Integration of the metabolome and transcriptome reveals indigo biosynthesis in Phaius flavus flowers under freezing treatment.

Background: Indigo-containing plant tissues change blue after a freezing treatment, which is accompanied by changes in indigo and its related compounds. Phaius flavus is one of the few monocot plants containing indigo. The change to blue after freezing was described to explore the biosynthesis of indigo in P. flavus. Methods: In this study, we surveyed the dynamic change of P. flavus flower metabolomics and transcriptomics. Results: The non-targeted metabolomics and targeted metabolomics results revealed a total of 98 different metabolites, the contents of indole, indican, indigo, and indirubin were significantly different after the change to blue from the freezing treatment. A transcriptome analysis screened ten different genes related to indigo upstream biosynthesis, including three anthranilate synthase genes, two phosphoribosyl-anthranilate isomerase genes, one indole-3-glycerolphosphate synthase gene, five tryptophan synthase genes. In addition, we further candidate 37 cytochrome P450 enzyme genes, one uridine diphosphate glucosyltransferase gene, and 24 ß-D-glucosidase genes were screened that may have participated in the downstream biosynthesis of indigo. This study explained the changes of indigo-related compounds at the metabolic level and gene expression level during the process of P. flavus under freezing and provided new insights for increasing the production of indigo-related compounds in P. flavus. In addition, transcriptome sequencing provides the basis for functional verification of the indigo biosynthesis key genes in P. flavus.

The complete chloroplast genome of Pleione pleionoides (Orchidaceae).

Pleione pleionoides is a vulnerable orchid with significant ornamental values. Here, we report the first complete chloroplast genome of P. pleionoides. The circular genome was 159,468 bp in length and consisted of a pair of inverted repeats (IR 26,651 bp), which were separated by a large single copy region (LSC 87,461 bp) and a small single copy region (SSC 18,705 bp). It contained 115 unique genes, including 87 protein-coding genes, 38 tRNAs, and 8 rRNAs. The maximum likelihood phylogenetic analysis indicated that P. pleionoides and P. bulbocodioides cluster together and closely related to P. formosana.

Next-generation sequencing yields the complete chloroplast genome of Pleione chunii, a vulnerable orchid in China.

Pleione chunii is a vulnerable epiphytic orchid with significant ornamental value. Here, we report the first complete chloroplast genome of P. chunii. The circular genome was 158,880 bp in length and consisted of a pair of inverted repeats (IR 26,465 bp), which were separated by a large single copy region (LSC 87,259 bp) and a small single copy region (SSC 18,691 bp). It contained 115 unique genes, including 87 protein-coding genes, 38 tRNAs, and eight rRNAs. The maximum-likelihood phylogenetic analysis indicated that P. chunii was sister to P. bulbocodioides and P. formosana.