Interspecific Relationships and Variation of 12 Species in Ardisia Sw.(Myrsinaceae) Based on ITS and trnL-F Data Sets

ACTA HORTICULTURAE SINICA ›› 2009, Vol. 36 ›› Issue (10): 1531-1537.

• Research Notes • Previous Articles Next Articles

Interspecific Relationships and Variation of 12 Species in Ardisia Sw.(Myrsinaceae) Based on ITS and trnL-F Data Sets

XU Ling-ling¹;LI Tong-jian¹;ZHANG Mei-yun¹;YI Guan-mei²; LIAO Liang^1*

(¹ College of Life Science, Jiujiang University, Jiujiang, Jiangxi 332000, China; ² Ningbo City College of Vocational Technology, Ningbo, Zhejiang 315502, China)

Received:2009-06-12 Revised:2009-08-19 Online:2009-10-25 Published:2009-10-25
Contact: LIAO Liang

Abstract

Abstract: The nuclear encoded internal transcribed spacer(ITS) region and the plastid encoded trnL-F
region were sequenced for 17 samples from 12 species of the genus Ardisia Sw. and outgroup Rapanea lin-
earis. Based on maximum parsim ony and neighbor-joining analyses, we reconstructed the phylogenetic rela-
tionships of 19 samples of Ardisia. The two methods generated similar trees. Nineteen samples of Ardisia are
separated into six clades intrnL-F trees. Eighteen samples of Ardisia are separated into two clades in ITS
trees. The results showed that the genus Ardisia Sw. could not be amonophyletic group. The Sec.t Akosmos
(Ñ) and Sec.t Bladhia (Ó) form a clade in ITS trees, which indicated that they were closely related.
Four samples of A. japonica form two clades in ITS trees, which showed that there were at least two types of
nuclear genome in A. japonica population. According to analysis of the chromosomes number, ITS sequences
and trnL-F sequences, A. japonicais supposed to be a allotetraploid.

Key words: Ardisia, ITS sequence;trnL-F sequence, interspecific relationship

CLC Number:

S 687

XU Ling-ling;LI Tong-jian;ZHANG Mei-yun;YI Guan-mei;LIAO Liang. Interspecific Relationships and Variation of 12 Species in Ardisia Sw.(Myrsinaceae) Based on ITS and trnL-F Data Sets[J]. ACTA HORTICULTURAE SINICA, 2009, 36(10): 1531-1537.

[1]	WANG Hao1，HUANG Zhilin1，CHEN Tao2，ZHANG Jing2，WANG Yan2，CHEN Qing1，TANG Haoru1,2，and WANG Xiaorong1,2,*. Genetic Diversity and Relationship Analysis Among Cerasus pseudocerasus，C. avium，and C. tomentosa Based on Internal Transcribed Spacer（ITS）Sequences [J]. ACTA HORTICULTURAE SINICA, 2018, 45(1): 126-138.
[2]	QUAN Miao-hua;;OU Li-jun;;SHE Chao-wen;;CHEN Dong-ming;;and YE Wei. Analysis of Interspecific Relationships in Lycoris Herb. Based on trnH-psbA Sequence [J]. ACTA HORTICULTURAE SINICA, 2011, 38(8): 1589-1594.
[3]	Zhou Shoubiao;Yu Benqi;Luo Qi;Qin Weihua;Wang Ying. Pollen Morphology of Lycoris Herb. and Its Taxonomic Significance [J]. ACTA HORTICULTURAE SINICA, 2005, 32(5): 914-917.
[4]	Lin Qibing;Zhou Zhiqin;Zhao Xuan;Pan Kaiyu;Hong Deyuan. Interspecif ic Relationships among the Wild Species of Paeonia Sect. MoutanDC. Based on DNA Sequences of Adh Gene Family [J]. ACTA HORTICULTURAE SINICA, 2004, 31(5): 627-632.

Interspecific Relationships and Variation of 12 Species in Ardisia Sw.(Myrsinaceae) Based on ITS and trnL-F Data Sets

PDF

Knowledge

Abstract

Cite this article

share this article

References

Related Articles 4

Recommended Articles

Metrics

Comments