Characterization of Selected Soybean Germplasm through Fatty Acid and Oil Composition using Near-Infrared Spectroscopy: The chemistry of Pakistani soybean germplasm

Nazish  Gul; Inam  Ullah; BiBi Nazia  Murtaza; Waqar  Khan; Azam  Ali

doi:10.53560/PPASB (58-3)662

Authors

Nazish Gul Department of Genetics, Hazara University, Garden Campus, Mansehra, Pakistan
Inam Ullah Institute of Molecular Biology and Biotechnology, The University of Lahore, Pakistan
BiBi Nazia Murtaza Department of Zoology, Abbottabad University of Science and Technology KP Pakistan
Waqar Khan State Key Lab of Crops Stress and Adaptations, School of Life Sciences, Henan University Kaifeng, China
Azam Ali Institute of Molecular Biology and Biotechnology, The University of Lahore, Pakistan

DOI:

https://doi.org/10.53560/PPASB%20(58-3)662

Keywords:

Soybean, Glycine Max (L), Oil, fatty acid, NIRS, ANOVA

Abstract

Soybean belongs to legumes and is said to be one of the best sources of oil and fats. The objective of this research was to identify specific and individual accession among the fifty soybean accessions collected from Plants Genetics Research Institute (PGRI) Islamabad for oil contents and fatty acids profile using near-infrared reflectance spectroscopy. The amount of oil content in 50 soybean accessions was recorded in the range of 13.816-23.40 % among which accessions 017421, 17423, 17430, 17435, and 17459 were found with the highest percentage of 23.4 %, 22.80 %, 22.214 %, 22.105 %, and 22.08 % respectively. The values of fatty acid content in these accessions for palmitic acid (16:0), stearic acid (18:0), oleic acid (18:1), linoleic acid (18:2) and linolenic acid (18:3) ranged between 10.077-18.48%, 1.95-5.88 %, 18.204-30.12 %, 22.756-53.879 % and 4.714-9.96 % respectively. Soybean accessions observed higher for oil content are recommended for cultivation; where it is grown for oil production. Based on essential fatty acids contents, accessions 017418 and 017420 are recommended for a future breeding program to improve human health. Due to the variability identified in the present research, it is critical to select single Soybean accession having all the traits for further breeding programs until a specific trait is chosen.

References

S. Ciabotti, A.C.P. Juhász, J.M.G. Mandarino, L.L. Costa, A.D. Corrêa, A.A. Simão, E.N.F. Santos, S. Ciabotti, A.C.P. Juhász, J.M.G. Mandarino, L.L. Costa, A.D. Corrêa, A.A. Simão, and E.N.F. Santos. Chemical Composition and Lipoxygenase Activity of Soybean (Glycine Max L. Merrill.) Genotypes, Specific for Human Consumption, with Different Tegument Colours. Brazilian Journal of Food Technology 22, e2018003, (2019).

M. Prabakaran, K.J. Lee, Y. An, C. Kwon, S. Kim, Y. Yang, A. Ahmad, S.H. Kim, and I.M. Chung. Changes in Soybean (Glycine Max L.) Flour Fatty- Acid Content Based on Storage Temperature and Duration. Molecules 23, 2713 (2018).

J. Qin, J. Zhang, D. Liu, C. Yin, F. Wang, P. Chen, H. Chen, J. Ma, B. Zhang, J. Xu, and M. Zhang. ITRAQ-Based Analysis of Developmental Dynamics in the Soybean Leaf Proteome Reveals Pathways Associated with Leaf Photosynthetic Rate. Molecular Genetetics and Genomics 291, 1595 (2016).

J.R. Wilcox. World Distribution and Trade of Soybean. In Soybeans: Improvement, Production, and Uses; John Wiley & Sons, Ltd, 1-14 (2004).

A. Zaworska-Zakrzewska, M. Kasprowicz- Potocka, M. Twarużek, R. Kosicki, J. Grajewski, Z. Wiśniewska, and A. Rutkowski. A Comparison of the Composition and Contamination of Soybean Cultivated in Europe and Limitation of Raw Soy Seed Content in Weaned Pigs’ Diets. Animals 10(11): 1972 (2020).

I. Mateos-Aparicio, A.R. Cuenca, M.J. Villanueva- Suárez, and M.A. Zapata-Revilla. Soybean, a Promising Health Source. Nutrición Hospitalaria 23(4): 305-312 (2008).

C. Chang, Y. Qin, X. Luo, and Y. Li. Synthesis and Process Optimization of Soybean Oil-Based Terminal Epoxides for the Production of New Biodegradable Polycarbonates via the Intergration of CO2. Industrial Crops and Products 99: 34-40 (2017).

J. Suszkiw. Soy-Based Hydrogel: Ready for Biomedical Exploration. Agricultural Research 56(5): 7 (2008).

C.M. Rebholz, E.E. Friedman, L.J. Powers, W.D. Arroyave, J. He, and T.N. Kelly. Dietary Protein Intake and Blood Pressure: A Meta-Analysis of Randomized Controlled Trials, American Journal of Epidemiology 176(Suppl 7), S27-S43 (2012).

S. Holt, I. Muntyan, and L. Likver. Soya-Based Diets for Diabetes Mellitus. Alternative and Complementary Therapies 2(2): 79-82(1996).

H. Khurshid, D. Baig, S.A. Jan, M. Arshad, and M.A. Khan. Miracle Crop: The Present and Future of Soybean Production in Pakistan. MedCrave Online Journal of Biology and Medicine 2(1): 189- 191 (2017).

M. Aslam, S. O. Shah, S. Shafeeq and N. Ullah. Crop Production Bulletin No. 6, Pakistan Pakistan Agriculture Research Council 1 (1995).

S.A. Asad, M.A. Wahid, S. Farina, R. Ali, and F. Muhammad. Soybean production in Pakistan: experiences, challenges and prospects. International Journal of Agriculture and Biology 24(4):995-1005 (2020).

P. Branscum. Understanding Normal and Clinical Nutrition, Journal of Nutrition Education and Behavior 1, 47 (2015).

B.A. Bowman, and R.M. Russell. Present Knowledge in Nutrition, 8th edition, ILSI Press, Washington, DC, 191-198 (2001).

G. Hou, G.R. Ablett, K.P. Pauls, and I. Rajcan. Environmental Effects on Fatty Acid Levels in Soybean Seed Oil, Journal of the American Oil Chemists’ Society 83(9):759-763 (2006).

W.H. Morrison, R.J. Hamilton, and C. Kalu, Sunflowerseed oil. In developments in oils and fats. Springer, Boston, MA, 132-152 (1995).

C. Zheng, D.W. Sun, and L. Zheng. Recent Applications of Image Texture for Evaluation of Food Qualities—a Review. Trends in Food Science & Technology 17(3): 113-128 (2006).

A. López, S. Arazuri, I. García, J. Mangado, and C. Jarén. A Review of the Application of Near-Infrared Spectroscopy for the Analysis of Potatoes, Journal of agricultural and food chemistry 61(23): 5413-24 (2013).

R. Koprna, P. Nerusil, O. Kolovrat, V. Kucera, and A. Kohoutek. Estimation of Fatty Acid Content in Intact Seeds of Oilseed Rape (Brassica Napus L.) Lines Using Near-Infrared Spectroscopy. Czech Journal of Genetics and Plant Breeding 42, 132 (2006).

H.E.D.S. El-Beltagi, and A.A. Mohamed. Variations in Fatty Acid Composition, Glucosinolate Profile and Some Phytochemical Contents in Selected Oil Seed Rape (Brassica Napus L.) Cultivars. Grasas Y Aceites 61(2): 143-150 (2010).

R.F. Wilson. Seed Composition. In Soybeans: Improvement, Production, and Uses in Soybeans. (John Wiley & Sons, Ltd), 621–677 (2004)

N. Debeuf and B.N. Lambrecht. Control Over Antigen Presenting Cells in Asthma. Frontiers in Immunology 9: 2006 (2018).

R. Uauy, D.R. Hoffman, P. Peirano, D.G. Birch, and E.E. Birch. Essential Fatty Acids in Visual and Brain Development. Lipids 36(9): 885-895 (2001).

M.G. Choung, I.Y. Baek, S.T. Kang, W.Y. Han, D.C. Shin, H.P. Moon, and K.H. Kang. Determination of Protein and Oil Contents in Soybean Seed by Near Infrared Reflectance Spectroscopy. Korean Journal of Crop science 46(2): 106-111 (2001).

I.V. Kovalenko, G.R. Rippke, and C.R. Hurburgh. Measurement of Soybean Fatty Acids by Near- Infrared Spectroscopy: Linear and Nonlinear Calibration Methods. Journal of the American Oil Chemists’ Society 83(5): 421-427 (2006).

C.A. Roberts, C. Ren, P.R. Beuselinck, H.R. Benedict, and K. Bilyeu. Fatty Acid Profiling of Soybean Cotyledons by Near-Infrared Spectroscopy. Applied spectroscopy 60(11): 1328-1333 (2006).

A. Esmaeili, F. Shaykhmoradi, and R. Naseri. Comparison of Oil Content and Fatty Acid Composition of Native Olive Genotypes in Different Region of Liam, Iran. International Journal of Agriculture and Crop Sciences 4(8): 434-8 (2012).

K. Chowdhury, L.A. Banu, S. Khan, and A. Latif. Studies on the Fatty Acid Composition of Edible Oil. Bangladesh Journal of Scientific and Industrial Research 42(3): 311-316 (2007).

M.J. Messina. Soyfoods: Their role in disease prevention and treatment. In Soybeans, Springer, Boston, MA, 442-477 (1997).

T. Erawati, E. Hendradi, and W. Soeratri. Praformulation Study of P-Methoxycinnamic Acid (PMCA) Nanoemulsion Using Vegetable Oils (Soybean Oil, Corn Oil, VCO). International Journal of Pharmacy and Pharmaceutical Sciences 6(2): 99-101 (2014).

A. Asghar and M.N. Majeed. Chemical Characterization and Fatty Acid Profile of Different Sesame Verities in Pakistan. The American Journal of Scientific and Industrial Research 6(2): 540-545 (2013).

P.M. Kris-Etherton, A.E. Griel, T.L. Psota, S.K. Gebauer, J. Zhang, and T.D. Etherton. Dietary Stearic Acid and Risk of Cardiovascular Disease: Intake, Sources, Digestion, and Absorption. Lipids 40(12): 1193-1200 (2005).

A.M. Abdelghany, S. Zhang, M. Azam, A.S. Shaibu, Y. Feng, J. Qi, Y. Li, Y. Tian, H. Hong, B. Li, and J. Sun. Natural Variation in Fatty Acid Composition of Diverse World Soybean Germplasms Grown in China. Agronomy 10(1): 24 (2020).

W.E. Connor. Importance of N-3 Fatty Acids in Health and Disease. The American journal of clinical nutrition 71(1): 171S-175S (2000).

I.A. Brouwer, M.B. Katan, and P.L. Zock. Dietary Alpha-Linolenic Acid Is Associated with Reduced Risk of Fatal Coronary Heart Disease, but Increased Prostate Cancer Risk: A Meta-Analysis. The Journal of nutrition 134(4): 919-922 (2004).

S.K. Gebauer, T.L. Psota, W.S. Harris, and P.M. Kris- Etherton. N-3 Fatty Acid Dietary Recommendations and Food Sources to Achieve Essentiality and Cardiovascular Benefits. The American journal of clinical nutrition 83(6): 1526S-1526S (2006).

W. ChiDo, M. Hashiguchi, T. Anai, A. Suzuki, and R. Akashi. Fatty Acid Composition and Distribution in Wild Soybean (Glycine Soja) Seeds Collected in Japan, Asian. Journal of Plant Sciences 16(2): 52- 64 (2017).

J.D. Lee, K.D. Bilyeu, and J.G. Shannon. Genetics and Breeding for Modified Fatty Acid Profile in Soybean Seed Oil. Journal of Crop Science and Biotechnology 10(4): 201-2010 (2007).

Characterization of Selected Soybean Germplasm through Fatty Acid and Oil Composition using Near-Infrared Spectroscopy

The chemistry of Pakistani soybean germplasm

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