Soja como biorreator : estudo de extração e purificação de proteina recombinante utilizando 'beta'-glucuronidase / Soybean as bioreactor: extraction and purification study of recombinant beta-glucuronidase

Robic, Goran

19 November 2005

Orientador: Everson Alves Miranda / Dissertação (mestrado) - Universidade Estadual de Campinas, Faculdade de Engenharia Quimica / Made available in DSpace on 2018-08-06T01:42:54Z (GMT). No. of bitstreams: 1 Robic_Goran_M.pdf: 2208429 bytes, checksum: 860e813410e0f18d21e22d51ca77e727 (MD5) Previous issue date: 2005 / Resumo: Os trabalhos realizados utilizando plantas transgênicas como biorreatores para produção de proteínas recombinantes indicam que a cano Ia, o milho e a soja são candidatos de grande potencial. Apesar da semente de soja e suas proteínas serem sistemas bem estudados, não existem estudos sistemáticos e comparativos sobre da utilização da soja como um biorreator, no tocante à extração e purificação de proteínas recombinantes. Até hoje, segundo a literatura consultada, só existe uma tentativa de usar soja como biorreator (Russel et al., 2005), mas por causa da baixa expressão da proteína recombinante (hormônio de crescimento humano), este estudo aparentemente não teve continuidade. O objetivo deste trabalho foi avaliar, sob o ponto de vista de recuperação (extração) e purificação, sementes de soja como biorreatores para produção de proteínas recombinantes, usando b-glucuronidase recombinante (rGUS) como proteína modelo / Abstract: The work done on the field of using trasgenic plants as bioreactors indicates the soybean, canola and corn as a plants of choice. Although the extraction and purification of soybean seed proteins is well studied and the plant is relatively easy to transform, there is practically no study done with transgenic soybean seeds expressing recombinant proteins in terms of downstream processing. To our knowledge, soybean was used to produce human growth hormone (Russel et al., 2005), but the study of purification was not done due to the low expression level of that recombinant protein. The objective of this work to evaluate the soybean seeds, in terms of recuperation (extraction) and purification, as a bioreactor for production of recombinant proteins using b-glucuronidase (rGUS) as a model protein / Mestrado / Desenvolvimento de Processos Biotecnologicos / Mestre em Engenharia Química

Proteinas recombinantes

Proteinas recombinantes - Purificação

Proteinas de soja

Plantas transgênicas

Glucuronidase

Recombinant protein

'Beta' glucuronidase

Transgenic soybean

Extraction

Purification

Downstream Processing

Development of enzyme technology for modification of functional properties of xylan biopolymers

Chimphango, Annie Fabian Abel

12 1900

Thesis (PhD (Process Engineering))--University of Stellenbosch, 2010. / ENGLISH ABSTRACT: There is growing interest to utilise xylan as speciality biopolymers in similar ways as high molecular weight polysaccharides such as starch and cellulose. The need to utilise xylan as alternative to cellulose and starch has increased because the cellulose and starch have many other competing uses. Unlike cellulose and starch, xylans are heteropolymers with higher degree of substitution and are of lower molecular mass and therefore, do not readily become insoluble to form hydrogels and biofilms. Consequently, xylans do not suit applications of starch and cellulose as speciality biodegradable additives and coatings in the food, pharmaceutical, pulp and paper and textile and many other industries. This study was conducted to develop an enzyme technology, based on recombinant α-L-arabinofuranosidase and purified α-D-glucuronidase with polymeric xylan substrate specificity, for controlled reduction of the solubility of water soluble polymeric xylan, leading to formation of insoluble nanohydrogels. Although xylan is available in abundance, a large proportion of it is currently wasted in lignocellulose process waste streams with little prospects for recovery and addition of value. Lignocellulosic materials including Eucalyptus grandis, Pinus patula, Bambusa balcooa (bamboo) and sugarcane (Saccharum officinarum L) bagasse (bagasse) found in South Africa were investigated as sources of water soluble xylan for enzyme modification. Two mild alkali-low temperature methods (alkali charge of < 14% and temperature of < 80ºC), one with ultrapurification denoted as the Hoije and the other with ethanol precipitation, denoted as Lopez method, were evaluated for their selective extraction of water soluble xylans from the specified lignocellulosic materials. The water soluble xylans were extracted from P. patula, bagasse, E. grandis and bamboo by the Hoije method with extraction efficiencies of 71.0, 66.0, 35.0 and 20.0% respectively. Using the Lopez method, the xylans from bagasse and E. grandis were extracted with extraction efficiencies of 28.0 and 12.0% respectively. The xylans extracted from P. patula, bamboo and bagasse were identified as arabinoglucuronoxylans, which were substituted with arabinose and 4-O-methyl-D- glucuronic acid (MeGlcA) side chains, whereas, the xylan extracted from E. grandis were identified as 4-O-methyl-β-D-glucuronoxylan (glucuronoxylan) substituted with MeGlcA groups on the main xylan chain. In addition, the glucuronoxylans contained some traces of arabinose and rhaminose sugar residues. The extracted xylan fractions had degree of polymerisation (DP) of > 10 and were water soluble, which suited the required properties of xylans for customised enzyme modification. The selective removal of the arabinose, MeGlcA and acetyl groups to create linear regions of xylose units in xylans that causes intra and inter-polymer bonding is considered to be the key process for reducing the solubility of water soluble xylans. The α-L-arabinofuranosidase of Aspergillus niger (AbfB) and α-D-glucuronidase of Schizophyllum commune (AguA) are special enzymes so far identified with the ability to selectively remove arabinose and MeGlcA side chains respectively, from water soluble xylans. Large scale application of the AbfB and AguA for reducing solubility of the water soluble xylans would require their extracellular production in large quantities and free of contamination from the xylan main chain degrading enzymes including the endo-1,4-β -xylanase. Selective production of the AbfB free of xylanase activity was achieved in recombinant A. niger D15 [abfB] strain under the transcriptional control of the glyceraldehyde-3-phosphate dehydrogenase promoter (gpdP) and glucoamylase terminator (glaAT). The recombinant AbfB was secreted extracellulary in 125 mL shake flasks and 10 L bioreactor fermentation cultures with volumetric activities of up to 10.0 and 8.0 nkat mL-1 respectively, against para-nitrophenol arabinofuranoside (pNPA). The secretion of the recombinant AbfB was growth associated and therefore, increased up to 2.5 times with addition of concentrate corn steep liquor (CCSL) as an additional source of nitrogen in the 2 x minimal standard cultivation media. The biomass specific activity of the recombinant AbfB against the pNPA substrate was approximately 366 nkat g-1 (dry weight basis). The recombinant AbfB displayed a single pure species band on 10% SDS-PAGE stained with Coomassie blue and had an estimated molecular mass of 67 kDa. In addition, the recombinant AbfB showed optimal activity at 40-55ºC and pH 3.0-5.0 and was stable under cultivation, storage and operating conditions at temperatures between 30-60ºC and pH 3.0-6.0. Furthermore, the recombinant AbfB showed broad substrate specificity selectively removing arabinose side groups from low viscosity wheat and oat spelt arabinoxylans, larchwood arabinogalactan, debranched arabinan and arabiglucuronoxylans extracted from bagasse, bamboo and P. patula found in South Africa,. The recombinant AbfB was able to precipitate xylans extracted from bagasse, bamboo and oat spelt but not from P. patula. Over 95% of the activity of the recombinant AbfB against the pNPA was recyclable after selective hydrolysis of the xylan at 40ºC for 16 h. On the other hand, the purified AguA enzyme could only precipitate the birch glucuronoxylan but not the glucuronoxylan extracted from E. grandis and arabinoglucuronoxylans extracted from bagasse, bamboo and P. patula. The synergetic action of the recombinant AbfB and the purified AguA increased the removal of the arabinose side chains from bagasse xylan by 22% and from bamboo xylan by 33%, whereas, the removal of the MeGlcA side chains from bagasse xylan increased by only 5% and that from bamboo xylan decreased by 13%. The selective removal of the arabinose side chains from oat spelt, bagasse and bamboo xylans by the recombinant AbfB had higher apparent viscosity relative the corresponding untreated xylans. However, the apparent viscosity of both the treated and untreated xylans reduced with increased shear rate. The viscosity had an overall negative correlation with arabinose side chain removal reaching a minimum of 2.03 mPa.s for hydrolysis of oat spelt xylan that was performed for 9.0 h at a temperature of 45.8ºC with recombinant AbfB xylan specific dosage of 400.0 nkat g-1substrate . The alteration of the viscosity of the xylans by the selective removal of the side chains is of special interest in the production of speciality emulsifying, thickening and antifoaming agents. The optimal values for hydrolysis time, enzyme dosage and temperature for maximum degree of removal of arabinose side chains from oat spelt xylan by the recombinant AbfB and of the removal of MeGlcA side chains from birch xylan by the purified AguA were determined by the Box-Benhken response surface method (RSM). The experimental region covered the xylan specific dosage for the recombinant AbfB between 18.0 and 540.0 nkatg-1substrate and for the purified AguA xylan between 2.0 and 18.0 μkatg-1substrate at temperatures between 30 and 50ºC and hydrolysis time between 1 and 16 h. The temperature, enzyme xylan specific dosage and hydrolysis time had significant effect (p<0.05) on both the selective removal of arabinose from oat spelt xylan by the recombinant AbfB and the selective removal of MeGlcA from birch xylan by the purified AguA. However, the interaction of these hydrolysis parameters were significant (p<0.05) on only the removal of arabinose side chains from oat spelt xylan by the recombinant AbfB. The optimal values for hydrolysis time, temperature and xylan specific dosage were estimated to be 14-16 h, 38-45ºC and 607.0 nkatg-1substrate respectively, for maximum removal of 43% of the available arabinose in oat spelt xylan by the recombinant AbfB. Whereas, the optimal values for hydrolysis time, temperature and xylan specific dosage for maximum removal of 0.5% of the available MeGlcA side chains from the birch xylan by the purified AguA were estimated to be 11 h, 38ºC and 18.0 μkatg-1substrate respectively. The optimal values of the hydrolysis parameters for both the removal of the arabinose from oat spelt xylan by the recombinant AbfB and of MeGlcA side chains from birch by the purified AguA could be predicted using quadratic models that fitted the response surface plots with regression coefficients of > 0.9. The effects of in situ selective removal of arabinose and MeGlcA side chains by AbfB and AguA respectively, from water soluble xylans, on their precipitation and adsorption onto cotton lint were investigated. The cotton lint was treated with xylans extracted from bagasse, bamboo, P. patula and E. grandis using the Hoije method in the presence of the recombinant AbfB, AguA and the cocktail of the two enzymes. The effects of in situ selective hydrolysis of model xylans including birch, oat spelt and H2O2 bleached bagasse and E. grandis xylan gel by the enzymes on their adsorption onto cotton lint were used for reference purposes. The purified AguA increased the adsorption of arabinoglucuronoxylans extracted from bagasse bamboo and P. Patula using the Hoije method onto cotton lint the most compared to the effect of the recombinant AbfB and the cocktail of the recombinant AbfB and purified AguA. The purified AguA increased the adsorption of the xylans extracted from bagasse and E. grandis xylans by 334 and 29% respectively, but decreased that of E. grandis xylan gel and H2O2 bleached bagasse xylan by 31 and 6% respectively. Similarly, the presence of the recombinant AbfB increased the adsorption of the bamboo, P. Patula and oat spelt xylans by 31, 44 and 900% respectively, but decreased the adsorption of the xylan extracted from bagasse and the H2O2 bleached bagasse xylan by 13 and 30% respectively. Furthermore, different xylan-cellulose interactions and water adsorption capacities of the cotton lint were observed with the in situ modification and adsorption of the xylans extracted from bagasse, bamboo, E. grandis and P. patula in the presence of the recombinant AbfB and purified AguA. Therefore, the enzyme aided adsorption of xylans could be used to alter or improve functional properties of cellulosic materials. The performance of enzymatically formed xylan nanohydrogels as encapsulation matrices for slow delivery of bioactive agents was evaluated. Insoluble xylan nanohydrogels formed by selective removal of arabinose side chains from water soluble oat spelt xylan by the recombinant AbfB were characterized for particle size distribution, surface charge (zeta potential), morphology stability and ability to encapsulate and slowly release the HRP. The enzymatically formed oat spelt xylan hydrogels were spherical in shape with particle sizes ranging from 18 nm to > 10 000 nm. The xylan nanohydrogels exhibited a negative zeta potential of up to -19 mV and displayed self assembling behaviour when formed at xylan concentrations of higher than 1.5% (w/v) and hydrolysis time beyond 17 h. The xylan concentration significantly (P < 0.05) influenced both the particle size and zeta potential of the oat spelt xylan nanohydrogels whereas the recombinant AbfB hydrolysis time was significant (P < 0.05) on the zeta potential. The oat spelt xylan nanohydrogels successfully encapsulated the HRP enzyme both during and after formation of the oat spelt xylan nanohydrogels and the release of the encapsulated HRP in active form, was sustained for a period of 180 min. Therefore, the xylan side chain removing enzymes have a role in preparation of biodegradable nanoencapsulation devices. Overall, the AbfB and AguA have presented a novel tool for functionalising water soluble xylans to be used as speciality additives, coating and implantation or encapsulation matrices, with reduced impact on the environment. This will advance processing and expand the product spectrum of lignocellulosic materials. / AFRIKAANSE OPSOMMING: Daar is ‘n toenemende belangstelling om spesialiteit biopolimere uit xilaan ontwikkel, en op soortgelyke wyse as hoë molekulêre massa polisakkariede soos stysel en sellulose te benut. Die behoefte om xilaan biodegradeerbare polimere as ‘n alternatief tot sellulose en stysel te gebruik neem toe omdat laasgenoemde baie ander kompeterende gebruike het. Anders as sellulose en stysel is uit xilaan heteropolimere met ‘n hoë graad van substitusie in die hoofketling met sygroepe en lae molekulêre massas, en raak daarom nie geredelik onoplosbaar om hidrojel en biofilms te vorm nie. Gevolglik is xilaan nie geskik vir toepassings van stysel en sellulose as spesialiteit biodegradeerbare bymiddels en bedekkings in die voedsel-, farmaseutiese-, pulp en papier-, tekstiel-, en vele ander industrieë nie. Hierdie studie is uitgevoer om ‘n ensiemtegnologie te ontwikkel gebaseer op rekombinante α-L-arabinofuranosidase en gesuiwerde α-D-glukuronidase met polimeriese xilaan substraat spesifisiteit, vir beheerde vermindering van die oplosbaarheid van wateroplosbare polimeriese xilaan wat lei tot die vorming van onoplosbare nanohidrojels. Alhoewel xilaan volop beskikbaar is, word ‘n groot deel daarvan tans vermors in afvalstrome uit lignosellulose prosessering, primêr verpulping, met min vooruitsigte vir herwinning en toevoeging van waarde. Lignosellulose materiaal wat in Suid-Afrika geproduseer word, insluitend Eucalyptus grandis (E. grandis), Pinus patula (P. patula), Bambusa balcooa (bamboes) en suikerriet (Saccharum officinarum L) (bagasse), is ondersoek as bronne van wateroplosbare xilaan vir ensiem modifikasie. Twee gematigde, lae temperatuur alkali-metodes (‘nalkali lading van < 14% en temperatuur van < 80°C), een met ultrasuiwering aangedui as Hoije en die ander met etanolpresipitasie aangedui as Lopez metode, is evalueer vir selektiewe ekstraksie van wateroplosbare xilaan vanuit die genoemde lignosellulose materiale. Die wateroplosbare xilaan is ge-ekshaheer vanuit P. patula, bagasse, E. grandis en bamboes met die Hoije metode met ekstraksie doeltreffendhede van 71.0, 66.0, 35.0, en 20.0%, onderskeidelik. Met die Lopez metode is xilaan vanuit bagasse en E. grandis geëkstraheer met ekstraksie doeltreffendhede van 28.0% en 12.0%, onderskeidelik. Die xilaan wat vanuit P. patula, bamboes, en bagasse ekstraheer is, is as arabinoglukuronoxilaan geïdentifiseer, wat met arabinose en 4-O-metiel-D glukuronsuur sykettings vervang is, terwyl die xilaan wat vanuit E. grandis ekstraheer is as 4-O-metiel--D-glukuronoxilaan (glukuronoxilaan), met substitusie met MeGlcA en asetiel-groepe op die hoof xilaan-ketting (ruggraat) is. Die glukuronoxilaan het verder spore van arabinose en rhaminose funksionele groepe bevat. Die geëkstraheerde xilaan fraksies het grade van polimerisasie > 10 gehad en was wateroplosbaar, wat die vereiste eienskappe van die xilaan vir doelgemaakte ensiem modifikasies bevredig het. Die selektiewe verwydering van die arabinose, MeGlcA, en asetiel-groepe om xilose eenhede sonder substitusie in polimeriese xilaan te vorm, wat intra- en inter-polimeer binding veroorsaak, word beskou as die belangrikste proses vir die vermindering van die oplosbaarheid van wateroplosbare xilaan. Die α-L-arabinofuranosidase van Aspergillus niger (AbfB) en α-D-glukuronidase van Schizophyllum commune (AguA) is spsialiteutsensieme wat tot dusver is met die vermoë om selektief die arabinose en MeGlcA sykettings, onderskeidelik, vanaf wateroplosbare xilaan te verwyder. Grootskaalse toepassing van die AbfB en AguA ensieme, vir die vermindering van die oplosbaarheid van wateroplosbare xilaan , sal ekstrasellulêre produksie deur mikrobes in groot hoeveelhede en vry van kontaminasie van die xilaan hoofketting degraderende ensieme insluitend die endo-1,4--xilanase vereis. Selektiewe produksie van die AbfB vry van xilanase aktiwiteit is verkry deur kultivering van rekombinante A. niger D15 [abfB], met transkipsie van die abfB-geen beheer deur die gliseraldehied-3-fosfaat dehidrogenase promotor (gpdp) en glukoamilase termineerder (glaAT). Die rekombinante AbfB ensiem is ekstrasellulêr geproduseer in 125 mL skudflesse en ‘n10 L bioreaktor fermentasiekulture met volumetriese aktiwiteite van tot 10.0 en 8.0 nkat mL-1, onderskeidelik, teen para-nitrofenol arabinofuranosied (pNPA). Die uitskeiding van die rekombinante AbfB was groei geassosieerd en het daarom tot 2.5 keer toegeneem met die byvoeging van gekonsentreerde mielieweekvloeistof as ‘n addisionele bron van stikstof in die 2 x minimale standaard kwekingsmedium. Die biomassa spesifieke aktiwiteit van die rekombinante AbfB teen die pNPA substraat was ongeveer 366 nkat g-1 (droë massa basis). Die rekombinante AbfB het ‘n enkele suiwer spesie band getoon op 10% SDS-PAGE gevlek met Coomassie blou en het ‘n beraamde molekulêre massa van 67 kDa gehad. Die rekombinante AbfB het verder optimale aktiwiteit by 40-55°C en pH 3.0-5.0 getoon en was stabiel onder kweking-, storing-, en bedryfstoestande by temperature tussen 30-60°C en pH 3.0-6.0. Die rekombinante AbfB het ook wye substraatspesifisiteit getoon om arabinose sy-groepe selektief te verwyder vanaf lae viskositeit koring-en hawerbiopolimere, lariks arabinogalaktaan, onvertakte arabinaan, en arabinoglukuronoxilaan biopolimere, geëkstraheer vanaf bagasse, bamboes en P.patula wat in Suid-Afrika aangetief word. Die rekombinante AbfB kon xilaan, ge-ekshaheer vanaf bagasse, bamboes en hawer onoplosbaar maak, maar die xilaan geëkstraheer vanaf P. patula nie. Meer as 95% van die aktiwiteit van die rekombinante AbfB teen die pNPA kon hersirkuleer word na selektiewe hidrolise van die xilaan by 40°C vir 16 h. Aan die ander kant kon die gesuiwerde AguA-ensiem slegs berkehout glukuronoxilaan onoplosbaar maak, maar nie glukuronoxilaan wat vanaf E. grandis geëkstraheer is of arabinoglukuronoxilaan wat vanaf bagasse, bamboes en P. patula geëkstraheer is nie. Die sinergistiese aksie van die rekombinante AbfB en die gesuiwerde AguA het die verwydering van die arabinose sykettings vanaf bagassexilaan met 22% vermeerder en met 33% in die geval van bamboesxilaan. Die verwydering van MeGlcA sykettings vanaf bagassexilaan is met slegs 5% vermeerder, terwyl dit met 13% verminder het in die geval van bamboesxilaan. Die selektiewe verwydering van die arabinose sykettings vanaf xilaan van hawer, bagasse, en bamboes deur die rekombinante AbfB het hoër skynbare viskositeit gehad relatief tot die ooreenstemmende onbehandelde xilaan . Die skynbare viskositeit van beide die behandelde en onbehandelde xilaan het egter verminder met toenemende skuiftempo. Die viskositeit het ‘n algehele negatiewe korrelasie met arabinose syketting verwydering gehad en het ‘n minimum van 2.03 mPa.s bereik vir hidrolise van hawerxilaan wat uitgevoer is vir 9.0 h by ‘n temperatuur van 45.8°C met rekombinante AbfB xilaan met ‘n spesifieke dosering van 400.0 nkat g-1substraat. Die wysiging van die viskositeit van die xilaan deur die selektiewe verwydering van die sykettings is van besondere belang in die produksie van spesialiteit emulsifisering, verdikking- en skuimweermiddels. Die optimale waardes vir hidrolisetyd, ensiemdosering en temperatuur vir maksimum graad van arabinose syketting verwydering vanaf hawerxilaan met die rekombinante AbfB, en van MeGlcA syketting verwydering vanaf berkehout xilaan met die gesuiwerde AguA, is vasgestel deur middel van die Box-Benhken responsie oppervlak metode. Die eksperimentele gebied het die xilaanspesifieke dosering met die rekombinante AbfB tussen 18.0 en 540.0 nkat g-1substraat en vir die gesuiwerde AguA xilaan tussen 2.0 en 18.0 μkat g-1substraat by temperature tussen 30 en 50°C en hidrolisetye tussen 1 en 16 h gedek. Die temperatuur, ensiem xilaan spesifieke dosering en hidrolise tyd het elk ‘n beduidende invloed (p<0.05) gehad op beide die selektiewe verwydering van arabinose vanaf hawerxilaan met die rekombinante AbfB en die selektiewe verwydering van MeGlcA vanaf berkehout xilaan met die gesuiwerde AguA. Die interaksie van hierdie hidroliseparameters was egter net beduidend (p<0.05) in die geval van arabinose syketting verwydering vanaf hawer xilaan met die rekombinante AbfB. Die optimale waardes vir die hidrolise tyd, temperatuur, en xilaan spesifieke dosering is beraam om gelyk aan 14-16 h, 38-45°C, en 607.0 nkat g-1substraat, onderskeidelik, te wees vir maksimale verwydering van 43% van die beskikbare arabinose in die hawer xilaan met die rekombinante AbfB. Die optimale waardes vir die hidrolise tyd, temperatuur en xilaan spesifieke dosering vir maksimale verwydering van 0.5% van die beskikbare MeGlcA sykettings vanaf die berkehout xilaan met die gesuiwerde AguA is beraam om gelyk aan 11 h, 38°C, en 18.0 μkat g-1substraat, onderskeidelik, te wees. Die optimale waardes van die hidrolise parameters, vir beide die verwydering van die arabinose vanaf hawer xilaan met die rekombinante AbfB en van MeGlcA sykettings vanaf berkehout met die gesuiwerde AguA, kon voorspel word deur gebruik te maak van kwadratiese modelle wat die responsie-oppervlak grafieke met regressie koeffisiënte > 0.9 gepas het. Die effek van in situ selektiewe verwydering van arabinose en MeGlcA sykettings met rekombinante AbfB en gesuiwerde AguA, onderskeidelik, vanaf wateroplosbare xilaan op hulle presipitasie en adsorpsie op katoen lint is ondersoek. Die katoenlint is behandel met xilaan ge-ekstraheer vanuit bagasse, bamboes, P. patula, en E. grandis deur gebruik te maak van die Hoije metode in die teenwoordigheid van die rekombinante AbfB, AguA, en ‘n mengsel van die twee ensieme. Die effek van in situ selektiewe hidrolise, deur die ensieme van model xilaan insluitende berkehout, hawer en H2O2-gebleikte bagasse en E. grandis xilaan jel, op hulle adsorpsie op katoen lint is gebruik vir verwysingsdoeleindes. Die gesuiwerde AguA het die adsorpsie van arabinoglukuronoxilaan , wat vanuit bagasse, bamboes en P. patula ekstraheer is deur middel van die Hoije metode, op katoenlint die meeste laat toeneem in vergelyking met die effek van die rekombinante AbfB en die mengsel van die rekombinante AbfB en die gesuiwerde AguA. Die gesuiwerde AguA het die adsorpsie van die xilaan wat vanuit bagasse en E. grandis ekstraheer is met 334 en 29%, onderskeidelik, laat toeneem, maar het die adsorpsie van E. grandis xilaanjel en H2O2 gebleikte bagasse xilaan met 31 en 6%, onderskeidelik, laat afneem. Op ‘n soortgelyke wyse het die teenwoordigheid van die rekombinante AbfB die adsorpsie van die bamboes, P. Patula en hawer xilaan met 31, 44, en 900%, onderskeidelik, laat toeneem, maar die adsorpsie van die xilaan ekstraheer vanuit bagasse en die H2O2 gebleikte bagasse xilaan met 13 en 30%, onderskeidelik, laat afneem. Verskillende xilaan-sellulose interaksies en water adsorpsie kapasiteite van die katoen lint is opgemerk met die in situ modifikasie en adsorpsie van die xilaan ekstraheer vanuit die bagasse, bamboes, E. grandis en P. patula in die teenwoordigheid van die rekombinante AbfB en gesuiwerde AguA. Die ensiem bygestaande adsorpsie van xilaan kon daarom gebruik word om die funksionele eienskappe van die sellulose materiaal aan te pas of te verbeter. Die wekverrigting van ensimaties gevormde xilaan nanohidrojels as enkapsuleringmatrikse vir stadige vrystelling van bioaktiewe middels is geevalueer. Onoplosbare xilaan nanohidrojels wat gevorm is deur selektiewe verwydering van arabinose sykettings vanaf wateroplosbare hawer xilaan met die rekombinante AfbA, is gekarakteriseer vir partikelgrootteverspreiding, oppervlaklading (zeta potensiaal), morfologiese stabiliteit, en die vermoë om die ramenas peroksidase te enkapsuleer en stadig vry te stel. Die ensimaties gevormde hawer xilaan hidrojels het ‘n sferiese vorm gehad met partikelgroottes wat gewissel het van 18 nm tot > 10 000 nm. Die xilaan nanohidrojels het ‘n negatiewe zeta potensiaal van tot -19 mV getoon, en het self-vormings gedrag vir partikels ten toon gestel indien dit by xilaankonsentrasies hoër as 1.5% (m/v) en hidrolise tye langer as 17 h gevorm is. Die xilaan konsentrasie het beide die partikelgrootte en die zeta potensiaal van die hawerxilaan nanohidrojels beduidend (P < 0.05) beïnvloed terwyl die rekombinante AbfB hidrolise tyd beduidend (P < 0.05) was op die zeta potensiaal. Die hawer xilaan nanohidrojels, het die ramenasperoksidase ensiem suksesvol enkapsuleer, beide gedurende en na die vorming van die hawer xilaan nanohidrojels en die vrystelling van die geënkapsuleerde ramenas peroksidase in aktiewe vorm is volgehou vir ‘n periode van 180 min. Die ensieme wat die syketting van die xilaan verwyder het, het dus ‘n rol in die voorbereiding van biodegadeerbare nano-enkapsulasie geedskap. In die geheel veskaf die rekombinante AbfB en gesuiwerde AguA ‘n nuwe stel manier voor om wateroplosbare xilaan te funksionaliseer om as spesialiteit bymiddels, bedekking, en inplanting of enkapsulasiematrikse gebruik te word met ‘n verminderde impak op die omgewing. Dit sal prosessering bevorder en die produkspektrum van lignosellulose materiale uitbrei.

Nanohydrogels

Dissertations -- Process engineering

Theses -- Process engineering

Xylan

α-L-arabinofuranosidase

α-D- glucuronidase

Vaccinia virus-encoded bacterial beta-glucuronidase as a diagnostic biomarker for oncolytic virotherapy / Vaccinia Virus-codierte bakterielle Beta-Glucuronidase als diagnostischer Biomarker in der onkolytischen Virotherapie

Heß, Michael

January 2013

Oncolytic virotherapy represents a promising approach to revolutionize cancer therapy. Several preclinical and clinical trials display the safety of oncolytic viruses as wells as their efficiency against solid tumors. The development of complementary diagnosis and monitoring concepts as well as the optimization of anti-tumor activity are key points of current virotherapy research. Within the framework of this thesis, the diagnostic and therapeutic prospects of beta-glucuronidase expressed by the oncolytic vaccinia virus strain GLV-1h68 were evaluated. In this regard, a beta-glucuronidase-based, therapy-accompanying biomarker test was established which is currently under clinical validation. By using fluorescent substrates, the activity of virally expressed beta-glucuronidase could be detected and quantified. Thereby conclusions about the replication kinetics of oncolytic viruses in animal models and virus-induced cancer cell lysis could be drawn. These findings finally led to the elaboration and establishment of a versatile biomarker assay which allows statements regarding the replication of oncolytic viruses in mice based on serum samples. Besides the analysis of retrospective conditions, this test is able to serve as therapy-accompanying monitoring tool for virotherapy approaches with beta-glucuronidase-expressing viruses. The newly developed assay also served as complement to routinely used plaque assays as well as reference for virally expressed anti-angiogenic antibodies in additional preclinical studies. Further validation of this biomarker test is currently taking place in the context of clinical trials with GL-ONC1 (clinical grade GLV-1h68) and has already shown promising preliminary results. It was furthermore demonstrated that fluorogenic substrates in combination with beta-glucuronidase expressed by oncolytic viruses facilitated the optical detection of solid tumors in preclinical models. In addition to diagnostic purposes, virus-encoded enzymes could also be combined with prodrugs resulting in an improved therapeutic outcome of oncolytic virotherapy. In further studies, the visualization of virus-induced immune reactions as well as the establishment of innovative concepts to improve the therapeutic outcome of oncolytic virotherapy could be accomplished. In conclusion, the results of this thesis provide crucial findings about the influence of virally expressed beta-glucuronidase on various diagnostic concepts in the context of oncolytic virotherapy. In addition, innovative monitoring and therapeutic strategies could be established. Our preclinical findings have important clinical influence, particularly by the development of a therapy-associated biomarker assay which is currently used in different clinical trials. / Onkolytische Viren stellen einen vielversprechenden Therapieansatz dar, der die Behandlung von Krebserkrankungen revolutionieren könnte. Intensive präklinische und klinische Studien zeigen sowohl die körperliche Verträglichkeit von onkolytischen Viren, als auch deren Wirksamkeit gegenüber soliden Tumoren. Die Entwicklung von therapiebegleitenden Diagnose- und Monitoringkonzepten sowie eine Optimierung der Antitumorwirkung onkolytischer Viren stellen Eckpunkte der aktuellen Forschung auf dem Gebiet der Virotherapie dar. Im Rahmen dieser Arbeit wurde untersucht, welche diagnostischen und therapeutischen Möglichkeiten die virale Expression von beta-Glucuronidase durch den onkolytischen Vaccinia-Virus-Stamm GLV-1h68 eröffnet. In diesem Zusammenhang wurde ein, auf beta-Glucuronidase basierender, therapiebegleitender Biomarkertest entwickelt, dessen klinische Validierung derzeit stattfindet. Mit Hilfe von fluorogenen Substraten konnte die Aktivität viral exprimierter beta-Glucuronidase detektiert und quantifiziert werden. Dies lies direkte Rückschlüsse auf das Replikationsverhalten von onkolytischen Viren im Tiermodell zu und ermöglichte zudem Aussagen über die Zelllyse Virus-infizierter Krebszellen. Diese Erkenntnisse führten letztendlich zur Ausarbeitung und Etablierung eines vielseitig anwendbaren Biomarker-Assays, der es ermöglicht anhand von Blutproben Aussagen über das Replikationsverhalten onkolytischer Viren in Mäusen zu machen. Neben retrospektiven Analysen erlaubt dieser Test auch ein therapiebegleitendes Monitoring der onkolytischen Virotherapie mit beta-Glucuronidase-exprimierenden Viren. In weiteren präklinischen Untersuchungen diente der entwickelte Assay zudem als Ergänzung zum viralen Plaque Assays sowie als Referenz für Virus-exprimierte anti-angiogene Antikörper. Eine fortführende Validierung dieses neuartigen Biomarkertests findet derzeit im Rahmen humaner Studien mit der klinischen Formulierung von GLV-1h68, GL-ONC1, statt und zeigte bereits erste positive Resultate. Weiterhin konnte im Rahmen dieser Arbeit gezeigt werden, dass die Expression von beta-Glucuronidase durch onkolytische Viren in Verbindung mit fluoreszierenden Substraten eine optische Detektion von Karzinomen im präklinischen Tiermodell ermöglicht. Neben diagnostischen Zwecken, konnten Virus-kodierte Enzyme in Kombination mit Prodrugs genutzt werden, um den Therapieerfolg der onkolytischen Virotherapie zu verbessern. In zusätzlichen Studien konnten zudem Methoden zur Visualisierung der Virus-induzierten Immunantwort sowie neuartige Konzepte zur Therapieverbesserung etabliert werden. Zusammenfassend liefern die Ergebnisse der vorliegenden Arbeit wichtige Erkenntnisse über den Einfluss Virus-exprimierter beta-Glucuronidase auf unterschiedliche Diagnosekonzepte im Rahmen der onkolytischen Virotherapie. Daneben konnten entscheidende Erkenntnisse über den möglichen Einsatz neuer Monitoring- und Therapieansätze erzielt werden. Insbesondere durch die Entwicklung eines therapiebegleitenden Biomarkertests haben diese Resultate erheblichen Einfluss auf die weitere klinische Anwendung von onkolytischen Vaccinia-Viren.

Vaccinia-Virus

Glucuronidase <beta->

Krebs <Medizin>

ddc:570

Identification and characterisation of endoglycosidase activities towards dermatan sulphate by tandem mass spectrometry.

Nielsen, Timothy Clement

January 2009

Dermatan sulphate (DS) is a sulphated glycosaminoglycan (GAG) that is widely distributed as proteoglycan throughout the extracellular matrix and at cell surfaces where it plays an important role in many key biological processes. The intra-cellular catabolism of DS commences with endohydrolysis of the polysaccharide chains to oligosaccharides, which are then sequentially degraded from the non-reducing terminus by lysosomal exoenzymes to monosaccharides and inorganic sulphate for transport out of the lysosome and re-utilisation by the cell. Both endo-β-N-acetylhexosaminidase (Hyal-1 hyaluronidase) and endo-β-glucuronidase activities towards DS have been proposed. The present study was undertaken to: 1) determine the substrate specificities and sub-cellular locations of these endoglycosidase activities; and 2) compare endoglycosidase activities and substrate specificities in the mucopolysaccharidoses, where a defect in one of the lysosomal exoenzymes required to degrade DS results in the lysosomal accumulation of partially degraded DS oligosaccharide fragments. To this end, a series of oligosaccharide substrates designed to represent aspects of the physiological substrate was prepared, and an assay was developed to measure endoglycosidase activities and determine their substrate specificities by quantifying specific oligosaccharide products. Assay substrates rich in glucuronic acid (GlcA) or iduronic acid (IdoA) were prepared by limited chondroitinase ABC digestion of chondroitin sulphate A and DS, respectively. The resulting tetra-to hexadecasaccharides were separated by size-exclusion chromatography and characterised by electrospray ionisation-tandem mass spectrometry (ESI-MS/MS). These substrates, which were not susceptible to degradation by lysosomal exoenzymes, were then incubated with Chinese hamster ovary (CHO)-K1 cell homogenate (source of endoglycosidase activity), and the oligosaccharide products generated from the non-reducing end of the substrate were measured by ESI-MS/MS. Endo-β-N-acetylhexosaminidase and endohexuronidase activities were detected towards the oligosaccharide substrates, with both activities preferentially degrading the GlcA-rich substrates and only minor activity observed towards IdoA-rich substrate. The endo-β-N-acetylhexosaminidase activity had a minimum-sized substrate requirement of a hexasaccharide and was observed to sequentially remove tetrasaccharides from the non-reducing end of oligosaccharides, whereas the endohexuronidase activity had a minimum substrate of an octasaccharide, acted randomly and was comparatively low. The activities displayed the same acidic pH optimum and responded in the same manner to changes in buffer composition and substrate concentration, and to the presence of divalent cations, NaCl, detergent and protease inhibitors. Both activities were modestly affected by the hyaluronidase inhibitor, apigenin. Percoll density gradient sub-cellular fractionation confirmed that the activities were primarily in the lysosomes and late endosomes. The endo-β-N-acetylhexosaminidase and endohexuronidase activities detected here in CHO-K1 cells are consistent with the Hyal-1 and endo-β-glucuronidase enzymes described previously. These data suggest that Hyal-1 and endo-β-glucuronidase are predominantly lysosomal enzymes that act in concert to degrade the low-sulphate, GlcA-rich domains of DS, but are less active towards the highly sulphated regions containing IdoA. To test the hypothesis that endoglycosidase activities are altered in the mucopolysaccharidoses, an attempt was made to compare Hyal-1- and endo-β-glucuronidase-like activities and their substrate specificities in mucopolysaccharidosis (MPS)-affected and unaffected control skin fibroblasts. However, no activity was detected towards octa- to hexadecasaccharide substrates in control fibroblast homogenates, and in homogenates of MPS fibroblasts deficient in the lysosomal exoenzymes α-L-iduronidase and N-acetylgalactosamine-4-sulphatase, despite the fact that: 1) what appear to be the products of Hyal-1 and endo-β-glucuronidase activities towards endogenous DS could be detected in the lysosomes of the MPS cells by sub-cellular fractionation; and 2) the ESI-MS/MS assay was demonstrated sensitive enough to detect endoglycosidase activities in homogenates of a number of different mouse tissues (including whole skin). We hypothesise that this absence of detectable endoglycosidase activity in skin fibroblasts results from enzyme non-recognition of the exogenous assay substrates tested, and hence that these cells contain heretofore undescribed Hyal-1 and endo-β-glucuronidase isoforms with unique substrate specificities. In conclusion, the development of an ESI-MS/MS assay to measure the products of endoglycosidase activities has enabled the characterisation of these activities towards DS. This strategy may be useful for the future study of endoglycosidase activities towards a variety of other GAGs such as heparan sulphate, where particular oligosaccharide structures have been shown to possess unique biological activities. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1374435 / Thesis (Ph.D.) - University of Adelaide, School of Paediatrics and Reproductive Health, 2009

Evaluation of high recombinant protein secretion phenotype of saccharomyces cerevisiae segregant

Sibanda, Ntsako

January 2016

Thesis (MSc. (Biochemistry)) --University of Limpopo, 2016 / The ever increasing cost of fossil-based fuels and the accompanying concerns about their impact on the environment is driving research towards clean and renewable sources of energy. Bioethanol has the potential to be a replacement for liquid transportation fuels. In addition to its near zero nett carbon dioxide emissions, bio-ethanol has a high energy to weight ratio and can easily be stored in high volumes. To produce bioethanol at economically competitive prices, the major cost in the production process needs to be addressed. The addition of enzymes to hydrolyse the lignocellulosic fraction of the agricultural waste to simple sugars is considered to be the major contributor to high production cost. A consolidated bioprocess (CBP) which ideally combines all the steps that are currently accomplished in different reactors by different microorganisms into a single process step would be a more economically feasible solution. In this study the potential of yeast hybridization with a CBP approach was used. In order to evaluate the reduction or elimination of the addition of cellulolytic and hemi-cellulolytic enzymes to the ethanol production process. High cellobiohydrolase I secreting progeny from hybridization of an industrial bioethanol yeast strain, S. cerevisiae M0341, and a laboratory strain S. cerevisiae Y294 were isolated. In order to determine if this characteristic was specific to cellobiohydrolase I secretion, these strains were evaluated for their ability to secrete other relevant recombinant hydrolase enzymes for CBP-based ethanol production. A total of seven S. cerevisiae strains were chosen from a progeny pool of 28 supersecreting hybrids and reconstructed to create two parental strains; S. cerevisiae M0341 and S. cerevisiae Y294, together with their hybrid segregants strains H3M1, H3M28, H3H29, H3K27 and H3O23. Three episomal plasmids namely pNS201, pNS202 and pNS203 were constructed; these plasmids together with two already available plasmids, namely pRDH166 and pRDH182 contained genes for different reporter enzymes, namely β-glucosidase I, xylanase II, endoglucanase lll, cellobiohydrolase l and α-glucuronidase. To allow for selection of the episomal plasmids, homologous recombination was used to replace the functional URA3 gene of selected strains, with the non-functional ura3 allele from the Y294 strain. Enzyme activity was used as an indicator of the amount of enzyme secreted. Fermentation studies in a bioreactor were used to determine the metabolic burden imposed on the segregants expressing the cellobiohydrolase at high levels. In addition all segregants were tested for resistance to inhibitors commonly found in pre-treated lignocellulosic material. The M28_Cel7A was found to be the best secretor of Cel7A (Cellobiohydrolase l); however it seems as though this phenomenon imposes a significant metabolic burden on the yeast. The supersecreting hybrid strains cannot tolerate lignocellulosic inhibitors at concentrations commonly produced during pretreatment / The National Research Foundation - Renewable Energy Scholarship (NRF-RSES)

Yeast hybridization

Enzyme secretion

β-glucosidase I

Xylanase II

Endoglucanase lll

Cellobiohydrolase l

α-glucuronidase

Saccharomyces

Separation of Recombinant β-Glucuronidase from Transgenic Tobacco by Aqueous Two-Phase Extraction

Ross, Kristin Coby

28 July 2008

Biopharmaceutical manufacturing is a rigorous and expensive process. Due to the medicinal nature of the product, a high purity level is required and several expensive purification steps must be utilized. Cost-effective production and purification is essential for any biopharmaceutical product to be successful and development of the fastest, most economical, and highest-yielding purification scheme is a constant engineering challenge. Commercial-scale purification schemes currently revolve around the use of multiple chromatography steps for the purification of biopharmaceutical products. Chromatography has many shortcomings including high cost, limited throughput, and complex scale up. The goal of this research was to develop an alternative, non-chromatography purification step for the separation of an acidic model protein, recombinant β-glucuronidase (rGUS), from transgenic tobacco with high yield and purity. Aqueous two-phase extraction (ATPE) is a powerful technique for separation and purification of proteins, and has the potential to replace an expensive chromatography step for the initial purification of recombinant proteins. ATPE enables high levels of target protein recovery and concentration while removing large amounts of impurities from the initial extract. Fractional factorial designs and response surface methodology were used to determine an optimized aqueous two-phase system for the purification of rGUS from transgenic tobacco. In a 13.4 % (w/w) PEG/18% (w/w) potassium phosphate system, 74% of the rGUS was recovered in the top PEG-rich phase while 90% of the native tobacco proteins were removed in the interphase and the bottom phase. A purification factor of about 20 was achieved in this process. / Master of Science

transgenic tobacco

recombinant β-glucuronidase

aqueous two-phase extraction

protein purification

Caracterização de promotores de expressão especifica de cana-de-açucar (Saccharum ssp.) em sistema modelo Micro-Tom (Solanum lycopersicum L) / Characterization of promoters specific expression of sugar cane (Saccharum spp.) In model systems Micro-Tom (Solanum lycopersicum L)

Ferrari, Ilse Fernanda

31 October 2012

O emprego de novas tecnologias, como a transgenia, associadas ao melhoramento convencional de cana-de-açúcar apresenta grande potencial no combate a pragas e desenvolvimento de novas variedades. Entretanto, a falta de especificidade na expressão temporal e/ou local dos genes introduzidos tem se mostrado um fator limitante para o sucesso de produtos derivados da transgenia. Os promotores das metalotioneínas, por exemplo, podem representar uma alternativa ao uso de promotores constitutivos, particularmente, aqueles de metalotioneínas do tipo 1 (MT1) por apresentarem níveis elevados de expressão, em diferentes tecidos/órgãos e serem responsivos a estresses bióticos e abióticos. O uso de promotores sintéticos, contendo apenas elementos-cis, como GCG-like, W boxes e JERE, tem sido relevante por induzirem a expressão gênica local em resposta ao ataque de agentes bióticos. Este trabalho teve por objetivo a caracterização funcional de promotores de genes de metalotioneínas de cana-de-açúcar e o uso de elementos regulatórios sintéticos e, em paralelo, avaliou-se o uso de promotores sintéticos no controle da expressão gênica em cana-de-açúcar. Após as análises de expressão transiente, verificou-se que o promotor SoMT1b apresentou atividade GUS e GFP em epitélios de cebola e os promotores sintéticos, 4X Wbox, 4X GCC-like, 4X JERE e 4xW 4xS-box, e o promotor SoMT1b foram capazes de dirigir a expressão do gene repórter uidA (GUS) em calos embriogênicos de cana-de-açúcar. Em análise de expressão estável, o promotor SoMT1b foi capaz de dirigir a expressão do gene GUS para os frutos e sementes de tomate \'Micro-Tom\', mas não foi responsivo a estresse por herbivoria, cádmio e cobre. Também foi realizada a transformação de plantas de cana-de-açúcar, as quais ainda estão sendo analisadas. Os resultados obtidos demonstram a funcionalidade do promotor SoMT1b / New technologies, like genetic transformation, associated with conventional breeding of sugarcane have a large potential in developing new varieties tolerant to biotic and abiotic stress. However, the lack of specificity in the spatial and/or temporal expression of the introduced genes has been a limited factor for the success of products derived from transgeny. Metallothionein promoters, for instance, can represent an alternative to the use of constitutive promoters, particularly those from metallothionein type 1 (MT1) because they present high expression levels in different tissues / organs and are responsive to biotic and abiotic stress. Another alternative is the use of synthetic promoters which contain only cis elements, as GCG-like, W-box and JERE, which induces local gene expression in response to pathogen attack. In this work, we aimed to make the functional characterization of sugarcane metallothionein promoters and synthetic regulatory elements, in parallel, we evaluated the use of synthetic promoters in the control of gene expression in sugarcane. After transient expression analyzis, it was found that SoMT1b promoter was able to control the expression of the reporter genes to GUS and GFP in onion epithelium and GUS in sugarcane embryogenic calli. Additionally, synthetic promoters 4X Wbox, 4X GCC-like, 4X JERE and 4xW 4xS-box were able to direct the expression of the gene uidA (GUS) in embryogenic calli of sugarcane. In stable transformation analysis, SoMT1b promoter was capable of directing uidA expression in fruits and seeds of tomato cv. \'Micro-Tom\', but it was not responsive to herbivory, cadmium and copper stress. It was also carried out the transformation of sugarcane plants with the construction containing the SoMT1b promoter, but these are still being analyzed. The results demonstrate the functionality of the SoMT1b promoter in sugarcane and tomato

"Micro-Tom'

'beta'-glucuronidase (GUS)

'beta'-glucuronidase (GUS)

'Micro-Tom'

Expressão estável

Expressão transiente

Metallothionein promoters

Promotores de metalotioneínas

Promotores sintéticos

Saccharum ssp

Saccharum ssp

Stable expression

Synthetic promoters

Transient expression

Caracterização de promotores de expressão especifica de cana-de-açucar (Saccharum ssp.) em sistema modelo Micro-Tom (Solanum lycopersicum L) / Characterization of promoters specific expression of sugar cane (Saccharum spp.) In model systems Micro-Tom (Solanum lycopersicum L)

Ilse Fernanda Ferrari

31 October 2012

O emprego de novas tecnologias, como a transgenia, associadas ao melhoramento convencional de cana-de-açúcar apresenta grande potencial no combate a pragas e desenvolvimento de novas variedades. Entretanto, a falta de especificidade na expressão temporal e/ou local dos genes introduzidos tem se mostrado um fator limitante para o sucesso de produtos derivados da transgenia. Os promotores das metalotioneínas, por exemplo, podem representar uma alternativa ao uso de promotores constitutivos, particularmente, aqueles de metalotioneínas do tipo 1 (MT1) por apresentarem níveis elevados de expressão, em diferentes tecidos/órgãos e serem responsivos a estresses bióticos e abióticos. O uso de promotores sintéticos, contendo apenas elementos-cis, como GCG-like, W boxes e JERE, tem sido relevante por induzirem a expressão gênica local em resposta ao ataque de agentes bióticos. Este trabalho teve por objetivo a caracterização funcional de promotores de genes de metalotioneínas de cana-de-açúcar e o uso de elementos regulatórios sintéticos e, em paralelo, avaliou-se o uso de promotores sintéticos no controle da expressão gênica em cana-de-açúcar. Após as análises de expressão transiente, verificou-se que o promotor SoMT1b apresentou atividade GUS e GFP em epitélios de cebola e os promotores sintéticos, 4X Wbox, 4X GCC-like, 4X JERE e 4xW 4xS-box, e o promotor SoMT1b foram capazes de dirigir a expressão do gene repórter uidA (GUS) em calos embriogênicos de cana-de-açúcar. Em análise de expressão estável, o promotor SoMT1b foi capaz de dirigir a expressão do gene GUS para os frutos e sementes de tomate \'Micro-Tom\', mas não foi responsivo a estresse por herbivoria, cádmio e cobre. Também foi realizada a transformação de plantas de cana-de-açúcar, as quais ainda estão sendo analisadas. Os resultados obtidos demonstram a funcionalidade do promotor SoMT1b / New technologies, like genetic transformation, associated with conventional breeding of sugarcane have a large potential in developing new varieties tolerant to biotic and abiotic stress. However, the lack of specificity in the spatial and/or temporal expression of the introduced genes has been a limited factor for the success of products derived from transgeny. Metallothionein promoters, for instance, can represent an alternative to the use of constitutive promoters, particularly those from metallothionein type 1 (MT1) because they present high expression levels in different tissues / organs and are responsive to biotic and abiotic stress. Another alternative is the use of synthetic promoters which contain only cis elements, as GCG-like, W-box and JERE, which induces local gene expression in response to pathogen attack. In this work, we aimed to make the functional characterization of sugarcane metallothionein promoters and synthetic regulatory elements, in parallel, we evaluated the use of synthetic promoters in the control of gene expression in sugarcane. After transient expression analyzis, it was found that SoMT1b promoter was able to control the expression of the reporter genes to GUS and GFP in onion epithelium and GUS in sugarcane embryogenic calli. Additionally, synthetic promoters 4X Wbox, 4X GCC-like, 4X JERE and 4xW 4xS-box were able to direct the expression of the gene uidA (GUS) in embryogenic calli of sugarcane. In stable transformation analysis, SoMT1b promoter was capable of directing uidA expression in fruits and seeds of tomato cv. \'Micro-Tom\', but it was not responsive to herbivory, cadmium and copper stress. It was also carried out the transformation of sugarcane plants with the construction containing the SoMT1b promoter, but these are still being analyzed. The results demonstrate the functionality of the SoMT1b promoter in sugarcane and tomato

'beta'-glucuronidase (GUS)

'Micro-Tom'

Expressão estável

Expressão transiente

Promotores de metalotioneínas

Promotores sintéticos

Saccharum ssp

"Micro-Tom'

'beta'-glucuronidase (GUS)

Metallothionein promoters

Saccharum ssp

Stable expression

Synthetic promoters

Transient expression

Efficacité du gène rapporteur UIDA pour la sélection de plants d'épinette blanche génétiquement transformés avec le gène bt (Bacillus thuringiensis sous-espèce kurstaki) /

Ayisso, Justine.

January 2003

Thèse (M.Sc.)--Université Laval, 2003. / Bibliogr.: f. 81-94. Publié aussi en version électronique.

Molekulární analýza transgenních rostlin rododendronů, získaných po transformaci vektorem 35SGUSint. / Molecular analysis of transgenic rhododendron plants obtained by transformation with 35SGUSint. construct

SKOTNICOVÁ, Petra

January 2011

The goal of this thesis was molecular analysis of rhododendron plants obtained after transformation by Agrobacterium tumefaciens and subsequent selection on kanamycin. Presence of incorporated genes gusA and nptII was determined by polymerase chain reaction (PCR) and Southern analysis. GUS activity was determined by fluorimetric and histochemical assay too.