Mayonnaise is an oil in water (O/W) semi-solid emulsion that is widely used in the food industry as salad dressing, sauce, and condiment. The use of eggs in the production of mayonnaise was considered health concerns for some people. This study aimed to determine the effect of egg replacer on the physical, chemical, microbiological and organoleptic properties of egg-free probiotic mayonnaise. This study used one-factor Completely Randomized Design (CRD) with variation treatment of egg replacer were 0% (P0), 5% (P1), 10% (P2), 15% (P3) and, 20% (P4). Variables observed included: pH value, amount of lactic acid bacteria, viscosity, stability, droplet size, moisture content, fat content, and organoleptic. The parametric data obtained were analyzed using Analysis of Variance (ANOVA), non-parametric data were analyzed using Kruskall Wallis test, and the droplet size were described descriptively qualitatively. The result of the study showed that the optimal amount of egg replacer was at concentration of 10% (P2) that showed 2,88 on pH value; 7,39 log of Lactic Acid Bacteria, 17.775 cP on viscosity, 89,88% on stability, 32,64% moisture contents, 53,56% fat content, small and uniform droplet size, slightly yellow color, slightly sweet taste, creamy texture, and slightly soy flavor. The amount of egg replacer had a significant effect (p<0,05) to increased pH value, total LAB, viscosity, stability, moisture content and decreased the droplet size, fat content, and organoleptic of the egg-free probiotic mayonnaise.

Egg replacer; emulsion; mayonnaise; probiotics; soy protein isolate

Akhtar, G. and F. A. Masoodi. 2022. Structuring functional mayonnaise incorporated with Himalayan walnut oil Pickering emulsions by ultrasound assisted emulsification. Ultrasonics Sonochemistry Journal 86: 1–10. [https://doi.org/10.1016/j.ultsonch.2022.106022].

Ali, M. R. and R. M. El Said. 2020. Assessment of the potential of Arabic gum as an antimicrobial and antioxidant agent in developing vegan “egg-free” mayonnaise. Food Safety Journal 40: 1-9. [https://doi.org/10.1111/jfs.12771].

Anwar, S. H., M. Antasari, D. Hasni, N. Safriani, S. Rohaya, dan C. Winarti. 2018. Kombinasi pati sukun termodifikasi OSA (Octenyl Succinic Anhydride) dan lesitin sebagai penstabil emulsi minyak dalam air. Jurnal Penelitian Pascapanen Pertanian 14: 124-133. [https://doi.org/10.21082/jpasca.v14n3.2017.124-133].

Ario, J., E. Julianti, dan E. Yusraini. 2015. Karakteristik egg replacer dari isolat protein kedelai, isolat protein susu, pati jagung, pati kentang, guar gum dan xanthan gum. Jurnal Rekayasa Pangan dan Pertanian 3: 424–433.

Armaforte, E., L. Hopper, and G. Stevenson. 2021. Preliminary investigation on the effect of proteins of different leguminous species (Cicer arietinum, Vicia faba and Lens culinarius) on the texture and sensory properties of egg-free mayonnaise. LWT-Food Science and Technology Journal 136: 1-6. [https://doi.org/10.1016/j.lwt.2020.110341].

Ayu, D. F., T. S. L. Gaol, dan A. Diharmi. 2020. Stabilitas emulsi dan sensori mayones campuran minyak abdomen ikan patin dan minyak sawit merah dengan penambahan HPMC SS12 sebagai penstabil. J. Teknologi dan Industri Pertanian Indonesia 12: 63–70. [https://doi.org/10.17969/jtipi.v12i2.16285].

Chivero, P., S. Gohtani, H. Yoshii, and A. Nakamura. 2016. Assessment of soy soluble polysaccharide, gum arabic and OSA-Starch as emulsifiers for mayonnaise-like emulsions. LWT- Food Science and Technology Journal 69: 59–66. [https://doi.org/10.1016/j.lwt.2015.12.064].

Diza, Y. H., T. Wahyuningsih, dan W. Hermianti. 2016. Penentuan jumlah Bakteri Asam Laktat (BAL) dan cemaran mikroba patogen pada yoghurt bengkuang selama penyimpanan. Jurnal Litbang Industri 6: 1-11. [https://doi.org/10.24960/jli.v6i1.891.1-11].

Fernandes, S. S., and M. de las M. Salas-Mellado. 2017. Development of mayonnaise with substitution of oil or egg yolk by the addition of chia (Salvia hispânica L.) Mucilage. Food Science Journal 0: 1–10. [https://doi.org/10.1111/1750-3841.13984].

Fernandesa, S. S., and M. de las M. Salas-Mellado. 2018. Effect of oil replacement in mayonnaise by chia (Salvia hispanica L) mucilage. Food Science Journal 5: 1–4. [https://doi.org/10.15761/ifnm.1000218]

Ganesha, R., 2021. Management of allergic stomatitis caused by chicken and egg. Interdental Jurnal Kedokteran Gigi 17: 34–40. [https://doi.org/10.46862/interdental.v17i1.1947].

Gorji, S. G., H. E. Smyth, M. Sharma, and M. Fitzgerald. 2016. Lipid oxidation in mayonnaise and the role of natural antioxidants: A review. Trends Food Science & Technology 56: 88–102. [https://doi.org/10.1016/j.tifs.2016.08.002]

Grizio, M., and L. Specht. 2018. Plant-Based Egg Alternatives : Optimizing for Functional Properties and Applications. The Good Food Institute, USA.

Heydari, A., S. M. A. Razavi, and A. Farahnaky. 2021. Effect of high pressure-treated wheat starch as a fat replacer on the physical and rheological properties of reduced-fat O/W emulsions. Innovative Food Science Emerging Technologies 70: 1-11. [https://doi.org/10.1016/j.ifset.2021.102702].

Humaira, S. F., Y. S. K. Dewi, dan L. Hartanti. 2022. Penggunaan jeruk sambal (Citrus amblycarpa) sebagai bahan pengasam alami terhadap sifat fisikokimia dan sensori mayones. FoodTech Jurnal Teknologi Pangan 4: 24-31. [https://doi.org/10.26418/jft.v4i1.56638].

Hutapea, C. A., H. Rusmarilin, dan M. Nurminah. 2016. Pengaruh perbandingan zat penstabil dan konsentrasi kuning. J. Rekayasa Pangan dan Pertanian 4: 304–311.

Jaya, I. K. S., 2019. Pengaruh penambahan tepung kedelai terhadap cita rasa dan kadar air cookies ubi jalar ungu. Jurnal Gizi Prima 1: 1-10. [https://doi.org/10.32807/jgp.v1i1.75].

Jing, X., Y. Cai, T. Liu, B. Chen, Q. Zhao, X. Deng, and M. Zhao. 2023. Formation, texture, and stability of yolk-free mayonnaise: Effect of soy peptide aggregates concentration. Food Chemistry Journal. 403: 1-9. [https://doi.org/10.1016/j.foodchem.2022.134337].

Lamusu, D., 2018. Uji organoleptik jalangkote ubi jalar ungu (Ipomoea batatas L) sebagai upaya diversifikasi pangan. Jurnal Pengolahan Pangan 3: 9–15. [https://doi.org/10.31970/pangan.v3i1.7].

Lu, Z., S. Zhou, F. Ye, G. Zhou, R. Gao, D. Qin, and G. Zhao. 2021. A novel cholesterol-free mayonnaise made from Pickering emulsion stabilized by apple pomace particles. Food Chemistry Journal 353: 1–9. [https://doi.org/10.1016/j.foodchem.2021.129418].

Mohammed, N. K., H. Ragavan, N. H. Ahmad, and A. S. M. Hussin. 2022. Egg-free low-fat mayonnaise from virgin coconut oil. Foods Raw Material Journal 10: 76–85. [https://doi.org/10.21603/2308-4057-2022-1-76-85].

Mooduto, I. P. U., S. A. Liputo, dan Z. Antuli. 2022. Analisis fisiko-kimia dan organoleptik mayonnaise berbahan dasar buah alpukat (Persea americana). Jambura Journal Food Technology 4: 100–110. [https://doi.org/10.37905/jjft.v4i1.13627].

Mousakhani-Ganjeh, H., and M. Goli. 2021. Textural and sensory properties of reduced-fat mayonnaise prepared with pre-gelatinized cornstarch and farsi gum. Journal of Research and Innovation in Food Science and Technology 9: 363–374. [https://doi.org/10.22101/JRIFST.2020.212592.1136].

Mozafari, H. R., E. Hosseini, M. Hojjatoleslamy, G. H. Mohebbi, and N. Jannati. 2017. Optimization low-fat and low cholesterol mayonnaise production by central composite design. Food Science and Technology Journal 54: 591–600. [https://doi.org/10.1007/s13197-016-2436-0].

Nidhal, H. A., H. Evanuarini, and I. Thohari. 2022. Potential of pumpkin flour as a stabilizer in reduced-fat mayonnaise. Jurnal Ilmu dan Teknologi Hasil Ternak 17: 19–26. [https://doi.org/10.21776/ub.jitek.2022.017.01.3].

Nidia, G., 2020. Pengaruh substitusi tepung kedelai (Glycine max L. merill) terhadap mutu organoleptik dan kadar zat gizi makro brownies sebagai alternatif snack bagi anak penderita kurang energi protein. Jurnal Ilmu Gizi Indonesia 1: 1–13. [https://doi.org/10.57084/jigzi.v1i1.297].

Prabowo, Y., M. Sudjatinah, dan A. S. Putri. 2020. Sifat fisik, kimia dan sensori mayonnaise dengan berbagai jenis minyak nabati. Jurnal Teknologi Pangan dan Hasil Pertanian 15: 1–4.

Prasetya, D. A., dan H. Evanuarini. 2019. Kualitas mayones menggunakan sari belimbing wuluh (Averrhoa bilimbi L.) sebagai pengasam ditinjau dari kestabilan emulsi, droplet emulsi dan warna. Jurnal Ilmu dan Teknologi Hasil Ternak 14: 20–29. [https://doi.org/10.21776/ub.jitek.2019.014.01.3].

Prayoga, I. P. A., Y. Ramona, dan I. B. M. Suaskara. 2021. Bakteri asam laktat bermanfaat dalam kefir dan perannya dalam meningkatkan kesehatan saluran pencernaan. Jurnal Simbiosis 9: 115-130. [https://doi.org/10.24843/jsimbiosis.2021.v09.i02.p06].

Rahmati, K., M. M. Tehrani, and K. Daneshvar. 2014. Soy milk as an emulsifier in mayonnaise: physico-chemical, stability and sensory evaluation. Food Science Technology Journal 51: 3341–3347. [https://doi.org/10.1007/s13197-012-0806-9]

Retnaningtyas, D. A., dan W. D. R. Putri. 2014. Karakterisasi sifat fisiokimia pati ubi jalar oranye hasil modifikasi perlakuan STPP (Lama Perendaman dan Konsentrasi). Jurnal Pangan dan Agroindustri 2: 68–77.

Rizal, S., F. Nurainy, dan F. Melza. 2013. Pengaruh penambahan sari buah jambu biji merah (Psidium guajava L.) dan glukosa terhadap total bakteri asam laktat dan karakteristik organoleptik minuman sinbiotik cincau hijau (Premna oblongifolia Merr). Jurnal Teknologi Industri dan Hasil Pertanian 18: 144–156. [http://dx.doi.org/10.23960/jtihp.v18i2.144%20-%20156].

Rizkyyani, P., A. Khusna, M. Hilmi, M. H. Khirzin, dan D. Triasih. 2020. Pengaruh lama penyimpanan dengan berbagai bahan penstabil terhadap kualitas mayonnaise. Jurnal Ilmu dan Teknologi Peternakan Tropis 7 : 52-58. [https://doi.org/10.33772/jitro.v7i1.8381].

Rizqiati, H., N. Nurwantoro, A. Febrisiantosa, C. A. Shauma, dan R. Khasanah. 2020. Pengaruh isolat protein kedelai terhadap karakteristik fisik dan kimia kefir bubuk. Jurnal Pangan dan Agroindustri 8: 111–121. [https://doi.org/10.21776/ub.jpa.2020.008.03.1]

Rudra, S. G., E. Hanan, V. R. Sagar, R. Bhardwaj, S. Basu, and V. Sharma. 2020. Manufacturing of mayonnaise with pea pod powder as a functional ingredient. Food Measurement and Characterization Journal 14: 2402–2413. [https://doi.org/10.1007/s11694-020-00487-0]

Setiawan, A. B., O. Rachmawan, dan D. S. Sutarjo. 2015. Pengaruh penggunaan berbagai jenis kuning telur terhadap kestabilan emulsi, viskositas, dan pH mayonnaise. Students e-Journal 4: 1–7.

Sonlay, P. F., G. M. Sipahelut, dan H. Armadianto. 2020. Substitusi cuka dengan ekstrak rosela (Hibiscus sabdariffa L. ) sebagai bahan pengasam terhadap sifat fisiko-kimia dan organoleptik mayones. Jurnal Peternakan Lahan Kering 2: 1038–1045.

Suciati, F., N. Mukminah, dan D. Triastuti, 2021. Pengaruh penambahan putih telur terhadap pH, densitas, stabilitas, emulsi, dan warna mayonnaise. Jurnal Ilmiah Peternakan Terpadu 10: 346–361. [http://dx.doi.org/10.23960/jipt.v10i2.p144-154].

Surono, I. S., 2016. Probiotik, Mikrobiome, dan Pangan Fungsional. Deepublish, Yogyakarta, Indonesia.

Tabtabaei, S., B. Hijar, B. K. Chen, and L. L. Diosady. 2017. Functional properties of protein isolates produced by aqueous extraction of de-hulled yellow mustard. American Oil Chemists Society Journal 94: 149–160. [https://doi.org/10.1007/s11746-016-2922-6].

Taslikh, M., N. Mollakhalili-Meybodi, A. M. Alizadeh, M. M. Mousavi, K. Nayebzadeh, and A. M. Mortazavian. 2022. Mayonnaise main ingredients influence on its structure as an emulsion. Food Science and Technology Journal 59: 2108–2116. [https://doi.org/10.1007/s13197-021-05133-1].

Usman, N. A., K. Suradi, dan J. Gumilar. 2018. Pengaruh konsentrasi bakteri asam laktat Lactobacillus plantarum dan Lactobacillus casei terhadap mutu mikrobiologi dan kimia mayonnaise probiotik. Jurnal Ilmu Ternak Universitas Padjajaran 18: 79–85. [https://doi.org/10.24198/jit.v18i2.19771].

Usman, N. A., E. Wulandari, K. Suradi. 2015. Pengaruh jenis minyak nabati terhadap sifat fisik dan akspetabilitas mayonnaise. Jurnal Ilmu Ternak 15: 22–27. [https://doi.org/10.24198/jit.v15i2.9521].

Wati, L. E., S. Fitriani, dan Y. Zalfiatri. 2022. Sifat fisikokimia dan sensoris mayones minyak kedelai dan pasta biji ketapang (Terminalia cattapa L.). Journal of Tropical AgriFood 4: 105–114. [http://dx.doi.org/10.35941/jtaf.4.2.2022.8355.105-114].

Zaouadi, N., B. Cheknane, A. Hadj-Sadok, J. P. Canselier, and A. H. Ziane. 2014. Formulation and optimization by experimental design of low-fat mayonnaise based on soy lecithin and whey. Dispersion Science Technology Journal 36: 94–102. [https://doi.org/10.1080/01932691.2014.883572].