Nutritional Values and Their Potential Applications in Food Products of Krabok Seed (Irvingia malayana)

Authors

  • Sutthidech Preecharram Department of General Science, Faculty of Science and Engineering, Kasetsart University, Chalermphrakiat Sakon Nakhon Province Campus, Sakon Nakhon 47000, Thailand
  • Santi Phosri Department of Chemical Engineering, Faculty of Engineering, Burapha University, Chonburi 20131, Thailand
  • Tinnakorn Theansungnoen School of Cosmetic Science, Mae Fah Luang University, Chiang Rai 57100, Thailand
  • Wuttichai Roschat Chemistry Program, Faculty of Science and Technology, Sakon Nakhon Rajabhat University, Sakon Nakhon 47000, Thailand
  • Supakorn Arthan Center of Excellence on Modern Agriculture, Sakon Nakhon Rajabhat University, Sakon Nakhon 47000, Thailand
  • Sudkamon Lasopha Center of Excellence for Innovation in Chemistry for Community, Chemistry Program, Faculty of Science and Technology, Sakon Nakhon Rajabhat University, Sakon Nakhon 47000, Thailand
  • Jinda Jandaruang Chemistry Program, Faculty of Science and Technology, Sakon Nakhon Rajabhat University, Sakon Nakhon 47000, Thailand

DOI:

https://doi.org/10.48048/tis.2024.7316

Keywords:

Krabok seed, Phenolic, Antioxidant, Proximate, Cytotoxicity, Irvingia malayana

Abstract

This investigation examined the nutritional value, mineral content, total phenolic content, antioxidant activity and cytotoxicity of uncooked and cooked Krabok seeds. Proximate analysis was carried out to determine the nutrient composition of uncooked and cooked Krabok seeds. The average fat, protein, carbohydrate, moisture, ash, and fiber contents were found to be 75.42, 11.78, 6.72, 2.68, 1.85 and 1.54 %, respectively. The Folin-Ciocalteu method was employed for the quantitative analysis of total phenolic compounds. All 6 samples of Krabok seeds extracted, both cooked and uncooked, were extracted using hexane, ethyl acetate, and ethanol, and subjected to the test. All the extracted samples contained phenolic compounds, with amounts ranging from 29.10 to 130.26 µg GAE/mL. The highest levels of phenolic compounds were observed in the ethanolic extract of cooked Krabok seeds. The antioxidant properties were evaluated using the DPPH assay. The scavenging activity of the extracted Krabok seed samples ranged from 9.84 to 62.31 %. The ethanolic extract of uncooked Krabok seeds exhibited the highest antioxidant activity. To assess the toxicity of the Krabok seed extract, HaCaT, Vero and RAW 264.7 cell liness were employed using the MTT technique. The results revealed that cell survival remained above 80 % for all doses of both uncooked and cooked Krabok seed extracts. These findings suggest that Krabok seeds are a valuable source of fat and other essential nutrients. The crude ethanolic extract exhibited a significant amount of phenolic content and antioxidant activity. Therefore, it could be utilized in the production of snacks or cosmetics.

HIGHLIGHTS

  • Krabok seeds has high nutrients and energy value.
  • Krabok seeds has high phenolic compounds and non-toxic to cells.
  • Krabok seeds were thought to be an inexpensive source of nutrients and a reliable supply of prospective culinary ingredients.

GRAPHICAL ABSTRACT

Downloads

Download data is not yet available.

Metrics

Metrics Loading ...

References

L Matos, J Nzikou, E Matouba, V Pandzou-Yembe, TG Mapepoulou, M Linder and S Desobry. Studies of Irvingia gabonensis seed kernels: Oil technological applications. Pakistan J. Nutr. 2009; 8, 151-7.

O Ekpe, I Umoh and O Eka. Effect of a typical rural processing method on the proximate composition and amino acid profile of bush mango seeds (Irvingia gabonensis). Afr. J. Food Nutr. Sci. 2007; 7, 164-71.

A Sulaimon, T Auta and A Hassan. Evaluation of antidiabetic activity of Irvingia gabonensis (Aubry-Lecomte ex O’Rorke) leaf and bark in alloxan induced diabetic rats. Biosci. Res. Today’s World 2015; 1, 84-9.

T Jaipetch, S Hongthong, S Bunteang, R Akkarawongsapat, J Limthongkul, C Napaswad, K Suksen, N Nuntasaen, V Reutrakul and C Kuhakarn. A new ellagic acid from the leaves and twigs of irvingia malayana. Nat. Prod. Comm. 2019, https://doi.org/10.1177/1934578X19848164

M Katsuyoshi, O Yishan, K Kazuo, S Youko, O Taichi and N Tamotsu. Phenolic constituents of Irvingia malayana. Nat. Med. 1996; 50, 325-7.

J Bandelier, T Chunhieng, M Olle and D Montet. Original study of the biochemical and oil composition of the Cambodia nut Irvingia malayana. J. Agr. Food Chem. 2002; 50, 1478-82.

P Podchong, P Inbumrung, U Klinkesorn and S Sonwai. Improving the crystallization and melting characteristics of cocoa butter substitute by blending with krabok seed fat. J. Food Sci. Tech. 2022; 59, 4370-9.

W Roschat, S Phewphong, P Pholsupho, K Namwongsa, P Wongka, P Moonsin, B Yoosuk and V Promarak. The synthesis of a high-quality biodiesel product derived from Krabok (Irvingia Malayana) seed oil as a new raw material of Thailand. Fuel 2022; 308, 122009.

J Mitchaothai, P Jaipeng and R Lertpatarakomol. Effect of dietary Krabok seed supplementation on growth performance of suckling-nursery piglets. J. Agr. Sci. 2017; 48, 491-7.

P Sirisa-Ard, S Piyamongkol, S Charumanee, S Yotsawimonwat and K Pholsongkram. Development of Krabok (Irvingia malayana) wax as a suppository base. Acta Horticulturae 2014; 1023, 71-6.

J Jandaruang and S Preecharram. Determination of biochemical compositions and antioxidant activities of Hom Mali 105 rice. SNRU J. Sci. Tech. 2020; 12, 146-54.

S Preecharram, S Posoongnoen, T Thummawongsa, T Sripakdee, S Tawil, N Poomsuk and J Jandaruang. Proximate composition and antioxidant activity of young flattened rice (Khao-Mao). Trends Sci. 2023; 20, 6575.

AOAC. Official methods of analysis. The Association of Official Analytical Chemists. 17th ed. AOAC, Maryland, 2000.

B Pimpa, C Thongraung and P Sutthirak. Effect of solvents and extraction conditions on the properties of crude rice bran oil. Walailak J. Sci. Tech. 2021; 18, 9611.

S Phewphong, W Roschat, K Namwongsa, A Wonam, T Kaisri, P Duangpakdee, T Leelatam, P Moonsin and V Promarak. Evaluation of the nutritional, minerals, and antioxidant potential of roselle (Hibiscus sabdariffa Linn.) seeds from Roi Et Province in the northeastern region of Thailand. Trends Sci. 2023; 20, 6664.

NC Onuegbu, DC Okafor, A Peter-Ikechukwu, BC Ijioma, JC Ibeabuchi, NE Njoku, SO Alagbaoso, CN Eluchie and AK Dike. Production of mushroom bas ed food condiment and nutritional and anti-nutritional properties of pleurotus ostreatus. Nat. Sci. 2017; 15, 110-20.

F Mansouri, AB Moumen, G Richard, ML Fauconnier, M Sindic, A Elamrani and HS Caid. Proximate composition, amino acid profile, carbohydrate and mineral content of seed meals from four safflower (Carthamus tinctorius L.) varieties grown in north-eastern Morocco. OCL 2018; 25, 9.

AOAC. Official methods of analysis of AOAC international, three-volume set. 21st ed. AOAC, Maryland, 2019.

C Moro, I Palacios, M Lozano, M D’Arrigo, E Guillamón, A Villares, JA Martínez and A García-Lafuente. Anti-inflammatory activity of methanolic extracts from edible mushrooms in LPS activated RAW 264.7 macrophages. Food Chem. 2012; 130, 350-5.

N Yaraksa. Antibacterial activity against four human pathogenic bacteria and anti-inflammatory activity evaluated from five Thai medicinal plants. SNRU J. Sci. Tech. 2019; 11, 1-10.

S Laohawinit. 1989, Nutritional evaluation of Irvingia malayana seed. Ph. D. Dissertation. Chulalongkorn University, Bankok, Thailand.

JD Bihuniak and KL Insogna. The effects of dietary protein and amino acids on skeletal metabolism. Mol. Cell. Endocrinol. 2015; 410, 78-86.

H Ye, Y Zhang, Z Yu and J Mu. Effects of cellulose, hemicellulose, and lignin on the morphology and mechanical properties of metakaolin-based geopolymer. Construct. Build. Mater. 2018; 173, 10-6.

NM Mgbemena, I Ilechukwu, FU Okwunodolu, JVO Chukwurah and IB Lucky. Chemical composition, proximate and phytochemical analysis of and peels, seed coat, leaves and seeds. Analele Universitatii Ovidius Constanta Seria Matematica 2019; 30, 65-9.

NM Mgbemena, I Ilechukwu, FU Okwunodolu, OC Joe-Vera and IB Lucky. Chemical composition, proximate and phytochemical analysis of Irvingia gabonensis and Irvingia wombolu peels, seed coat, leaves and seeds. Ovidius Univ. Ann. Chem. 2019; 30, 65-9.

WV Vasquez-Rojas, DM Hernández, MP Cano and TF Reali. Extraction and analytical characterization of phenolic compounds from Brazil nut (Bertholletia excelsa) skin industrial by-product. Trends Sci. 2023; 20, 5457.

M Plaza, V Abrahamsson and C Turner. Extraction and neoformation of antioxidant compounds by pressurized hot water extraction from apple byproducts. J. Agr. Food Chem. 2013; 61, 5500-10.

A Dailey and QV Vuong. Optimization of aqueous extraction conditions for recovery of phenolic content and antioxidant properties from Macadamia (Macadamia tetraphylla) skin waste. Antioxidants 2015; 4, 699-718.

B Tangkhavanich, T Kobayashi and S Adachi. Properties of rice stem extracts obtained by using subcritical fluids. Biosci. Biotechnol. Biochem. 2013; 77, 2112-6.

S Mathew, TE Abraham and ZA Zakaria. Reactivity of phenolic compounds towards free radicals under in vitro conditions. J. Food Sci. Tech. 2015; 52, 5790-8.

M Plaza, M Amigo-Benavent, MDD Castillo, E Ibáñez and M Herrero. Neoformation of antioxidants in glycation model systems treated under subcritical water extraction conditions. Food Res. Int. 2010; 43, 1123-9.

NG Taş and V Gökmen. Phenolic compounds in natural and roasted nuts and their skins: a brief review. Curr. Opin. Food Sci. 2017; 14, 103-9.

KW Ng, SM Salhimi, AMSA Majid and KL Chan. Anti-angiogenic and cytotoxicity studies of some medicinal plants. Planta Med. 2010; 76, 935-40.

T Sudsai, C Wattanapiromsakul, T Nakpheng and S Tewtrakul. Evaluation of the wound healing property of Boesenbergia longiflora rhizomes. J. Ethnopharmacol. 2013; 150, 223-31.

Downloads

Published

2023-10-01

How to Cite

Preecharram, S. ., Phosri, S. ., Theansungnoen, T. ., Roschat, W. ., Arthan, S. ., Lasopha , S. ., & Jandaruang, J. . (2023). Nutritional Values and Their Potential Applications in Food Products of Krabok Seed (Irvingia malayana). Trends in Sciences, 21(1), 7316. https://doi.org/10.48048/tis.2024.7316

Issue

Vol. 21 No. 1 (2024): Trends in Sciences, Volume 21, Number 1, January 2024

Section

Research Articles

License

Copyright (c) 2023 Walailak University

Creative Commons License

This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.

Most read articles by the same author(s)