Adaptivna laboratorijska evolucija izbranih gliv za alkalotoleranco

Glavina, Miha

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Adaptivna laboratorijska evolucija izbranih gliv za alkalotoleranco
ID Glavina, Miha (Avtor), ID Gunde Cimerman, Nina (Mentor) Več o mentorju... Povezava se odpre v novem oknu

, ID Kos, Monika (Komentor), ID Mandić-Mulec, Ines (Recenzent)

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Izvleček

V magistrskem delu smo preučevali možnost izboljšanja alkalotolerance gliv z metodo adaptivne laboratorijske evolucije (ALE), z namenom pridobivanja sevov, sposobnih preživetja in biomineralizacije v betonu. Iz zbirke Ex (MRIC UL) smo izbrali 35 sevov z naravno izraženo ureazno aktivnostjo, sposobnostjo sporulacije in potencialom biomineralizacije kalcijevega karbonata. Izmed njih smo za nadaljnje poskuse izbrali sev Aureobasidium sp. EXF-16720. V osmih zaporednih ciklih ALE smo kulturo izpostavljali postopnemu dvigu pH od 7 do 10,5 in spremljali fenotipske spremembe. Izvedli smo sekvenciranje genoma prve in zadnjih dveh generacij. Sekvence smo sestavili z uporabo programske opreme bwa, poiskali mutacije s programom gatk4 in anotirali gene, na katere so vplivale s programom Augustus. Sev Aureobasidium sp. EXF-16720 je bil po ALE sposoben rasti pri pH 10,5, kar predstavlja pomembno izboljšavo v primerjavi z izhodiščnim pH. Pri tem je ohranil sposobnost biomineralizacije, kar smo potrdili z gojenjem na biomineralizacijskem gojišču in izolacijo mineralov, ki smo jih analizirali z vrstičnim elektronskim mikroskopom, energijsko disperzivno spektroskopijo in Ramansko spektroskopijo. Preliminarna karakterizacija je pokazala prisotnost kalcita in kalcijevih fosfatov. Genomske analize so razkrile mutacije, povezane s transportom uree, ki so skladne s pridobljenimi fenotipskimi lastnostmi. S tem smo potrdili hipoteze o učinkovitosti ALE pri izboljšanju alkalotolerance in biomineralizacijskega potenciala. Dognanja prispevajo k razumevanju možnosti uporabe gliv kot ključnih gradnikov nove generacije biobetona in omogočajo nadaljnje raziskave v smeri nadgradnje sevov ter njihove aplikacije.

Jezik:	Slovenski jezik
Ključne besede:	adaptivna laboratorijska evolucija, evolucija, alkalno okolje, Aureobasidium ekstremofili, biomineralizacija, beton, glive, genom, bioinformatika, mikroskopija, spektroskopija, mutacije
Vrsta gradiva:	Magistrsko delo/naloga
Tipologija:	2.09 - Magistrsko delo
Organizacija:	BF - Biotehniška fakulteta
Založnik:	[M. Glavina]
Leto izida:	2025
PID:	20.500.12556/RUL-173210
UDK:	579.22/.26:582.28:691.32
COBISS.SI-ID:	248862723
Datum objave v RUL:	14.09.2025
Število ogledov:	175
Število prenosov:	0
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Sekundarni jezik

Izvleček:
Jezik:	Angleški jezik
Naslov:	Directed evolution of selected fungi for alkalitolerance
In the master's thesis we investigated the possibility of improving the alkali tolerance of selected fungi using the adaptive laboratory evolution (ALE) method, with the aim of obtaining strains capable of survival and biomineralization of concrete. From the Ex collection (MRIC UL) we selected 35 strains with naturally expressed urease activity, ability to sporulate, and the potential to biomineralize calcium carbonate, of which the strain Aureobasidium sp. EXF-16720 was selected for further experiments. In 8 consecutive ALE cycles, the culture was exposed to a gradual increase in pH from 7 to 10,5. Phenotypic changes were monitored, and genome sequencing was performed for the first and last two cycles of evolution. The sequences were assembled into scaffolds using bwa software, variant calling was done using gatk4 and the genes affected by the mutations were annotated using Augustus. After ALE the strain Aureobasidium sp. EXF-16720 was able to grow at a pH of 10.5, which represents a significant improvement compared to the original strain. At the same time, it retained the ability to biomineralise. This was confirmed by cultivation on a biomineralization medium, which was followed by the isolation of crystals. Analysis by scanning electron microscopy, energy-dispersive spectroscopy, and Raman spectroscopy was performed on the acquired crystal samples. Preliminary characterization showed presence of calcite and calcium phosphates. Genomic analyses revealed mutations related to urea transport, that matched acquired phenotypic traits. We have thus confirmed the hypotheses on the effectiveness of ALE in improving alkali tolerance and biomineralization potential of selected fungi. The findings contribute to furthering the possibilities of using fungi as upstart building blocks of a new generation of bioconcrete and enable further research to improve the strains and their application potential.
Ključne besede:	adaptive laboratory evolution, evolution, alkali environment, Aureobasidium extremophiles, biomineralization, concrete, fungi, genome, bioinformatics, microscopy, spectroscopy, mutations

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