Project description:Complete mitochondrial genomic sequence of Amanita sinocitrina

Project description:Complete mitochondrial genomic sequence of Russula sanguinea

Project description:Complete mitochondrial genomic sequence of Lepiota venenata

Project description:Complete mitochondrial genomic sequence of Lenzites betulinus (Lenzites)

Project description:Illumina HiSeq technology was used to generate mRNA profiles from Suillus luteus ectomycorrhizal roots compared to free-living mycelium . Mycorrhizal roots were harvested after 40 days, pooled and used for RNA extraction. Reads of 2X100bp were generated and aligned to Suillus luteus (http://genome.jgi-psf.org/Suilu1/Suilu1.home.html) using CLC Genomics Workbench 6.

Project description:Studying whether removal of base-excision repair from mitochondria will result into increase in mitochondrial DNA (mtDNA) mutation load. The endogenous genes of OGG1 and MUTYH DNA glycosylases were modified to lack the genomic region encoding for the predicted mitochondrial targeting sequence. The mouse lines used: A mouse line that lacks the region encoding for the mitochondrial targeting sequence (L2 to W23) of OGG1 (Ogg1 dMTS mice). A mouse line that lacks the region encoding the mitochondrial targeting sequence (K2 to P33) of MUTYH (Mutyh dMTS mice). To accumulate mutations to the mitochondrial DNA these mice were bred double homozygous Mutyh dMTS x Ogg1 dMTS mice as a maternal lineage for five consecutive generations and mitochondrial DNA from liver was extracted from the offspring and sequenced with Illumina. OGG1 and MUTYH are involved in repair of 8-oxo-dG from DNA. 8-oxo-dG can be a mutagenic lesion because some DNA repair polymerases are known to erroneously incorporate adenosine opposite to 8-oxo-dG during replication leading to GC>TA transversion mutations.

Project description:Complete mitochondrial genome sequence

Project description:Complete mitochondrial genome sequence

Project description:Complete mitochondrial genome sequence

Project description:Complete mitochondrial genome sequence