Project description:70mer probes were designed to detect plant viruses infection in genus level. This microarray platform is able to detect 169 plant virus species of 13 virus genera.
Project description:40mer probes were designed to detect plant viroids infection at the genus level. This microarray platform is able to detect a wide spectrum of all the 8 reported viroid genera, including 37 known plant viroid species.
Project description:70mer probes were designed to detect plant viruses infection in genus level. This microarray platform is able to detect 169 plant virus species of 13 virus genera. Virus sampels were extracted from infected plant hosts. Genomic RNA was extracted and hybridized to the microarray.
Project description:40mer probes were designed to detect plant viroids infection at the genus level. This microarray platform is able to detect a wide spectrum of all the 8 reported viroid genera, including 37 known plant viroid species. Viroid samples were extracted from infected plant hosts and plasmids. Total RNA was extracted and hybridized to the microarray.
Project description:20 random DNA barcodes were designed in silico and transfected into PC3 cells. Barcodes were sequenced using Illumina-Miseq technology to find the sequence and their respective copy numbers. Current file contains the raw data of these DNA barcodes in fastq format
Project description:20 random DNA barcodes were designed in silico and transfected into PC3 cells. Barcodes were sequenced using Illumina-Miseq technology to find the sequence and their respective copy numbers. Current file contains the raw data of these DNA barcodes in fastq format Validating an algorithm called SRiD that generates random DNA barcodes that do not match a genome of interest, in this case human genome. 20 DNA barcodes were used for this validation.
Project description:This data was used to identify regions of the genome that have undergone positive selection in a high-altitude Tibetan population. Affymetrix SNP arrays were used to genotype DNA extracted from blood samples. This data was used to perform genome-wide scans of positive selection in a native high-altitude Tibetan population.
