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Vzpostavitev metodologije za vnos in izražanje heterolognega gena v glivi Trichoderma reesei RUT C30
ID Zaharieva, Marija (Author), ID Petrovič, Uroš (Mentor) More about this mentor... This link opens in a new window, ID Magdevska, Vasilka (Comentor)

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Abstract
S pristopom genskega in metabolnega inženiringa lahko modificiramo naravni metabolizem organizma, da le-ta producira večjo količino želenega produkta ali da omogoča sintezo heterolognega metabolita. Filamentozne glive imajo pomembno vlogo v industrijski biotehnologiji. So privlačni organizmi za produkcijo proteinov, organskih kislin, encimov in sekundarnih metabolitov. Zaradi sposobnosti sinteze in kopičenja visoke koncentracije celulaz je tudi Trichoderma reesei postala pomembna gliva za metabolni inženiring. Visoki donosi so rezultat zelo močnih promotorjev ter učinkovitih signalnih zaporedij, ki ji kodirajo geni za celulaze. Med različnimi molekularnimi pristopi je uporaba poročevalskega gena zelo pomembna pri proučevanju in optimizaciji produkcije proteinov v želenem gostitelju. Z namenom postavitve metodologije za produkcijo heterolognih proteinov v glivi T. reesei RUT C30 smo naredili in uporabili različne konstrukte, ki vsebujejo poročevalski gen za zeleni fluorescenčni protein (GFP). Uspeli smo pridobiti transformante, ki izražajo protein GFP pod kontrolo različnih promotorjev. Produkcija heterolognega proteina GFP je bila večja ob uporabi induktorja Avicel in izražanje gena gfp pod kontrolo promotorja cbh1. Promotor gena cbh1 je močno uravnavan s prisotnostjo določenih virov ogljika. Prisotnost glukoze ga inhibira, medtem ko celuloza in njeni derivati ter laktoza inducirajo izražanje gena pod kontrolo promotorja cbh1. S spektrofotometričnim merjenjem fluorescence, poliakrilamidno elektroforezo v prisotnosti SDS, imunodetekcijo proteina s prenosom western in fluorescenčno mikroskopijo smo uspešno detektirali znotrajcelično izražen protein GFP.

Language:Slovenian
Keywords:glive, Trichoderma reesei, metabolni inženiring, metoda Gibson, heterologne proteine, GFP
Work type:Master's thesis/paper
Typology:2.09 - Master's Thesis
Organization:BF - Biotechnical Faculty
Year:2022
PID:20.500.12556/RUL-142229 This link opens in a new window
COBISS.SI-ID:127382275 This link opens in a new window
Publication date in RUL:27.10.2022
Views:666
Downloads:190
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Secondary language

Language:English
Title:Developing a method for incorporation and expression of the target gene in Trichoderma reesei RUT C30
Abstract:
Using genetic and metabolic engineering, we are able to modify metabolism of certain organisms. Filamentous fungi are one of the most biotechnologically important industrial microorganisms. The key characteristic that makes them so important, is their ability to produce numerous metabolites such as proteins, organic acids, enzymes and secondary metabolites. Trichoderma reesei has been regarded as a leading fungus for metabolic engineering, due to its ability to produce and to secrete high amounts of cellulases. Among the various molecular approaches, application of reporter gene is very important for studying and optimizing the heterologous protein production in the genome of the desired host. In order to establish an appropriate methodology for heterologous protein production in the genome of fungus T. reesei RUT-C30, we constructed and applied different vectors that contain reporter gene for green fluorescent protein (GFP). As a result, we obtained T. reesei transformants which can express reporter gene for GFP that was under the control of different promoters. We observed that the production of heterologous GFP protein was higher with the application of Avicel inductor and cbh1 promoter. Certain carbon sources strongly regulate the activity of the promoter of the cbh1 gene. With the application of spectrophotometric measurement of fluorescence, SDS PAGE, western blot and fluorescence microscopy, we successfully detected intracellular expression of GFP.

Keywords:fungi, Trichoderma reesei, metabolic engineering, Gibson Assembly, heterologous proteins, GFP

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