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Uporaba metagenomskih pristopov pri odkrivanju sekundarnih metabolitov mikrobnega izvora
ID Lavrih, Ernestina (Author), ID Petković, Hrvoje (Mentor) More about this mentor... This link opens in a new window

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Abstract
Velika večina sodobnih zdravil je bila razvita posredno ali pa neposredno iz naravnih biološko aktivnih učinkovin mikrobnega izvora. Kljub temu zaradi omejitev pri tradicionalni izolaciji in kultivaciji trčimo ob oviro; ocenjujemo, da velika večina od potencialno 1011-1012 mikrobnih vrst še vedno ne znamo gojiti v laboratorijskem okolju. Hkrati so antibiotiki, pridobljeni iz mikrobnih virov, postali manj uporabni, saj je njihova intenzivna uporaba terjala pojav patogenih mikroorganizmov, od katerih nekateri kažejo odpornost na praktično vse razrede antibiotikov. Odpornost na antibiotike hitro narašča, ob enem pa se število novo odkritih in strukturno učinkovin bistveno zmanjšuje. Danes ugotavljamo, da metagenomika za odkrivanje novih sekundarnih metabolitov postaja zelo obetavno orodje ravno zato, ker se opira na simultano sekvenciranje številnih genomov mikroorganizmov iz okolja, ki so potencialni vir novih biološko aktivnih učinkovin. Omogoča odkrivanje genov in razodevanje celotnih biosinteznih poti tako kultivabilnih kot nekultivabilhnih mikroorganizmov. Razvoj funkcionalne metagenomike in tiste, ki temelji na sekvenciranju, utira pot odkrivanju novih genskih skupin za pridobivanje biološko aktivnih učinkovin z biotehnološko zanimivi aplikacijami. Pojav sekvenciranja naslednje generacije in napredek bioinformatskih orodij sta prestopila nekaj ovir pri odkrivanju novih sekundarnih metabolitov. V diplomskem delu je povzeta zgodovina metagenomike, metagenomska analiza in nasploh metagenomski pristopi. V drugem pa je povzeta uporaba metagenmskih pristopov v odkrivanju novih sekundarnih metabolitov mikrobnega izvora.

Language:Slovenian
Keywords:biotehnologija, metagenomska analiza, sekundarni metaboliti
Work type:Bachelor thesis/paper
Typology:2.11 - Undergraduate Thesis
Organization:BF - Biotechnical Faculty
Publisher:[E. Lavrih]
Year:2020
PID:20.500.12556/RUL-117714 This link opens in a new window
UDC:602.3:579.2:575.112(043.2)
COBISS.SI-ID:23644675 This link opens in a new window
Publication date in RUL:23.07.2020
Views:1504
Downloads:203
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Secondary language

Language:English
Title:Application of metagenomic analysis for the discovery of microbial secundary metabolites
Abstract:
The majority of modern clinically important drugs have been isolated directly from natural sources, or, were inspired by natural products of microbial origin. However, in spite of this, the estomated vast majority of 1011-1012 microbial species have remained largely untapped because of the constraints of traditional isolation and cultivation approaches. Over the years the antibiotics isolated from microbial sources have been rendered useless, as their overuse has resulted in the emergence of pathogens showing antibiotic resistance to antibiotics. In the wake of growing antibiotic resistance, coupled with slow pace of discovery of new antibiotic producers, there is a growing demand for novel approaches. Metagenomics is a very promissing approach for the discovery of new secondary metabolites because it relies on the sequencing of several genomes of microorganisms from the environment, which are a potential source. It enables the detection of genes and biosynthetic pathways of both culturable and nonculturable microorganisms. The development of functional and sequence-based metagenomics paves the way for discovery of new gene clusters for the production of biologically active substances with biotechnologically interesting applications. Progess of next-generation sequencing and development of computer tools have also overcome some of the barriers in secondary metabolites discovery. Therefore, in the scope of this work, we will summarize the history of metagenomics and then focus on metagenomic analysis and its approaches. In the second part, we present use metagenomics approaches in identification of secondary metabolites of microbial origin.

Keywords:biotechnology, metagenomics, secondary metabolites

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