Phylogenetic Analysis and Time Divergence of Genus Musa spp. Using S16 Protein Genes (Rps16) Intron Chloroplast

Authors

  • Farah Nahdia Noor Biology Department, Science and Technology Faculty, Islamic State University Maulana Malik Ibrahim, Malang 65144, Indonesia
  • Lailatus Sholichah Biology Department, Science and Technology Faculty, Islamic State University Maulana Malik Ibrahim, Malang 65144, Indonesia

DOI:

https://doi.org/10.11594/

Keywords:

musaceae, Divergence, Rps16

Abstract

Family Musaceae is divided into three genera, Musa, Musella, and Ensete. The genus Musa became the genus with the most species cultivated in the Southeast Asian region. While the genus Musella and Ensete are monospecific genera that can only be found in certain regions. Distribution of banana nomenclature until now is still a debate. The taxonomic system of bananas is still based on conventional methods, namely by marking the genome. But unfortunately the nomenclature system is not suitable to be applied in the Southeast Asian region. The systematic history of the genus Musa apparently still has many problems such as biogeography, the comparison of phylogenetic trees and their evolution. Therefore be approached through an m arka molecular phylogenetic alisis menggunakan g en protein S16 (Rps16) chloroplast introns with Bayesian inference method and divergence time estimates using the log-normal clock relaxed. The results show that the tree topology produced monophyletic lineage, in terms of the separation of the  genus Musa  from the Musella lasiocarpa and Ensete ventricosum Outgroups

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References

[1] Ambarita, Monica Dame Yanti, Eva Sartini Bayu, and Hot Setiado. 2015. Character Identification Banana Morphology (Musa spp.) In Deli Serdang Regency. Journal of Agroecotechnology. 4 (1):1911-1924.

[2]Christelová, Pavla, Miroslav Valárik, Eva H?ibová, Edmon d De Langhe, and Jaroslav Doležel. 2011. A multi gene sequence-based phylogeny of the Musaceae (Banana) family. BMC Evolutionary Biology . Vol. 11.

[3] Davey, MW, Gudimella R., Hari Krishnanto JA, Norzulani K., and Johan K. 2013. A Draft of Moses Balbisiana Genome Sequence for Molecular Genetics in Polyploid, Inter-and intra- specific Musa Hybrid. BioMed Central. 14 .

[4] Drummond AJ, Rambaut A: BEAST: Bayesian evolutionary analysis by sampling trees. BMC Evol Biol 2007, 7: 214.

[5] Ekasari, TWD, A. Retnoningsih and T. Widianti. 2012. Analysis of the diversity of banana cultivars using the PCR-PFLP marker on the Internal Transcribed Spacer (ITS) ribosome DNA. J. MIPA. 35 (1): 21-30.

[6] Espino, PRC, SH Jamaludin, B. Silayoi and RE Nasution. 1992. Musa L. (edible cultivar ) in Verheij, EWM and RE Coronel (Eds.). Plant Resources of South- East Asia No.2: Edible fruits and nuts . Bogor: Prosea Foundation.

[7]Graham SW, Olmstead RG 2000. Utility of 17 Chloroplast Genes for Inferring the Phylogeny of The Basal Angiosperms. Am J Bot. 87: 1712-1730.

[8]Guzow-Krzeminska B, Gorniak M & Wegrzyn G. 2001. Molecular determination keys: construction of keys for species identification based on restriction fragment length polymorphism. Int. Arch. Biosci. p. 1057–1067.

[9] Hapsari, Lia., Lestari, Dewi Ayu., Masrum, Ahmad. 2015. Pisang Collection Album Purwodadi Botanical Garden Series 1. Pasuruan: Technical Implementation Unit of the Plant Conservation Center, Purwodadi Botanical Garden - LIPI.

[10] Horiike, Tokumasa. 2016. An Introduction To Molecular Phylogenetic Analysis. Reviews in Agricultural Science. 4: 36-45.

[11] INIBAP (International Network for the Improvement of Banana and Plantain). 2006. Global Conservation Strategy for Musa (Banana and Plantain). A consultative document prepared by INIBAP with the various partners in the Musa research and development community. Montpellier, France: International Network for the Improvement of Banana and Plantain.

[12] Janssens, Steven B., Filip Vandelook, Edmond De Langhe, Brecht Verstraete, Erik Smets, Ines Vandenhouwe, and Rony Swennen. 2016. Evolutionary Dynamics and Biogeography of Musaceae Reveals A Between Diversification of the Banana Family and the Geological and Climatic History of Southeast Asia. New Phytologist . Vol. 210: 1453–1465 1453.

[13] Jesus, De, ON, S. de Oliveira e Silva., EP Amorim, CF Ferreira, JMS de Campos, G. de Gapsari Silva, and A. Figureira. 2013. Genetic Diversity and Population Structure of Moses Accessions in ex-situ Conservation. BMC Plant. Biol . 13 (41).

[14]Lamare, animos and Rao, rama satyawada. 2015. Efficacy of RAPD, ISSR and DAMD markers in assessment of genetic variability and population structure of wild Musa Collumata. Mol Molecular Biol Plants. 21 (3): 349–358.

[15] Li, Lin-Feng, Markku Häkkinen, Yong-Ming Yuan, Hao Gang, Xue-Jun Ge. 2010. Molecular Phylogeny And Systematics Of The Banana Family (Musaceae) Inferred From Multiple Nuclear And Chloroplast DNA Fragments, With A Special Reference To The Genus Of Moses. Molecular Phylogenetics and Evolution . Vol. 57.

[16] Liu, AZ, WJ Kress and DZ Li. 2010. Phylogenetic analysis of the banana family (Musaceae) based on ribosomal nuclear (ITS) and chloroplast (trnL-F) evidence. Taxon. 59 (1)

[17] Maftuchah. 2001. Strategies for utilizing molecular markers in the development of the horticulture field. Papers for the Use of Molecular Markers in the Field of Horticulture. Indonesian Biotechnology Information Center (IndoBIC). Bogor.

[18] Martin, Gui llaume, Fra nc-Chr istophe Baurens, Ce´ line Card, Jean-M arc Aury, Ange ´ liqu e D'H ont. 2013. The Complete Chloroplast Genome of Banana ( Musa acuminata , Zing iberales): Insight into Plastid Monocotyledon Evolution. PlosOne. Volume 8 | Issue 6.

[19] Mogni, Virginia Y., Mariano A. Kahan, Luciano Paganucci de Queiroz, José L. Vesprini, Juan Pablo A. Ortiz, and Darien E. Prado. 2016. Optimization of DNA Extraction And PCR Protocols For Phylogenetic Analysis In Schinopsis Spp. And Related Anacardiaceae. SpringerPlus. Vol.4 No. 477 DOI 10.1186 / s40064-016-2118-4.

[20] Mohammed, Wassu, Kebede W / Tsadik, Tekalign Tsgaw, and Kiflemariam Yehula. 2013. Genetic Variability and Distance of East Africa Cooking Banana (Musa sp.) Clones for Morpho-physicochemical Traits. East African Journal of Sciences. Vol. 7 No.2 ISSN 1992-0407.

[21]Nwakanma C, Pillay M, Okoli BE, Tenkuano A. 2003. PCR-RFLP of the ribosome Internal DNA Transcribed Spacer (ITS) provides markers for the A and B genomes in Musa L. Theory of Application Genetics 108, 154-159.

[22]Nishikawa. 2011. Systematic relationships of oriental tiny frogs of the Family Microhylidae (Amphibia, Anura) as revealed by mtDNA genealogy.Molecular Phylogenetics and Evolution, 61: 76–167.

[23]Oxelman, Bengt, Magnus Lidt ~ N, And Daniel Berglund. 1997. Chloroplast rpsl6 intron phylogeny of the tribe Sileneae (Caryophyllaceae). Plant Systematics and Evolution. Vol. 206.

[24]Pillay M, Nwakanma DC, Tenkouano A. 2000. Identification of RAPD markers linked to A and B genome sequences in Musa L. Genome, 43: 763-767.

[25]Retnoningsih, A., Megia R, Rifai MA, and Hartana A. 2009. Classiication and Phylogeny Analysis of Indonesian Banana Cultivars Based on Molecular Markers. Dissertation . Bogor: Bogor Agricultural Institute.

[26] Simmonds, NW, 1962, In: The evolution of the Bananas. London: Longmans.

[27] Simmonds, NW. 1959. Bananas. Longman Inc., New York.

[28] Simmonds. 1996. Numeric Taxonomy of Wild Bananas (Musa sp.). New Phyto I

[29] Singh, Wahengbam R., Sorokhaibam S. Singh , and Karuna Shrivastava. 2014 Banana Genome Analysis Group Lia r and cultivar created fromMa nipur, India Method Using Score Card. Advance in Applied Science Research . Vol. 5 No.1.

[30] Swain, S., S. Das, P. S Munsi, P. C Lenka, GR Rout, and D. Swain. 2016. Study of Molecular Diversity in Genotypes of Banana Dessert (Moses Study of Molecular Diversity in Genotypes of Banana Dessert (Musa Spp.) From Odisha Using ISSR Markers International Journal of Agriculture, Environment and Biotechnology Vol. 9 No. 4 DOI 10,5958 / 2230-732X.2016.00068.1.

[31] Thompson JD, Higgins DG, and Gibson TJ (1994) CLUSTAL W: improving the sensitivity of progressive multiple sequence alignment through sequence weighting, position-specific gap penalty and weight matrix choice. Nucleic Acids Res., 22; 4673-4680.

[32] Uma,S., SA Siva, MS Saraswathi, M. Manickavas Agam, P. Durai. 2006. Variation And Intraspecific Relationships In Indian Wild Musa Balbisiana (BB) Population As Evidenced By Random AmplifiedPolymorphic DNA. Genetic Resources and Crop Evolution. Vol. 53 DOI 10.1007 / s10722-004 0576

[33] Valmayor, RV, SH Jamaluddin, B. Silayoi, S. Kusumo, LD Danh, OC Pascua and RRC Espino. 2000. Banana cultivars names and synonyms in Southeast Asia . Philippines: International Network for the Improvement of Banana and Plantai n - Asia and the Pacific Office.

[34] Virk, PS, HJ Newbury, MT Jackson, and BV Ford-Lloyd. 1995. The identification of duplicate access within a rice germplasm collection using RAPD analysis. Theor. Appl. Genet. 90: 1049-1055.

[35] Wu, D.L., Kress WJ. 2000 Musaceae. In: Wu CY, Raven PH, eds. Flora of China. Vol. 24 (Flagellariaceae through Marantaceae). Beijing, China: Science Press, 314–318

[36] Wong, Carol. Kiew, Ruth. Argent, George. Set, Ohn. Lee Sing, Kong. Bro, Yik Yuen. 2002. Assessment of the Validity of the Section in Musa (Musaceae) using AFLP. Annals of Botany. 90. (2).

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Published

2019-02-27

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Vol. 2 No. 1 (2019): Volume 2 Issue 1

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How to Cite

[1]
Farah Nahdia Noor and Lailatus Sholichah, “Phylogenetic Analysis and Time Divergence of Genus Musa spp. Using S16 Protein Genes (Rps16) Intron Chloroplast”, Bioinform. Biomed. Res. J. , vol. 2, no. 1, pp. 1–6, Feb. 2019, doi: 10.11594/.