References
- Byers RD. 1999. Reaching out: a university botanical garden builds long-distance relationships. HortTechnology. 9:573–576.
- Grimshaw J, Bayton R. 2009. New trees: recent introductions to cultivation. Royal Botanic Gardens.
- Katoh K, Standley DM. 2013. MAFFT multiple sequence alignment software version 7: improvements in performance and usability. Mol Biol Evol. 30:772–780.
- Kim S-H, Cho CH, Yang M, Kim S-C. 2017. The complete chloroplast genome sequence of the Japanese Camellia (Camellia japonica L.). Mitochondr DNA B. 2:583–584.
- Kim T-W, Chun S-H, Kang G-H. 1992. Floristic study of Baekryong and Yeonpyong Island within Ongjin Gun, Kyonggi Province. Seoul National Univ Col of Agric Rec. 12:30–46.
- Kondo K. 1977. Chromosome numbers in the genus Camellia. Biotropica. 9:86–94.
- Kumar S, Stecher G, Li M, Knyaz C, Tamura K. 2018. MEGA X: molecular evolutionary genetics analysis across computing platforms. Mol Biol Evol. 35:1547–1549.
- Li H. 2013. Aligning sequence reads, clone sequences and assembly contigs with BWA-MEM. arXiv preprint arXiv:13033997.
- Li H, Handsaker B, Wysoker A, Fennell T, Ruan J, Homer N, Marth G, Abecasis G, Durbin R. 2009. The sequence alignment/map format and SAMtools. Bioinformatics. 25:2078–2079.
- Ming T. 2000. Monograph of the genus Camellia. Kunming, China: Yunnan Science and Technology Press; p. 128–134.
- Wheeler L, Su M, Rivers MC. 2015. Camellia japonica. The IUCN Red List of Threatened Species 2015: e.T62054114A62054131. [accessed 2018 December 26].
- Ye C. 1997. Classification in the genus Camellia L. American Camellia Society: American Camellia Yearbook.9-23.
- Zerbino DR, Birney E. 2008. Velvet: algorithms for de novo short read assembly using de Bruijn graphs. Genome Res. 18:821–829.
- Zhao Q-Y, Wang Y, Kong Y-M, Luo D, Li X, Hao P. 2011. Optimizing de novo transcriptome assembly from short-read RNA-Seq data: a comparative study. BMC Bioinformatics. 12:S2.