Extracting fungal DNA from drill- and biofilm samples from wood in logs

The fungal kingdom is a large group of eukaryotic organisms consisting of more than 100 000 known and an expected number of more than 1 million species with a wide variety of lifestyles. Among these lifestyles is a symbiotic lifestyle that has been of importance for lichen forming fungi. The lichens...

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Bibliographic Details
Main Author: Wickander, Niklas
Format: Other/Unknown Material
Language:English
Published: SLU/Dept. of Forest Mycology and Plant Pathology 2016
Subjects:
lichen
DNA-extraction
ITS-region
barcode
Norway
Arvidsjaur
Online Access:https://stud.epsilon.slu.se/9170/
id ftsluppsalast:oai:stud.epsilon.slu.se:9170
record_format openpolar
spelling ftsluppsalast:oai:stud.epsilon.slu.se:9170 2023-05-15T15:25:45+02:00 Extracting fungal DNA from drill- and biofilm samples from wood in logs Wickander, Niklas 2016 https://stud.epsilon.slu.se/9170/ eng eng SLU/Dept. of Forest Mycology and Plant Pathology https://stud.epsilon.slu.se/9170/ lichen DNA-extraction ITS-region barcode M2 2016 ftsluppsalast 2022-09-10T18:10:40Z The fungal kingdom is a large group of eukaryotic organisms consisting of more than 100 000 known and an expected number of more than 1 million species with a wide variety of lifestyles. Among these lifestyles is a symbiotic lifestyle that has been of importance for lichen forming fungi. The lichens are a polyphyletic group consisting of around 18000 different species. These fungi belong to both the Ascomycota and Basidiomycota, with the majority of the lichen forming fungi being Ascomycota. Though lichens have been known of and studied since the 19th century, many of the basic biological features are unknown due to their cryptic nature. With new and modern methods, such as next generation sequencing (NGS) and barcoding, it has become possible and more available to study lichens in different substrates. Different barcoding regions are used in the three major eukaryotic groups, animals, plants and fungi. The internal transcribed spacer (ITS) region is the adopted default barcoding region in fungi and has proven to be efficient in most taxa. In this study, the fungal ITS2 region is amplified with the primers gITS7, ITS4A and ITS4 from samples collected from naturally decaying Norway spruce logs. The aim of this study is to: (1) provide practical experience, (2) examine where the highest fungal DNA concentration in the logs is and (3) examine the similarity between the technical replicates. In this experiment, 32 wood discs collected from 8 logs of Norway spruce in two forests in Arvidsjaur, Sweden by my supervisor Veera Tuovinen were examined. From 13 different places on the wood discs, drill-samples were taken and extracted for DNA. Two replicates of each drill- sample were taken. In addition, from each wood disc four biofilm samples were taken and DNA extracted. The samples were run in PCR with tagged primers for preparations to Illumina- sequencing. After the PCR, the samples were cleaned and the DNA-concentrations measured. The concentration of fungal DNA in the log decreased from the edge to the center of the ... Other/Unknown Material Arvidsjaur Swedish University of Agricultural Sciences: Epsilon Archive for Student Projects Norway Arvidsjaur ENVELOPE(19.167,19.167,65.590,65.590)
institution Open Polar
collection Swedish University of Agricultural Sciences: Epsilon Archive for Student Projects
op_collection_id ftsluppsalast
language English
topic lichen
DNA-extraction
ITS-region
barcode
spellingShingle lichen
DNA-extraction
ITS-region
barcode
Wickander, Niklas
Extracting fungal DNA from drill- and biofilm samples from wood in logs
topic_facet lichen
DNA-extraction
ITS-region
barcode
description The fungal kingdom is a large group of eukaryotic organisms consisting of more than 100 000 known and an expected number of more than 1 million species with a wide variety of lifestyles. Among these lifestyles is a symbiotic lifestyle that has been of importance for lichen forming fungi. The lichens are a polyphyletic group consisting of around 18000 different species. These fungi belong to both the Ascomycota and Basidiomycota, with the majority of the lichen forming fungi being Ascomycota. Though lichens have been known of and studied since the 19th century, many of the basic biological features are unknown due to their cryptic nature. With new and modern methods, such as next generation sequencing (NGS) and barcoding, it has become possible and more available to study lichens in different substrates. Different barcoding regions are used in the three major eukaryotic groups, animals, plants and fungi. The internal transcribed spacer (ITS) region is the adopted default barcoding region in fungi and has proven to be efficient in most taxa. In this study, the fungal ITS2 region is amplified with the primers gITS7, ITS4A and ITS4 from samples collected from naturally decaying Norway spruce logs. The aim of this study is to: (1) provide practical experience, (2) examine where the highest fungal DNA concentration in the logs is and (3) examine the similarity between the technical replicates. In this experiment, 32 wood discs collected from 8 logs of Norway spruce in two forests in Arvidsjaur, Sweden by my supervisor Veera Tuovinen were examined. From 13 different places on the wood discs, drill-samples were taken and extracted for DNA. Two replicates of each drill- sample were taken. In addition, from each wood disc four biofilm samples were taken and DNA extracted. The samples were run in PCR with tagged primers for preparations to Illumina- sequencing. After the PCR, the samples were cleaned and the DNA-concentrations measured. The concentration of fungal DNA in the log decreased from the edge to the center of the ...
format Other/Unknown Material
author Wickander, Niklas
author_facet Wickander, Niklas
author_sort Wickander, Niklas
title Extracting fungal DNA from drill- and biofilm samples from wood in logs
title_short Extracting fungal DNA from drill- and biofilm samples from wood in logs
title_full Extracting fungal DNA from drill- and biofilm samples from wood in logs
title_fullStr Extracting fungal DNA from drill- and biofilm samples from wood in logs
title_full_unstemmed Extracting fungal DNA from drill- and biofilm samples from wood in logs
title_sort extracting fungal dna from drill- and biofilm samples from wood in logs
publisher SLU/Dept. of Forest Mycology and Plant Pathology
publishDate 2016
url https://stud.epsilon.slu.se/9170/
long_lat ENVELOPE(19.167,19.167,65.590,65.590)
geographic Norway
Arvidsjaur
geographic_facet Norway
Arvidsjaur
genre Arvidsjaur
genre_facet Arvidsjaur
op_relation https://stud.epsilon.slu.se/9170/
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