(鈥*鈥 denotes the corresponding author)
Peer-reviewed Journal Articles
1) Sun, X.H.*, Li, S.N., Okagu, O., Wang, H., Zhang, S.Y., Liu, X.L., and Udenigwe, C.C. (2023) Identification of peptides from defatted wheat germ proteins with dual functionality: Emulsifying activity and anti-adhesive activity against Helicobacter pylori. Innovative Food Science & Emerging Technologies, 86: 103367.
2) Dang, C., Okagu, O., Sun, X.H.*, and Udenigwe, C.C.* (2022) Bioinformatics analysis of adhesin-binding potential and ADME/Tox profile of anti-Helicobacter pylori peptides derived from wheat germ proteins. Heliyon, e09629
3) Abioye, R., Acquah, C., Hsu, P., H眉ttmann, N., Sun, X.H., and Udenigwe, C.C.* (2022) Self-assembly and hydrogelation properties of peptides derived from peptic cleavage of aggregation-prone regions of ovalbumin. Gels, 8: 641.
4) Ohanenye, I., Ekezie, F., Sarteshnizi, R., Boachie, R., Emenike, C., Sun, X.H., Nwachukwu, I., and Udenigwe, C.C.* (2022) Legume seed protein digestibility as Influenced by traditional and emerging physical processing technologies. Foods, 11:2299
5) Okeke, E.B., Abioye, R.O., Ventura-Santana, E., Sun, X. and Udenigwe, C.C.* (2022). TNKPVI, a Putative Bioaccessible Pharmacophore of Anti-Inflammatory Potato Patatin-Derived Decapeptide DIKTNKPVIF. Molecules, 27(12), p.3869.
6) Sun, X.H.#, Sarteshnizi, R.A.#, and Udenigwe, C.C.* Recent advances in protein-polyphenol interactions focusing on structural properties related to antioxidant activities. Current Opinion in Food Science, 45: 100840.
7) Sun, X.H., Wang, H., Li, S.N., Song, C.L., Zhang, S.Y., Ren, J.*, and Udenigwe, C.C. (2022) Maillard-type protein鈥損olysaccharide conjugates and electrostatic protein鈥損olysaccharide complexes as delivery vehicles for food bioactive ingredients: Formation, types, and applications. Gels, 8(2):135.
8) Sun, X.H.*, Abioye, R.O., Okagu, O., and Udenigwe, C.C.* (2022) Peptide-mucin binding and biosimilar mucus-permeating properties. Gels, 8(1):1.
9) Ren, J., Li, S.J., Song, C.L.*, Sun, X.H.*, and Liu, X.L. (2021) Black soybean-derived peptides exerted protective effect against alcohol-induced liver injury in mice. Journal of Functional Foods, 87: 104828.
10) Ahmed, T., Sun, X.H., and Udenigwe, C.C.* (2022) Role of structural properties of bioactive peptides in their stability during simulated gastrointestinal digestion: A systematic review. Trends in Food Science and Technology, 120: 265-273.
11) Dissanayake, T., Sun, X.H., Abbey, L., and Bandara, N.* (2022) Recent advances in lipid-protein conjugate-based delivery systems in nutraceutical, drug, and gene delivery. Food Hydrocolloids for Health, 100054.
12) Sun, X.H., Acquah, C., Gazme, B., Boachie, R.T., Nwachukwu, I.D., and Udenigwe, C.C.* (2021) Mechanisms of plastein formation influence the IgE-binding activity of egg white protein hydrolysates after simulated static digestion. Food Chemistry, 345: 128783.
13) Song, C.#, Sun, X.H.#, Yang, J., Ren, J.*, Vardhanabhuti, B., Liu, X., and Fu, Y. (2021). TGase-induced glycosylated soy protein products with limited enzymatic hydrolysis showed enhanced foaming property. European Food Research and Technology, 247: 2557鈥2563.
14) Ohanenye, I. C., Sun, X.H., Sarteshnizi, R. A., and Udenigwe, C. C. (2021) Germination alters the microstructure, in vitro protein digestibility, 伪-glucosidase and dipeptidyl peptidase-IV inhibitory activities of bioaccessible fraction of pigeon pea (Cajanus cajan) seeds. Legume Science, e79.
15) Sun, X.H.*, Zhang, S.Y., Udenigwe, C.C., Ren, J., Li, S.N., Wang, H., and Liu, X.L.* (2020) Wheat germ-derived peptides exert anti-adhesive activity against Helicobacter pylori: Insights into structural characteristics of identified peptides. Journal of Agricultural and Food Chemistry, 68: 11954-11974. (Featured as the Supplementary Journal Cover)
16) Sun, X.H.*, Zhang, S.Y., Ren, J., and Udenigwe, C.C.* (2020) Sialic acid-based strategies for the prevention and treatment of Helicobacter pylori infection: Emerging trends in food industry. Critical Reviews in Food Science and Nutrition, 1-12.
17) Sun, X.H., Sarteshnizi, R.A., Boachie, R.T., Okagu, O.D., Abioye, R., Neves, R.P., Ohanenye, I.C., and Udenigwe, C.C.* (2020) Peptide-mineral complexes: Understanding their chemical interactions, bioavailability, and potential application in mitigating micronutrient deficiency. Foods, 9: 1402.
18) Li, H*, Sun, X.H., Liao, X.J., and G盲nzle, M. (2020) Control of pathogenic and spoilage bacteria in meat and meat products by high pressure: challenges and future perspectives. Comprehensive Reviews in Food Science and Food Safety, 19: 3476-3500.
19) Lu, L., Xing, J.J., Guo, X.N., Sun, X.H., and Zhu, K.X.* (2020). Enhancing the freezing-thawing tolerance of frozen dough by using 蔚-poly-L-lysine treated yeast. Food Bioscience, 100699.
20) Sun, X.H., Ohanenye, I. C., Ahmed, T., and Udenigwe, C.C.* (2020) Microwave treatment increased protein digestibility of pigeon pea (Cajanus cajan) flour: Elucidation of underlying mechanisms. Food Chemistry, 127196.
21) Sun, X.H. and Udenigwe, C.C.* (2020) Chemistry and biofunctional significance of bioactive peptide interactions with food and gut components. Journal of Agricultural and Food Chemistry, 68 (46): 12972-12977.
22) Sun, X.H., Acquah, C., Aluko, R., and Udenigwe, C.C.* (2020) Considering food matrix and gastrointestinal effects in enhancing bioactive peptide absorption and bioavailability. Journal of Functional Foods, 64: 103680. (ESI TOP 1% Highly Cited Paper)
23) Chen, Y.X., Guo, X.N., Xing, J.J., Sun, X.H, and Zhu, K.X.*. (2020) Effects of wheat tempering with slightly acidic electrolyzed water on the microbial, biological, and chemical characteristics of different flour streams. LWT - Food Science and Technology, 118: 108790.
24) Ohanenye, I.C.#, Emenike, C.U. #, Mensi, A.#, Medina-Godoy, S.#, Jin, J.#, Ahmed, T.#, Sun, X.H.#, and Udenigwe, C.C.#* (2020). Food fortification technologies: Influence on iron, zinc and vitamin A bioavailability and potential implications on micronutrient deficiency in sub-Saharan Africa. Scientific African, e00667.
25) Sun, X.H.* and Nandika, B. (2019) Applications of reverse micelle technique in food science: A comprehensive review. Trends in Food Science and Technology, 91: 106-115.
26) Sun, X.H., Ga虉nzle, M., and Wu, J.P.* (2019) Glycopeptides from egg white ovomucin inhibit K88ac enterotoxigenic Escherichia coli adhesion to porcine small intestinal epithelial cell-line. Journal of Functional Foods, 54: 320-328.
27) Sun, X.H., Huang, J., Zeng, H.B.*, and Wu, J.P.* (2018) Protein-resistant property of egg white ovomucin under different pHs and ionic strengths. Journal of Agricultural and Food Chemistry, 66: 11034-11042.
28) Jiao, Y., Zheng, X.Q., Chang, Y., Li, D.J., Sun, X.H., and Liu, X.L.* (2018) Zein-derived peptides as nanocarriers to increase the water solubility and stability of lutein. Food & Function, 9: 117-123.
29) Song, C.L., Ren, J.*, Chen, J.P., Sun, X.H., and Xue, Y.G. (2018) Effect of glycosylation and limited hydrolysis on structural and functional properties of soybean protein isolate. Journal of Food Measurement and Characterization, 12: 2946-2954.
Book Chapters (鈥*鈥 denotes the corresponding author)
1) Sun, X.H., Abioye, R.O., Acquah, C., Udenigwe, C.C. (2023). Application of Ultrasound Technology in Plant-Based Proteins: Improving Extraction, Physicochemical, Functional, and Nutritional Properties. In: Hern谩ndez-脕lvarez, A.J., Mondor, M., Nosworthy, M.G. (eds) Green Protein Processing Technologies from Plants. Springer, Cham.
2) Sun, X.H.*, Zhang, S.Y., Li, H., and Bandara, N. (2020). Anti鈥怉dhesive Coatings: A Technique for Prevention of Bacterial Surface Fouling. Chapter 1, p1-23. Green Adhesives: Preparation, Properties and Applications, Scrivener Publishing LLC, Massachusetts, United States.
3) Sun, X.H.*, Hui Li, Ren, J., and Udenigwe, C.C. (2021) Research advances in food protein digestibility. Chapter 2, p34-57. Food Proteins and Peptides: Emerging Biofunctions, Food and Biomaterial Applications, Royal Society of Chemistry (RSC), London, United Kingdom.
4) Sun, X.H., Okagu, O., and Udenigwe, C.C.* (2021) Encapsulation technology for protection and delivery of bioactive peptides. Chapter 15, p331-356. Biologically Active Peptides: from Basic Science to Applications for Human Health, Elsevier, 鈥嶢msterdam, Netherlands.
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