Complete chloroplast genome sequences of Solanum commersonii and its application to chloroplast genotype in somatic hybrids with Solanum tuberosum

Among wild species used in potato breeding, Solanum commersonii displays the highest tolerance to low temperatures under both acclimated (ACC) and non-acclimated (NACC) conditions. It is also the first wild potato relative with a known whole genome sequence. Recent studies have shown that abiotic stresses induce changes in the expression of many small non-coding RNA (sncRNA).• We determined the small non-coding RNA (sncRNAome) of two clones of S. commersonii contrasting in their cold response phenotypes via smRNAseq.• Differential analysis provided evidence that expression of several miRNAs changed in response to cold stress conditions. Conserved miR408a and miR408b changed their expression under NACC conditions, whereas miR156 and miR169 were differentially expressed only under ACC conditions. We also report changes in tasiRNA and secondary siRNA expression under both stress conditions.• Our results reveal possible roles of sncRNA in the regulatory networks associated with tolerance to low temperatures and provide useful information for a more strategic use of genomic resources in potato breeding.

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“…; Cho et al . , ), and it has already been exploited to disclose several gene families (D'Amelia et al . , ; Aversano et al .…”

Section: Introductionmentioning

confidence: 99%

Deep‐sequencing of Solanum commersonii small RNA libraries reveals riboregulators involved in cold stress response

et al. 2019

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“…These species are used as plant models, and their complete nuclear genomes provide insights into many aspects of plant biology [48–50]. The organellar genomes of Solanum have also been studied, and the plastomes of 15 Solanum species have been sequenced [51–57]. These complete plastome sequences increase our understanding of the evolution and phylogenetic relationships of Solanum species.…”

Section: Introductionmentioning

confidence: 99%

Organellar genome analysis reveals endosymbiotic gene transfers in tomato

Kim

Lee

2018

PLoS ONE

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We assembled three complete mitochondrial genomes (mitogenomes), two of Solanum lycopersicum and one of Solanum pennellii, and analyzed their intra- and interspecific variations. The mitogenomes were 423,596–446,257 bp in length. Despite numerous rearrangements between the S. lycopersicum and S. pennellii mitogenomes, over 97% of the mitogenomes were similar to each other. These mitogenomes were compared with plastid and nuclear genomes to investigate genetic material transfers among DNA-containing organelles in tomato. In all mitogenomes, 9,598 bp of plastome sequences were found. Numerous nuclear copies of mitochondrial DNA (NUMTs) and plastid DNA (NUPTs) were observed in the S. lycopersicum and S. pennellii nuclear genomes. Several long organellar DNA fragments were tightly clustered in the nuclear genome; however, the NUMT and NUPT locations differed between the two species. Our results demonstrate the recent occurrence of frequent endosymbiotic gene transfers in tomato genomes.

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“…The CP genome of L. chinense is 155,756 bp in length consisting of a large and small singlecopy regions of length 86,595 and 18,209 bp, separated by two inverted repeat regions of 25,476 bp ( Figure 1 and Table 1). The total G+C content is similar to that of other species in the Solanaceae family, which is about 37.8% (Amiryousefi A 2018, Cho et al 2016, Sanchez-Puerta and Abbona 2014, Yang Y. et al 2014. And the G+C contents of the LSC(35.8%) and SSC regions (32.3%)are lower than those of the IR regions (43.1%).…”

Section: Cp Genome Organization and Gene Contentsupporting

confidence: 50%

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Supplemental Information 1: Codon Usage of L. Chinense Chloroplast Genome

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Lycium chinense Mill, an important Chinese herbal medicine, is emphasized as a healthy food and is widely used as a dietary supplement. Here we sequenced and analyzed the complete chloroplast (CP) genome of the L. chinense, which is 155,756 bp in length and with 37.8% GC content. This CP genome consists of a pair of inverted repeat regions (IRa and IRb) of 25,476 bp, separated by a large single-copy region (LSC) and a small singlecopy region (SSC), with length of 86,595 and 18,209 bp, respectively. Annotation results revealed that the L. chinense CP genome contains 114 genes, 16 of which are duplicated genes. Most of the 85 protein-coding genes have a usual ATG start codon, except for 3 genes including rps12, psbL and ndhD. Furthermore, most of the simple sequence repeats (SSRs) are short polyadenine or polythymine repeats that contribute to the high AT content of the chloroplast genome. Revealing of the complete sequences and annotation of the L. chinense chloroplast genome will facilitate phylogenic, population and genetic engineering research investigations involving this particular species.

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Complete chloroplast genome sequences of Solanum commersonii and its application to chloroplast genotype in somatic hybrids with Solanum tuberosum

Cited by 56 publications

References 47 publications

Deep‐sequencing of Solanum commersonii small RNA libraries reveals riboregulators involved in cold stress response

Deep‐sequencing of Solanum commersonii small RNA libraries reveals riboregulators involved in cold stress response

Organellar genome analysis reveals endosymbiotic gene transfers in tomato

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