ANALYSIS OF ENCODING GENE FOR PALMITIC ACID CONTENT OF WINGED BEAN (Pshopocarpus tetragonolobus (L.) DC) SEEDS
DOI: 10.54647/biology18197 77 Downloads 5586 Views
Author(s)
Abstract
Winged bean (Psophocarpus tetragonolobus (L.) (DC.) contains moderate to high fat in its seeds including palmitic acid (C18:0). Of those three sampling areas in Indonesia, the Sumateranese winged bean seeds contains 60%; which is important raw source of various oleochemical industries. Palmitoyl ACP is one among those enzyme involves in palmitic acid biosynthesis pathway from fatty acid synthase. Information about encoding genes of ACP enzyme which involves in palmitic acid biosynthesis pathway, therefore, becomes a prerequisite and became the aim of this study. Current study designed three different specific primer for palmitic acids namely: A. palmitoyl-ACP, B. KAS III, and C. acc D. each of them has the following nucleotide sequences: A. forward primer (F) 5’-GTC GTG CAT CGG GGA AGA A -3’ and reverse (R) 5’-TCG CTC CAT TTA GGC TGC AA-3’. B. KAS III (F) 5’-TGC CAG ACA CCA TCA CAA ACT-3’ and (R) 5’-TGA CGC CAG CGA TTA CAG C-3’ and C. acc D (F) 5’-GGG CGT GAT GGA GTT TG-3’ and (R) 5’-AGG TTG GCC TCG TTC TG-3’ which were tested on three different genotypes the short pod winged beans, medium length pods and long pods ones on a PCR machine. The PCR resulted in amplicons of 400 bp from two genotypes only (short and medium length pods genotypes) but nit to long pod genotype. Interestingly that the fragments appeared at the same locus though they were characterized as different genotypes, this locus was then predicted as putative fragments of the palmitoyl ACP enzyme encoding gene in winged bean seed involves in the palmitic acid biosynthesis.
Keywords
palmitic acid, the palmitoyl ACP enzyme, primers design, winged beans
Cite this paper
Nurtjahjo Dwi Sasongko, Adi Amurwanto,
ANALYSIS OF ENCODING GENE FOR PALMITIC ACID CONTENT OF WINGED BEAN (Pshopocarpus tetragonolobus (L.) DC) SEEDS
, SCIREA Journal of Biology.
Volume 6, Issue 6, December 2021 | PP. 115-128.
10.54647/biology18197
References
[ 1 ] | Astawan, M., 2009. Sehat dengan Hidangan Kacang dan Biji-Bijian. 1st ed. Jakarta: Penebar Swadaya. |
[ 2 ] | ‘Aziz, S., 2010. Isolasi Fragmen Gen Penyandi Endoxilanase Streptomyces costaricanus 451-3 Melalui Pendekatan PCR.Tesis. Bogor. Institut Pertanian Bogor. |
[ 3 ] | Borah, P., 2011. Primer Designing for PCR.Science Vision, 11(3): 134-136. |
[ 4 ] | Choudhary, K., Mathur, N., Choudhary, O.P. & Pillai, U., 2008. Protocol for Isolation of Genomic DNA from Dry and Fresh Leaves if Vigna Species Suitable for Rapd and Restriction Digestion. Advances in Biological Research, 2(5-6): 83-89. |
[ 5 ] | Doyle, J.J. & Doyle, J.L., 1990.Isolation of Plant DNA from Fresh Tissue.Focus, 12(1): 13-15. |
[ 6 ] | Ferniah, R.S. & Pujiyanto, S., 2013. Optimalisation on Isolation of Hot chilli DNA (Capsicum annuum L.) Based on different Quantity and Quality of Leaves and Grinding Technique.BIOMA, 156(1): 14-19. |
[ 7 ] | Fourmann, M., Barret, P., Renard, M., Pelletier, G., Delourme, R. & Brunel, D., 1998. The Two Genes Homologous to Arabidopsis FAE1 co-segregate with the Two Loci Governing Erucic Acid Content in Brassica napus. Theory Applications Genetics, 96: 852-858. |
[ 8 ] | Gusmiaty, R.M. & Pongtuluran, I., 2012. Selecting Primers for analysis of Genetic diversity of Bitti (Vitex coffassus).Jurnal Agrobiogen, 8(1): 25-29. |
[ 9 ] | Handoyo, D. & Rudiretna, A., 2001. General Principles of Polymerase Chain Reaction (PCR).Unitas, 9(1): 17-29. |
[ 10 ] | Haristianita, M.D., Saptasari, M. & Listyorini, D., 2013. Isolation of Encoding Gene for Flavonoid 3’5’Hidroksilase (F3’5’H) the Pecut Kuda (Stachytarpheta indica auct.Non (L.) Vahl) Herbs.Jurnal online Universitas Negeri Malang, 1(1): 1-5. |
[ 11 ] | Hughes, K.J.D., Fulton, C.E., McReynold, D. & Lane, C.R., 2000.Development of New PCR Primers for Identification of Monilinia species. In OEPP/EPPO Bulletin Conference on Diagnostic Technique for Plant Pests, 30(3-4): 507-511, Wageningen, NL, September 2000. Wiley Online Library. |
[ 12 ] | Hutcheon, C., Ditt, R.F., Beilstein, M., Comai, L., Schroeder, J., Goldstein, E., Shewmaker, C.K., Nguyen, T., Rocher, J.D. & Kiser, J., 2010.Polyploid Genome of Camelina sativa Revealed by Isolation of fatty acid synthesis Genes.BMC Plant Biology, 10(233): 1-15. |
[ 13 ] | Kadja, G.T.M., Rilyanti, M., Mukti, R.R., Marsih, I.N. & Ismunandar., 2013. Strategic Synthesis of Zeolit: A Study of Soft and Hard Printing. Jurnal Matematika & Sains, 18(3): 103-104. |
[ 14 ] | Koonin, E.V. & Galperin, M.Y., 2003.Sequence-Evolution-Function: Computational Approaches in Comparatives Genomics. 2nd ed. Norwell, Massachusetss USA: Kluwer Academic Publishers. |
[ 15 ] | Krisnawati, A., 2010. Genetic Diversity and the Potential Development of Winged Beans (Psophocapus tetragonolobus (L.) DC)in Indonesia.fJurnal Litbang Pertanian, 29(3): 113-119.a. |
[ 16 ] | Liu Qing, M. Wu, B. Zhang, P. Shrestha, J. Petrie, A.G. Green, S.P. Singh. 2016. Genetic enhancement of palmitic acid accumulation in cotton seed through RNA I down-regulation of gh KAS II encoding β-ketoacyl ACP synthase (KAS II) |
[ 17 ] | Majumder, D.A.N., Hassan, L., Rahim, M.A. & Kabir, M.A., 2011.Development of an Efficient Protocol for Genomic DNA Extraction from Mango (Mangifera indica). Nusantara Bioscience, 3(3): 105-111. |
[ 18 ] | Mietkiewska, E., Giblin, E.M., Wang, S., Barton, D.L., Dirpaul, J., Brost, J.M., Katavic, V. & Taylor, D.C., 2004. Seed-Specific Heterologous Expression of a Nasturtium FAE Gene in Arabidopsis Results in a Dramatic Increase in the Proportion of Erucic Acid.Plant Physiology, 136: 2665-2667. |
[ 19 ] | Nickel, A.D., J.R. Wilcox, & J. F. Cavins. 1991. Genetic Relationship Between Loci Controlling Palmitic and Linolecic acids in Soy bean. Alliance of Crop, Soil, and Environmental Society.vol 31. No:5. pp: 1169-1171. |
[ 20 ] | Owczarzy, R., Tataurov, A.V., Wu, Y., Manthey, J.A., McQuisten, K.A., Almabrazi, H.G., Pedersen, K.F., Lin, Y., Garretson, J., McEntaggart, N.O., Sailor, C.A., Dawson, R.B. & Peek, A.S., 2008. IDT SciTools: a Suite for Analysis and Design of Nucleic Acid Oligomers. Nucleic Acid Research, 36: 163-169. |
[ 21 ] | Poerba, Y.S. & Martanti, D., 2008. Genetic Diversity based on an RAPD Markers: Polymorphic DNA of Amorphophallus muelleri Blumein Java.BIODIVERSITAS, 9(4): 245-249. |
[ 22 ] | Prayitno, E. & Nuryandani, E., 2011. Optimatization of DNA Extraction of Physic Nut (Jatropha curcas) by Selecting the Appropriate Leaf. Nusantara Bioscience, 3(1): 1-6. |
[ 23 ] | Rismunandar, 1983. Winged Beans Protein and Carbohydrate Source. Bandung: Sinar Baru. |
[ 24 ] | Roscoe, T.J., Lessire, R., Puyaubert, J., Renard, M. & Delseny, M., 2001. Mutations in the fatty acid elongation 1 Gene are Associated with a Loss of-ketoacyl-CoA synthase Activity in Low Erucic Acid Rapeseed. Federation of European Biochemical Societies Letters, 492: 107-111. |
[ 25 ] | Rozen, S. & Skaletsky, H., 2000.Primer3 on the WWW for General Users and for Biologist Programmers. In S. Misener & S.A. Krawetz, eds. Methods in Molecular Biology, 132: 365-368, Bioinformatics Methods and Protocols. Totowa, NJ. Humana Press. |
[ 26 ] | Sanyal, A., Pinochet, X., Merrien, A., Laustriat, M., Decocq, G. & Fine, F., 2015. Erucic Acid Rapeseed: 1. Prospect of Improvements. Oilseeds & Fats Crops and Lipids Journal, 22(3): 1-10. |
[ 27 ] | Sari, S.K., Mazieda, M.N., Listyorini, D. & Sulasmi, E.S., 2014. Optimation of DNA Isolation and Purification Technique of Hot Chilli (Capsicum frutescens cv. Green Cakra) Using Genomic DNA Mini Kit (Plant) Geneaid. In Seminar Nasional XI Pendidikan Biologi FKIP UNS. Solo, 2014. |
[ 28 ] | Sasongko, N.D., S. A’ziz, & Y. Sulistyono. 2019. Degenerated Primers for the KCS Enzyme Gene Encoding erucic Acid Content in Winged Bean Seeds. Proceeding of ICOMIRE. Indonesia. In Press. |
[ 29 ] | Sasmito, D.E.K., Rahadian, K. & Muhimmah, I., 2014. Characteristics of Primers on Polymerase Chain Reaction (PCR) for DNA Sequencing: Mini Review. In Seminar Nasional Informatika Medis (SNIMed) V. Yogyakarta, 2014. |
[ 30 ] | Tenriulo, A., Suryati, E., Parenrengi, A. & Rosmiati, 2001. Extraction of SeaWeeds Kappaphycus alvarezii DNA Using a Phenol Chloroform Method.Marina Chimica Acta, 2(2): 6-10. |
[ 31 ] | Utami, A., Meryalita, R., Prihatin, N.A., Ambarsari, L. & Asri, P., 2012. Variation of DNA Isolation of (Curcuma xanthorrhiza Roxb.) Methods. In Prosiding Seminar Nasional Kimia Unesa 2012. Surabaya 2012. |
[ 32 ] | Wang,Y.P., Snowdon, R.J., Rudloff, E., Wehling, P., Friedt, W. & Sonntag, K., 2004. Cytogenetic Characterization and fae1 Gene Variation in Progenies from Asymetric Somatic Hybrids between Brassica napus and Crambe abysinnica.Genome, 47: 724-731. |
[ 33 ] | Wei, X., Kuhn, D.N. & Narasimhan, G., 2003. Degenerate Primer Design via Clustering.In IEEE Computer Society Bioinformatics Conference.Miami, 2003.USDA-ARS, Subtropical Horticultural Research Station. |
[ 34 ] | Yan, G., Li, D., Cai, M., Gao, G., Chen, B., Xu, K., Li, J., Li, F., Wang, N., Qiao, J., Li, H., Zhang, T. & Wu, X., 2015. Characterization of FAE1 in the Zero Acid Germplasm of Brassica rapaL. Breeding Science, 65(3): 257-264. |
[ 35 ] | Ye, J., Coulouris, G., Zaretskaya, I., Cutcutache, I., Rozen, S. & Madden, T.L., 2012. Primer-BLAST: A Tool to Design Target-Specific Primers for Polymerase Chain Reaction. BioMed Central Bioinformatics, 13(134): 1-11. |
[ 36 ] | Yuniastuti, E., Supriyadi & Ruwaida, I.P., 2010. Genetic Diversity Analysis of Durian Sukun (Durio zibethinus Murr.) Based on an RAPD Markers. In Seminar Nasional Pendidikan Biologi FPIK UNS. Solo, 2010. |