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- Kumar, P. Mohan, et al. Show all 5 Authors
- Genomics 2020 v.112 no.1 pp. 659-668
- Camellia sinensis var. assamica; Caryophyllales; chloroplast genome; chloroplasts; databases; genes; mitochondria; mitochondrial genome; nucleotide sequences; phylogeny; ribosomal RNA; tea; transfer RNA
- ... The NCBI database has >15 chloroplast (cp) genome sequences available for different Camellia species but none for C. assamica. There is no report of any mitochondrial (mt) genome in the Camellia genus or Theaceae family. With the strong believes that these organelle genomes can play a great tool for taxonomic and phylogenetic analysis, we successfully assembled and analyzed cp and mt genome of C. ...
- Kumar, P. Mohan, et al. Show all 8 Authors
- Industrial crops and products 2019 v.133 pp. 79-89
- black tea; gene ontology; genes; leaves; messenger RNA; microRNA; non-coding RNA; odors; tissues
- ... With the progress of sequencing technology coupled with in silico approaches, disclosure of long non-coding RNA (lncRNAs) from RNAseq data has become easy and reliable. Till today, no methodical investigation of lncRNAs and their regulatory roles in tea have been studied. In this study, using 170 RNAseq data (˜7157 million reads) of 11 harvestable tissues, 33,400 putative high certainty lncRNAs we ...