The first complete chloroplast genome of Tetradium daniellii (Benn.) T. G. Hartley

Abstract Tetradium daniellii (Benn.) T. G. Hartley is an important medicinal, ornamental, and timber tree species and belongs to genus Tetradium in family of Rutaceae. It is widely distributed in warm temperate deciduous broad-leaved forest areas in northern China, Korean Peninsula and Japan. In this study, we sequenced its sample and determined complete chloroplast genome. The CP genome of T. daniellii has a circle structure with the length 158,446 bp, includes a small single copy region (17, 972 bp), a large single copy (86, 478 bp) and two inverted repeats (26,998 bp). There were 131 genes, which included 86 protein-coding genes, 8 rRNA and 37 tRNA, and overall GC content covered by 38.3%. The gene trnK-UUU, rps16, trnG-UCC, atpF, rpoC1, trnL-UAA, trnV-UAC, petB, petD, rpl16, rpl2, ndhB, trnI-GAU, trnA-UGC and ndhA contained an intron; gene clpP, ycf3 contained 2 introns. The phylogenetic result showed that T. daniellii had the closest relationship with Tetradium ruticarpum (NC_052830).

Tetradium daniellii (Benn.) T. G. Hartley is a plant of the genus Tetradium in the family Rutaceae, which is widely distributed in warm temperate deciduous broad-leaved forest areas in northern China, Korean Peninsula, and Japan, at present, the research of T. daniellii mainly focuses on Chemical Components (Yoo et al 2002;Lee et al 2011;Li et al 2013). However, we can hardly find the research about the complete chloroplast of T. daniellii, and in NCBI we can not find the record of the complete chloroplast genome sequence of it before this study. So in this study, we sequenced the sample and determined the complete chloroplast genome, then we did the phylogenetic analysis to determine the position in family Rutaceae.
The sample of T. daniellii was from Taishan Mountain, Taian, Shandong Province, China (N37 11 0 50 00 , E121 40 0 50 00 ), we only collected several stems and leaves of the sample but not the whole plant. We used part of leaves to extract the DNA and stored others in National Plant Specimen Resource Center (http://www.cvh.ac.cn/, barcode SDF1004500, Lei Wang, Email: stoawang@126.com). The fresh leaves were used to extract the total genomic DNA with the modified CTAB method (Doyle and Doyle 1987), then we constructed the library with an average length of 350 bp using the NexteraXT DNA Library Preparation Kit (Illumina, San Diego, CA) and sequenced by Illumina Novaseq 6000 platform. The 1.57 Gb clean sequence data was assembled by de novo assembler SPAdes v3.11.0 (Bankevich et al. 2012) with the reference genome Phellodendron amurense (NC_035551). Finally the complete chloroplast genome was annotated by PGA (Qu et al. 2019). We submitted the assembled genome DNA to GenBank under the accession number of MZ145060, and SRA submitted to NCBI under the BioProject No. PRJNA732282 and SRA number: SRR14663312 The chloroplast genome of T. daniellii has a circle structure with the size of 158,446 bp in length that contains a large single copy (LSC: 86,478 bp) region, a small single copy (SSC: 17,972 bp) and two inverted repeats (IRs: 26,998 bp) region. The overall GC content was 38.3%. There were 131 genes including 86 protein-coding genes, 37 tRNA and 8 rRNA. Each of trnK-UUU, rps16, trnG-UCC, atpF, rpoC1, trnL-UAA, trnV-UAC, petB, petD, rpl16, rpl2, ndhB, trnI-GAU, trnA-UGC and ndhA contained one intron respectively, clpP and ycf3 had two introns respectively. While rps12 had Trans splicing.
To determine the phylogenetic position of T. daniellii in family Rutaceae, we selected 19 complete chloroplast genomes from NCBI and aligned with T. daniellii by using Mafft 7.473 (Katoh and Standley 2013) with strategy of FFT-NS-2. Then we used model finder to selecte TVM þ F þ I þ G4 model (Subha et al. 2017) and constructed the phylogenomic tree ( Figure 1) by IQtree 2.0 (Minh et al. 2020) with 1000 bootstrap and Maximum-likehood method. During the ML tree construction, the complete chloroplast genomes of Murraya koenigii (MT806177) was used as outgroup. Then the result showed that T. daniellii had the closest relationship with Tetradium ruticarpum (NC_052830)

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No potential conflict of interest was reported by the author(s).

Funding
The study