Expressions similar sea of roses
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Herbaceous peony (Paeonia lactiflora) is a globally important ornamental plant. The results of this study will serve as a valuable resource for fundamental and applied research in the rose, including breeding and phylogenetic study of cultivated roses. Genes presumably involved in flower color, scent and flowering are assigned. According to CEGMA analysis, 91.9% and 98.0% of the core eukaryotic genes were completely and partially conserved in the scaffolds, respectively. This large number of genes for a diploid plant may reflect heterogeneity of the genome originating from self-incompatibility in R. After gene prediction, 67,380 candidates exhibiting sequence homology to known genes and domains were extracted, which included complete and partial gene structures. The average GC content of the scaffolds was 38.9%.
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N50 length of the scaffolds was 90,830 bp, and extent of the longest was 1,133,259 bp. The total length of the scaffolds was 739,637,845 bp, consisting of 83,189 scaffolds, which was close to the 711 Mbp length estimated by k-mer analysis.
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The draft genome sequence of a wild rose (Rosa multiflora Thunb.) was determined using Illumina MiSeq and HiSeq platforms. luciae flowers by our analysis ( Supplementary Fig. 62, 63 Attenuated MASAKO C1 (RhAG) expression under low temperature condition causes an additional petal and petaloid stamens formation in cultivated rose, 64 and severe reduction of MASAKO C1 expression was observed sterilized (anemone type) R. 57 Until now, 11 MADSbox-genes have been identified from wild and cultivated roses: class A genes RhAP1-1, RhAP1-2, and RhFUL 58 class B genes MASAKO BP, MASAKO B3, and MASAKO euB3 59,60 class C/D genes MASAKO C1 and MASAKO D1 61 and class E genes RhSEP3, MASAKO S1, and MASAKO S3. The ABCDE model has been developed for identification of different floral organs, namely sepals, petals, stamens, and carpels, and these organs are categorized as so-called A-class for sepal and petal specification, B-class for petal and stamen specification, C-class for stamen and carpel specification, D-class for carpel and ovule specification, and E-class for sepal, petal, stamen, and carpel specification by homeotic genes (mostly MADS-box-genes).