Chinese mahogany (Toona sinensis) is a woody plant that is widely cultivated in China and Malaysia. Toona sinensis is important economically, including as a nutritious food source, as material for traditional Chinese medicine and as a high‐quality hardwood. However, the absence of a reference genome has hindered in‐depth molecular and evolutionary studies of this plant. In this study, we report a high‐quality T. sinensis genome assembly, with scaffolds anchored to 28 chromosomes and a total assembled length of 596 Mb (contig N50 = 1.5 Mb and scaffold N50 = 21.5 Mb). A total of 34,345 genes were predicted in the genome after homology‐based and de novo annotation analyses. Evolutionary analysis showed that the genomes of T. sinensis and Populus trichocarpa diverged ~99.1–103.1 million years ago, and the T. sinensis genome underwent a recent genome‐wide duplication event at ~7.8 million years and one more ancient whole genome duplication event at ~71.5 million years. These results provide a high‐quality chromosome‐level reference genome for T. sinensis and confirm its evolutionary position at the genomic level. Such information will offer genomic resources to study the molecular mechanism of terpenoid biosynthesis and the formation of flavour compounds, which will further facilitate its molecular breeding. As the first chromosome‐level genome assembled in the family Meliaceae, it will provide unique insights into the evolution of members of the Meliaceae.
A new fluorescent
probe LXY based on the rhodamine
6G platforms has been designed, synthesized, and characterized, which
could recognize Fe3+ effectively in HEPES buffer (10 mM,
pH = 7.4)/CH3CN (2:3, v/v). And the distinct color change
and the rapid emergence of fluorescence emission at 550 nm achieved
“naked eye” detection of Fe3+. The interaction
mode between them was achieved by Job’s plot, MS, SEM, and
X-ray single-crystal diffraction. Importantly, the crystal structures
proved that Fe3+ could induce the rhodamine moiety transform
the closed-cycle form to the open-cycle form. But it is interesting
that Fe3+ did not appear in the crystal structures. Meanwhile,
the limit of detection (LOD) of LXY to Fe3+ was calculated to be 3.47 × 10–9. In addition,
the RGB experiment, test papers, and silica gel plates all indicated
that the probe LXY could be used to distinguish Fe3+ quantitatively and qualitatively on-site. Moreover, the
probe LXY has also been successfully applied to Fe3+ image in Caenorhabditis elegans, adult mice, and plant tissues. Thus, LXY was considered
to have some potential for application in bioimaging.
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