elucidated. Many fungi rely on the action of cell-wall degrading enzymes (CWDEs) to breach the plant cell wall and facilitate access to the nutrients within. CWDEs are among the very first enzymes to be secreted at the start of fungal attack, and many of them are considered to be essential pathogenesis factors. Endopolygalacturonases (ePGs) are CWDEs that cleave the homogalacturonan stretches of the plant cell wall and are vital virulence factors for a number of fungi, including Botrytis cinerea. An important defence mechanism of plants involves the inhibition of CWDEs in order to halt or slow down the fungal attack. Plant polygalacturonaseinhibiting proteins (PGIPs) are cell wall associated CWDE-inhibiting proteins that specifically act on fungal ePGs. Many different PGIPs from a number of diverse plant species have been described to date. They are known to have differential inhibition capabilities that often result from only a few key amino acid changes within the leucine-rich repeat (LRR) active domains. Previously, the first grapevine PGIP was isolated and characterised from Vitis vinifera cultivar Pinotage (Vvpgip1). This Vvpgip1 gene was overexpressed in the tobacco species Nicotiana tabacum, and was shown to be very effective in reducing the susceptibility of tobacco towards B. cinerea. The combined results confirmed transgene overexpression, increased PGIP activity and a strong resistance response against Botrytis, leading to the characterisation of these lines as having PGIP-specific resistance phenotypes. In a subsequent transcriptomic analysis of these lines it was found that they display differential expression of cell wall metabolism genes and biochemical characteristics that might indicate possible cell wall strengthening compared to wild-type tobacco under uninfecting conditions. The V. vinifera cultivars are all very susceptible to fungal attack, whereas other grapevine species, specifically the North American Vitis species, are known for their strong resistance and even immunity against many fungal pathogens. Thirty seven PGIPs have previously been isolated from these more resistant species. The amino acid sequences of the active domains of these PGIPs were previously aligned with that of VvPGIP1, and the proteins were found to be highly homologous with each other and with VvPGIP1. The different nonvinifera PGIPs separated into 14 subgroups based on their active domain sequences. For this study, one PGIP from each group was selected for functional analysis in tobacco. The selected PGIP-encoding genes were transformed into tobacco by means of Agrobacterium tumefaciens. Analyses of the putatively transformed plantlets were performed to test for transgene presence, transgene expression, and PGIP activity: final transgenic tobacco populations consisting of three to twelve individually transformed lines of nine different nonvinifera PGIPs were obtained. A subset of the resultant transgenic lines was infected with B. cinerea in two independent whole plant infections over 11-14 days in order to investigate the disease resistance afforded by the various PGIPs towards this fungus. A line from the previously characterised VvPGIP1 population was included as reference; all the infections were contrasted to the WT tobacco. All the infected lines overexpressing the non-vinifera PGIPs displayed very strong disease reduction in comparison to the WT control: after initial primary lesion formation, the spread of fungal infection was contained and halted in these lines, while wild-type tobacco plants were severely affected. Although the VvPGIP1 line displayed the characteristic PGIP-defense response, the non-vinifera PGIP plants displayed smaller lesions, indicating very strong resistance phenotypes. The characterised non-vinifera PGIP overexpressing lines, together with the VvPGIP1 line and the WT control were also used to further evaluate the previous observation that overexpression might lead to changes in expression of cell wall genes. Analysis of the expression of a xyloglucan endotransglycosylase (xth) gene in the transgenic population showed that this gene was down-regulated in healthy uninfected tissue from all the transgenic lines tested. This confirmed previous results and have confirmed in all grapevine PGIP overexpressing lines tested so far that this gene is downregulated. XTH is typically involved in cell wall metabolism and specifically in controlling the strength and elasticity of the plant cell wall. From previous work it is known that downregulation of this gene leads to strengthening of the wall. The results obtained in this study showed that the PGIP-specific resistance phenotype seen for VvPGIP1-overexpressing tobacco could be confirmed in transgenic tobacco overexpressing non-vinifera PGIPs from more resistant grapevine species as well. The fact that these PGIPs lines all performed even better than the VvPGIP1 lines in conferring resistance towards B. cinerea provides an interesting angle for further investigation into the structural differences between the non-vinifera PGIPs and VvPGIP1. The transgenic lines are also excellent material to study the in vivo functions of PGIPs further in the context of plant-pathogen interactions. / AFRIKAANSE OPSOMMING: Die landboubedryf is wêreldwyd onder groot druk om genoeg voedsel te produseer vir die groeiende wêreldbevolking. Een van die grootste probleme wat die bedryf ondervind, is die groot skade wat aan gewasse aangerig word deur patogeniese swamme. Dit is dus noodsaaklik om swamme en die interaksie tussen plante en swamme te bestudeer, en dit word al vir jare gedoen. Hoewel daar al baie geleer is in hierdie tydperk, is die volle meganismes van die verskeie maniere hoe swamme aanval en hoe plante hulleself verdedig, nog nie bekend nie. Verskeie swamme maak staat op die aktiwiteit van selwand-afbrekende ensieme (SWAEe) om deur die plantselwand te breek en sodoende toegang tot voedingstowwe in die plantsel te fasiliteer. SWAEe is van die eerste ensieme wat tydens die begin van patogeniese aanval deur swamme afgeskei word en verskeie SWAEe word as noodsaaklike patogeniese faktore beskou. Endopoligalakturonases (ePGs) is SWAEe wat die homogalakturoniese dele van die plantselwand verteer en is noodsaaklike virulensie faktore vir ‘n aantal swamme, onder andere Botrytis cinerea. ‘n Belangrike weerstandsmeganisme van plante behels die inhibering van swam SWAEe om sodoende die patogeen-aanval te stop of te vertraag. Die poligalakturonase-inhiberende proteïne (PGIPs) van plante is selwand-geassosieerde SWAEinhiberende proteïne wat spesifiek teen swam ePGs optree. Verskeie verskillende PGIPs vanuit verskillende plantspesies is tot dusver beskryf. Dit is bekend dat hulle differensiële inhiberende vermoëns het wat dikwels toegeskryf kan word aan slegs ‘n paar belangrike aminosuurvolgordeverskille in die leusien-ryke herhalende (LRH) aktiewe areas. Die eerste wingerd PGIP is vantevore geïsoleer vanuit Vitis vinifera kultivar Pinotage (Vvpgip1) en gekarakteriseer. Hierdie Vvpgip1 geen is ooruitgedruk in die tabakspesie Nicotiana tabacum en was baie effektief om die weerstand van tabak teen die swam Botrytis cinerea te verhoog. Die ooruitdrukking van die transgeen, verhoogde PGIP aktiwiteit en goeie weerstand teen Botrytis cinerea is bevestig, en het gelei daartoe dat die transgeniese VvPGIP1 plantlyne geklassifiseer is as lyne met PGIP-spesifieke weerstandsfenotipes. ‘n Daaropvolgende transkriptomiese analise van die plantlyne het gewys dat hulle differensiële uitdrukking van selwand-geassosieerde gene het, asook biochemiese eienskappe, wat ‘n moontlike selwandversterking aandui in vergelyking met wilde-tipe tabak in die afwesigheid van infeksie. Die V. vinifera kultivars is hoogs vatbaar vir swamme, terwyl ander wingerdspesies, spesifiek die Noord-Amerikaanse spesies, bekend is vir hoë weerstand en selfs immuniteit teenoor verskeie patogeniese swamme. Sewe-en-dertig PGIPs is vantevore geïsoleer vanuit hierdie meer weerstandbiedende spesies. Die aminosuurvolgordes van die aktiewe areas van hierdie PGIPs is vantevore vergelyk met die van VvPGIP1 en dit is gevind dat hierdie proteïne hoogs homoloog is aan mekaar, sowel as aan VvPGIP1. Die verskillende nie-vinifera PGIPs het in 14 groepe verdeel na aanleiding van die homologie van hulle aktiewe areas. Vir hierdie studie is een PGIP vanuit elkeen van hierdie groepe gekies vir verdere funksionele analise in tabak. Die 14 nie-vinifera PGIP-koderende gene is stabiel oorgedra na tabak deur middel van Agrobacterium tumefaciens. Die vermeende transgeniese plante is geanaliseer vir die teenwoordigheid van die transgeen, die uitdrukking daarvan en PGIP aktiwiteit: bevestigde transgeniese tabak populasies wat wissel van drie tot 12 individuele getransformeerde lyne kon verkry word vir nege van die verskillende nie-vinifera PGIPs. ‘n Aantal van die transgeniese lyne is geïnfekteer met B. cinerea in twee onafhanklike heelplantinfeksies vir 11-14 dae om die siekteweerstand van hierdie PGIPs teenoor die swam te evalueer. ‘n Plantlyn van die VvPGIP1-populasie is as ‘n verwysing ingesluit en al die infeksies is vergelyk met die wilde-tipe tabak. Al die geïnfekteerde lyne wat die nie-vinifera PGIPs ooruitdruk het ‘n baie sterk afname in siektesimptome getoon in vergelyking met die wilde-tipe kontrole: na aanvanklikle primêre lesies gevorm het, is die verspreiding van die infeksie ingeperk en gestop in hierdie lyne, terwyl die wilde-tipe plante baie erg geaffekteer is. Terwyl die VvPGIP1 lyn ook die tipiese PGIPweerstandsrespons getoon het, het die nie-vinifera PGIPe kleiner lesies ontwikkel, wat dui op baie sterk weerstandsfenotipes. Die gekarakteriseerde nie-vinifera PGIP ooruitdrukkende lyne, asook die VvPGIP1 lyn en die wilde-tipe kontrole, is gebruik om die vorige waarneming dat die ooruitdrukking kan lei tot veranderinge in selwandgeen-uitdrukking verder te ondersoek. Analise van die uitdrukking van ‘n xiloglukaan-endotransglikosilase (xth) geen in die transgeniese populasie het getoon dat hierdie geen afgereguleer is in gesonde, oninfekteerde weefsel van al die transgeniese lyne wat getoets is. Dit het vorige resultate bevestig en het ook bevestig dat hierdie geen afgereguleer is in alle wingerd PGIP-ooruitdrukkende lyne wat tot dusver getoets is. XTH is tipies betrokke by selwandmetabolisme, spesifiek by die beheer van selwandsterkte en selwandelastisiteit. Dit is uit vorige werk bekend dat die afregulering van hierdie geen lei tot versterking van die plantselwand. Die resultate verkry tydens hierdie studie het gewys dat die PGIP-spesifieke weerstand fenotipe van VvPGIP1-ooruitdrukkende tabak ook bevestig kon word in transgeniese tabak wat nie-vinifera PGIPs vanuit meer weerstandbiedende wingerdspesies ooruitdruk. Die feit dat hierdie PGIP lyne almal selfs beter weerstand teen B. cinerea bied as VvPGIP1 lyne is ‘n interessante invalshoek vir opvolgende ondersoeke na die belang van strukturele verskille tussen die nie-vinifera PGIPs en VvPGIP1. Hierdie transgeniese lyne is ook uitstekende hulpbronne om die in vivo funksies van PGIPs verder te bestudeer in die konteks van plantpatogeen interaksies.

Grapes -- Genetics

Disease resistance

Botrytis

Dissertations -- Wine biotechnology

Dissertations -- Agriculture

Theses -- Agriculture

Theses -- Wine biotechnology

Vitaceae

Tobacco -- Genetics

Polygalacturonase-inhibiting proteins