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  • 한국과학기술정보연구원(KISTI) 서울분원 대회의실(별관 3층)
  • 2024년 07월 03일(수) 13:30
 

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Molecular phylogeny of Indonesian Zeuzera (Lepidoptera:Cossidae) wood borer moths based on CO I gene sequence

Journal of Species Research / Journal of Species Research, (E)2713-8615
2015, v.4 no.1, pp.49-56
https://doi.org/10.12651/JSR.2015.4.1.049
Hari Sutrisno (The Indonesian Institute of Sciences)

Abstract

Zeuzera is one of the most important wood borer pests in South East Asia. Like of most other genera of moths, the systematic of this genus is still in dispute, especially on the monophyly and the relationship within this genus due to the fact that genus is very varied. This genus was defined based on external characters only such as cross vein Sc-Rs present, humeral plate approximately triangular in shape and anal plate moderately long to moderately short. Therefore, the monophyly of this genus need to be evaluated based on more comprehensive data. To clarify the monophyly of the genus Zeuzera, to reveal the phylogenetic relationships among the Indonesian species, and to establish the genetic characters of Indonesian Zeuzera, we analyzed seven species of Indonesian Zeuzera including three other species distributed around the world based on nucleotide sequence variation across a 580-bp region in the CO I gene. The results showed that the monophyly of Zeuzera was supported by bootstrap tests at the MP and ML tree building methods (¤95%). Genus Zeuzera was divided into two groups (A and B) with Z. borneana was excluded from the two groups and occupied at the basal node. Indonesian species was distributed into two different clades. CO I gene alone was able to fully resolve the relationships among species within clade B. However, further investigations were needed by including more species and other genes that the more conserved to test the validity of the phylogenetic hypothesis proposed here.

keywords
CO I gene, Cossidae, Lepidoptera, phylogeny, Zeuzera

참고문헌

1.

Arora, G.S.A. 1976. A taxomic revision of the Indian species of the family Cossidae (Lepidoptera). Record of the Zoological Survey India 69:1-160.

2.

Cassildé, C., P. Blandin and J.F. Silvain. 2012. Phylogeny of the genus Morpho Fabricius 1807: insights from two mitochondrial genes (Lepidoptera: Nymphalidae). Annales de la Société entomologique de France (N.S.): International Journal of Entomology 48(12):173-188. DOI: 10.1080/00379271.2012.10697762.

3.

Caterino, M.S. and F.A. Sperling. 1999. Phylogeny Papilio based on mitochondrial cytochrome oxidase I and II genes. Molecular Phylogenetics Evolution 11(1):122-137.

4.

Dorp, K. van. 2004. Molecular systematics of Lycaena F., 1807 (Lepidoptera: Lycaenidae)-Some preliminary results. Procceding Netherland Entomological society 15:65-70.

5.

Hall, T.A. 1999. BioEdit: a user-friendly biological sequence alignment editor and analysis program for window 95/98/ TNT. Nucleic Acid Symposium Seri 41:95-98.

6.

Hasegawa, M., H. Kishino and T. Yano. 1985. Dating the human-ape split by a molecular clock of mitochondrial DNA. Journal of Molecular Evolution 22:160-174.

7.

Hebert, P.D., J.R. deWaard and J.F. Landry. 2010. DNA barcodes for 1/1000 of the animal kingdom. Biology Letters 6(3):359-362.

8.

Herdiana, N. 2010. Potensi serangan hama tanaman jati rakyat dan upaya pengendaliannya di Rumpin, Bogor. Jurnal Penelitian Hutan Tanaman 7(4):201-209.

9.

Holloway, J.D. 1986. The moths of Borneo part 1, key to families, Families Cossidae, Metarbelidae, Ratardidae, Dugeonidae, Epipyropidae and Limcodidae. Malayan Natural Journal 40:1-166.

10.

Irwin, D.M., T.D. Kocher and A.C. Wilson. 1991. Evolution of the cytochrome b gene of mammals. Journal of Molecular Evolutionary 32:128-144.

11.

Kim, M.I., X. Wan, M.J. Kim, H.C. Jeong, N.H. Ahn, K.B. Kim, Y.S. Han and I. Kim. 2010. Phylogenetic relationships of True butterflies (Lepidoptera: Papilionoidea) inferred from COI, 16S rRNA and EF-1α sequences. Mollecules and Celles 30:409-425.

12.

Kranthi S., K.R. Kranthi, A.A. Bharose, S.N. Syed, C.S. Dhawad, R.M. Wadaskar and E.K. Patil. 2006. Cytochrome oxidase I sequence of Helicoverpa (Noctuidae: Lepidoptera) species in India-Its utility as a molecular tool. Indian Journal of Biotechnology 5:195-199.

13.

Nei, M. and S. Kumar. 2000. Molecular evolution and phylogenetics. Oxford University Press, London.

14.

Roe, A.D. and F.A.H. Sperling. 2007. Patterns of evolution of mitochondrial cytochrome c oxidase I and II DNA and implications for DNA barcoding. Molecular Phylogenetics and Evolution 44:325-345. doi: 10.1016/j.ympev.2006.12.005.

15.

Roepke, W. 1955. Notes and description of Cossidae from New Guinea (Lepidoptera: Heterocera). Transactions of the Royal Entomological Society of London 107:281-288.

16.

Roepke, W. 1957. The Cossidae of the Malayan Region (Lepidoptera: Heterocera). Verhandel Koninklijk-Nederlandsch Instituut van Wetenschappen Amsterdam (Afdeeling Natuurkunde) (Tweede Reeks) 52(1):1-60.

17.

Schoorl, J.W. (Pim) Jr. 1990. Phylogenetic study on Cossidae (Lepidoptera: Ditrysia) based on external adult morphology. Zoologische Verhandelingen Leiden 263:1-295.

18.

Simon C, F. Frati, A. Beckenbach, B. Crespi, H. Liu and P. Flook. 1994. Evolution, Weighting, and Phylogenetic utility of Mitochondrial Gene Sequences and a Compilation of conserved Polymerase Chain Reaction Primers. Annals Entomological Society 87(6):651-701.

19.

Sutrisno, H. 2008. Species Status of yelow stem borer Scirpophaga incertulas (Lepidoptera: Pyralidae) based on CO I gene sequences. Treubia 36:37-47.

20.

Sutrisno, H. 2011. Molecular Phylogeny of Indonesian Aganaine Moths (Lepidoptera: Noctuidae) based on CO I gene. Treubia 38:71-186.

21.

Sutrisno, H. 2012a. The impact of storage time of museum insect specimen on PCR success: case study on moth collection in Indonesia. HAYATI (Journal of Biosciences) 19(2):99-104.

22.

Sutrisno, H. 2012b. Molecular phylogeny of Indonesian armyworm Mythimna (Lepidoptera: Noctuidae). HAYATI (Journal of Biosciences) 19(2):60-65.

23.

Sutrisno, H. 2014. Molecular Phylogeny of Indonesian Lymantria Tussock Moths (Lepidoptera: Erebidae) based on CO I gene sequences. Journal of Species Research 3(17):7-16.

24.

Sutrisno, H., N. Azuma and S. Higashi. 2006. Molecular phylogeny of the Indo-Australia Glyphodes and allied genera (Insecta: Lepidoptera: Crambidae) inferred from CO I, CO II and EF-1 alpha genes. Journal of Species Diversity 11:57-69.

25.

Swofford, D.L. 2001. PAUP*. Phylogenetic analysis using parsimony (* and Other Methods). Version 4.0b10 for 32- bit Microsoft Windows. Sinauer Associates, Sunderland, Massachusetts.

26.

Tamura, K., D. Peterson, N. Peterson, G. Stecher, M. Nei and S. Kumar. 2011. MEGA5: Molecular Evolutionary Genetics Analysis using Maximum Likelihood, Evolutionary Distance, and Maximum Parsimony Methods. Molecular Biology and Evolution 28:2731-2739.

27.

Toxopeus, L.J. 1948. On the borer moths Zeuzera coffea Nietn and Z. roricyanea Wlk (neuropunctata Gaede) Lep., Cossidae, Zeuzerinae). Treubia 19(2):167-175.

28.

Tsao, W.C. and W.B. Yeh. 2008. DNA-Based Discrimination of Subspecies of Swallowtail Butterflies (Lepidoptera: Papilioninae) from Taiwan. Zoological Studies 47(5): 633-643.

29.

van Nieukerken, E.J., C. Doorenweerd, F.R. Stokvis and D.S.J. Groenenberg. 2012. DNA barcoding of the leafmining moth subgenus Ectoedemia s. str. (Lepidoptera: Nepticulidae) with COI and EF1-α: two are better than one in recognising cryptic species. Contributions to Zoology 81(1):1-24.

30.

Yamamoto, S. and T. Sota. 2007. Phylogeny of the Geometridae and the evolution of winter moths inferred from a simultaneous analysis of mitochondrial and nuclear genes. Molecular Phylogenetics and Evolution 44:711-723. doi: 10.1016/j.ympev.2006.12.027.

31.

Yang, Z. 2008. Computational Molecular Evolution. Oxford University Press, London.

32.

Zhang M., T.W. Cao, Y. Zhong, Y.P. Guo and E.B. Ma. 2011. Phylogeny of Limenitidinae Butterflies (Lepidoptera: Nymphalidae) Inferred from Mitochondrial Cytochrome Oxidase I Gene Sequences. Agricultural Sciences in China 10(4):566-575.

Journal of Species Research