Development of EST-SSR Markers Based on Transcriptome Sequencing in Kodo millet (Paspalum scrobiculatum l.) - Cytology and Genetics

Abstract Kodo millet (Paspalum scrobiculatum L.) (2n = 4x = 40) mostly found in dry and semi-arid parts of Africa and Asia, also known as miraculous millets, is a staple food and a nutrient-security crop. It’s commonly known that kodo millet has the strongest tolerance to drought. Little study was done on high throughout genomic studies in relation to the creation of millets improved by genomics. In the present investigation, 21 080 571 total reads of sequence data were included in the 6.55 gigabytes of raw sequence that was produced following the genome sequencing run. After utilizing FastQC to verify the raw data quality, a total sequence of 1 087 611 and 578 123 572 bp was obtained. Three RNA samples from mature, blooming, and vegetative specimens were gathered, and the high-throughput Ion torrent sequencing method was applied to the sequencing process. In the vegetative stage, there were 1, 34, 40, and 824 raw readings; in the reproductive and mature stages, there were 1, 66, 35, 843 reads and 97, 43, 629 bp reads, respectively. At three distinct stages, the average read length was 131.6, 137.6, and 148.8 bp, in that order. The interface modules BatchPrimer3 (version 1.0) were used to construct the SSR and EST-SSR primers. Four FASTA files including contigs from the transcriptome and genome were utilized to identify SSRs. A total of thirty SSRs were found, with GC% and Tm ranges of 40–70 and 58–62°C, respectively. Of the 30 SSR and EST-SSR primers that were used for validation, only 17 were able to amplify the DNA from 27 distinct types of Kodo millet. 24 bands were obtained from the PCR amplification of 27 distinct types. We think that these findings may be applied in the future as possible candidates to enhance this significant staple crop.

Release nf-core/denovotranscript v1.2.1 · nf-core/denovotranscript

What's Changed Patch multiqc module by @avani-bhojwani in #47 Full Changelog: 1.2.0...1.2.1

Microbiota transplantation offers new hope against cotton leaf curl disease

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The epitranscriptome