Your search keyword '"Du, Yi-Nan"' showing total 8 results

1. Hybrid gelation of scallop (Patinopecten yessoensis) male gonad hydrolysates combined with different concentrations of iota-carrageenan

Author

Jiang, Xin-Yu, Yan, Jia-Nan, Du, Yi-Nan, Xu, Shi-Qi, Han, Jia-Run, and Wu, Hai-Tao

Published

2022

2. Antioxidant activity of sea cucumber (Stichopus japonicus) gut hydrolysates-ribose Maillard reaction products derived from organic reagent extraction

Author

Han, Yi-Tong, Zhao, Chen-Chen, Han, Jia-Run, Yan, Jia-Nan, Du, Yi-Nan, Shang, Wen-Hui, and Wu, Hai-Tao

Published

2019

3. Gelation and microstructural properties of ternary composite gel of scallop (Patinopecten yessoensis) protein hydrolysates/κ‐carrageenan/xanthan gum.

Author

Du, Yi‐Nan, Xue, Shan, Yan, Jia‐Nan, Jiang, Xin‐Yu, and Wu, Hai‐Tao

Subjects

*GELATION, *MICROSTRUCTURE, *SCALLOPS, *PROTEINS, *DRUGS

Abstract

The objective of this study was to investigate the properties of ternary composite gel of scallop (Patinopecten yessoensis) protein hydrolysates (SMGHs)/κ‐carrageenan (KC)/xanthan gum (XG). The rheological properties, moisture‐distribution, molecular structure, and microstructure of SMGNs/KC/XG gels were analyzed. The results showed that the G′ value, melting temperature, and water holding capacity of SMGHs/KC/XG were higher than those of SMGHs, SMGHs/KC, and SMGHs/XG. FTIR spectrum showed the generation of hydrogen bonds between SMGHs and KC/XG, and the carboxylic acid group of XG interacts with SMGHs. Moreover, the cryo‐SEM results showed that SMGHs/KC/XG exhibited a tighter, smoother, and more aggregated microstructure than those of SMGHs, SMGHs/KC, and SMGHs/XG. These results indicate that the gel and microstructural properties of SMGHs are significantly improved by addition of KC and XG, and SMGHs/KC/XG has potential to be used as functional hydrogels for food, pharmaceutical, and biomedical applications. Practical Application: Scallop (Patinopecten yessoensis) male gonads are rich in protein and usually regarded as byproducts during adductor processing. Because of its gelation properties, scallop male gonads have potential to be used as functional hydrogels for food. The SMGHs/KC/XG ternary composite gel showed excellent gel properties, which would be potentially applied in delivery system in food and biological fields. Further study is undergoing to apply SMGHs/KC/XG to embed bioactive compounds, such as curcumin and β‐carotene. [ABSTRACT FROM AUTHOR]

Published

2022

4. Synergistic gelation in the hybrid gel of scallop (Patinopecten yessoensis) male gonad hydrolysates and xanthan gum.

Author

Xue, Shan, Yan, Jia‐Nan, Du, Yi‐Nan, Jiang, Xin‐Yu, Xu, Shi‐Qi, and Wu, Hai‐Tao

Subjects

MICROSTRUCTURE, PATINOPECTEN, SCALLOPS, XANTHAN gum, GELATION

Abstract

This study evaluated the gel and microstructure properties of scallop (Patinopecten yessoensis) male gonads hydrolysates (SMGHs) combined with xanthan gum (XG). SMGHs/XG hydrogel matrix properties and structures were elucidated via different analysis tools such as rheometry, LF‐NMR, FTIR, AFM, and Cryo‐SEM. The addition of XG significantly improved the rheological properties of SMGHs, as indicated by 3.1‐fold G′ and 1.3‐fold melting temperature with increasing the XG dose to 5.6 mg/ml. The corresponding decrease in the T23 relaxation time from 450.3 to 365.6 ms also signified the strong binding between SMGHs and XG. SMGHs/XG also had a higher proton density (T1 and T2 weighted images) due to the higher bound and free water content of the hybrid gel systems, respectively. Additionally, the blueshift in the amide I and II bands in SMGHs/XG further indicated stronger electrostatic interactions between SMGHs and XG. Such scenarios resulted in a well‐distributed and compact network with a rougher surface of SMGHs/XG in comparison to pure SMGHs and XG, as assessed by AFM and SEM. These results suggest that SMGHs/XG gel could be a potential hybrid gel applied in the food industry. Practical Application: Scallop (Patinopecten yessoensis) male gonads are edible, but are usually discarded during processing of scallop adductor. Because of its rich nutrition and gelation properties, scallop male gonads have a potential role in developing marine source‐protein as a functional food base. The SMGHs/XG binary gel would be potentially applied in delivery system in food and biological fields. Further study is undergoing to apply SMGHs/XG binary gel to embed bioactive compounds, such as curcumin and β‐carotene. [ABSTRACT FROM AUTHOR]

Published

2021

5. Intermolecular interaction in the hybrid gel of scallop (Patinopecten yessoensis) male gonad hydrolysates and κ‐carrageenan.

Author

Yan, Jia‐Nan, Du, Yi‐Nan, Jiang, Xin‐Yu, Han, Jia‐Run, Pan, Jin‐Feng, and Wu, Hai‐Tao

Subjects

*INTERMOLECULAR interactions, *PATINOPECTEN, *GELATION, *HYDROGEN bonding, *CHARGE-charge interactions

Abstract

Various bond disrupting agents including NaCl, GuHCl, urea, and SDS were introduced to investigate the intermolecular interactions between scallop (Patinopecten yessoensis) male gonad hydrolysates (SMGHs) and κ‐carrageenan (κ‐C), which were monitored by changes in rheological property, water distribution, conformation characterization and microstructure by using rheometer, low field‐NMR relaxometry, Fourier transform infrared (FTIR) spectroscopy, cryo‐scanning electron microscopy (cryo‐SEM), and confocal laser scanning microscopy. The results showed that the bond disrupting agents deteriorated the rheological property of SMGHs/κ‐C in a dose‐dependent manner. Indeed, at the same concentration of 2 M, NaCl deteriorated the SMGHs/κ‐C more obviously than GuHCl and urea. In addition, SMGHs/κ‐C with bond disrupting agents possessed higher relaxation times including T21 and T23, indicating the migration to free water direction of bound and free water. Moreover, the FITR results showed the red‐shift in water regions (amide A and B bands), amide I and II bands, and indicated the breakdown of hydrogen bonds and electrostatic interactions, indicating a disordered structure in SMGHs/κ‐C by various bond disrupting agents. Furthermore, cryo‐SEM results showed the change of SMGHs/κ‐C from a homogeneous network to a looser and ruptured one with larger void spaces, and indicated the disrupted and tattered microstructure of SMGHs/κ‐C by various bond disrupting agents. Additionally, SMGHs/κ‐C as well showed less aggregates stained by RITC by bond disrupting agents. These results suggest that electrostatic interactions would be mainly involved in the maintenance of SMGHs/κ‐C gel network. This study could provide theoretical and methodological basis for hydrogel products with modified gel strength and microstructure by understanding the intermolecular interactions in gel system. Practical Application: Scallop (Patinopecten yessoensis) male gonads as a high‐protein part of scallop, is usually discarded during processing despite its edibility. In recent years, scallop male gonads are regarded as good sources to develop protein matrices due to their high protein content and numerous nutrients. In this study, scallop male gonad hydrolysates (SMGHs) were obtained by trypsin‐treated process. The considerable gelation behavior of SMGHs indicated that the SMGHs could be potentially utilized as a novel thickener and additive in production of kamaboko gels, can, sausage and spread with marine flavor. [ABSTRACT FROM AUTHOR]

Published

2021

6. Curcumin-loaded composite hydrogel based on scallop (Patinopecten yessoensis) male gonad hydrolysates and κ-carrageenan: Characterization and in vitro digestibility.

Author

Yan, Jia-Nan, Du, Yi-Nan, Jiang, Xin-Yu, Xu, Shi-Qi, and Wu, Hai-Tao

Subjects

*CURCUMIN, *HYDROGELS, *SCALLOPS, *GASTROINTESTINAL system, *HYDROGEN bonding interactions, *GONADS, *REDSHIFT, *MESH networks

Abstract

A composite hydrogel composed of scallop (Patinopecten yessoensis) male gonad hydrolysates (SMGHs) and κ -carrageenan (KC) was fabricated with a designed microstructure to preserve curcumin (Cur) during the upper gastrointestinal tract (GIT). The presence of KC obviously increased the initial elastic moduli (8.2–761.8 Pa), shortened the relaxation time T 23 (517.37–420.10 ms) as well as caused the blue shift of the emission peak and quenched the intrinsic fluorescence of Cur in SMGHs/KC-Cur system, signifying the solid combination within SMGHs and KC. In addition, the red shift in O–H stretching bands and blue shift in amide I bands in SMGHs/KC-Cur further accentuated the involvement of hydrogen bonds and electrostatic interactions within SMGHs, KC and Cur. The disappearance of crystalline structures suggested the successful embedment of Cur in the hydrophobic core of SMGHs. Moreover, the microstructure of the hydrogels varied from heterogeneous with tattered large pore cavities and scattered patches to homogeneous distribution with dense mesh and solid network wall. These scenarios caused a more compact network of SMGHs/KC-Cur than SMGHs-Cur to protect Cur from releasing in simulated intestinal and simulated colonic phases with slower released rate, both of which had the final extent of Cur release exceeding 90%. Furthermore, cryo-SEM showed that the significant release of Cur from hydrogels in the simulated intestinal phase was due to SMGHs matrix erosion with even larger pore sizes, tattered network and thinner network wall. Therefore, it is suggested that SMGHs/KC hydrogels with biocompatibility and good tolerance to acid environment could be reliable and desirable soft materials to embed and deliver Cur to the colon, having potential applications in functional foods and biological therapeutic purposes. [Display omitted] - Enhancement of gel elasticity in SMGHs/KC confirmed a feasible Cur-loaded carrier. - Migration of water in SMGHs/KC to bound water direction supported the Cur embedment. - Compact and dense porous networks of SMGHs/KC contributed to the Cur embedment. - Better sustained release of Cur in SMGHs/KC promised the delivery of Cur in colon. [ABSTRACT FROM AUTHOR]

Published

2022

7. Gel properties of protein hydrolysates from trypsin-treated male gonad of scallop (Patinopecten yessoensis).

Author

Yan, Jia-Nan, Zhang, Meng, Zhao, Jun, Tang, Yue, Han, Jia-Run, Du, Yi-Nan, Jiang, Hui, Jin, Wen-Gang, Wu, Hai-Tao, and Zhu, Bei-Wei

Subjects

*PROTEIN hydrolysates, *SCALLOPS, *HIGH performance liquid chromatography, *GELATIN, *GONADS, *VISCOSITY

Abstract

Abstract In order to provide a foundation for comprehensive utilization of scallop (Patinopecten yessoensis) , the gel properties of hydrolysates from scallop male gonad (SMGHs) were studied. The hydrolysates were obtained from scallop male gonads (SMGs) by using trypsin. The changes in molecular mass of proteins were determined by SDS-PAGE and HPLC with a peptide separation column. The gel properties of SMGHs were investigated by using rheometer and texture instrument in comparison with that of ι-carrageenan and gelatin. The results showed that the proteins of SMGs were significantly degraded after hydrolysis with trypsin at a dosage of 3000 U/g protein. The SMGHs showed an appearance of gelation after hydrolysis for 30–180 min and cooling down. Under various sweep models, the values of storage modulus (G′), loss modulus (G″), viscosity (ƞ) of SMGHs were obvious higher than those of SMGs. The textural parameters containing firmness, cohesiveness and adhesive force of SMGHs at dosages of 50 and 75 mg/mL were similar to those of ι-carrageenan and gelatin at 25 mg/mL, respectively. For the mixtures, the gel property of SMGHs/ι-carrageenan SMGHs/gelatin increased significantly. The low-field NMR (LF-NMR) also reflected the T 23 of SMGHs/ι-carrageenan, T 21 of SMGHs/ι-carrageenan and SMGHs/gelatin mixture decreased significantly in comparison with SMGHs alone. These results suggest that SMGHs could be applied as a potential gelling and thickening agent in food formulations. Graphical abstract Image 1 Highlights • SMGHs treated by trypsin showed a specific gel property caused by peptides. • Gel property of SMGHs had hydrolysate time- and hydrolysate dose-dependent manners. • Gel strength of SMGHscan be comparable with ι-carrageenan and gelatin. • Synergistic effect on gelation was occurred betweenι-carrageenanand SMGHs. • Synergistic effect on water migration was foundbetweenι-carrageenanand SMGHs. [ABSTRACT FROM AUTHOR]

Published

2019

8. Complex coacervation of scallop (Patinopecten yessoensis) male gonad hydrolysates and κ-carrageenan: Effect of NaCl and KCl.

Author

Yan, Jia-Nan, Nie, Bin, Jiang, Xin-Yu, Han, Jia-Run, Du, Yi-Nan, and Wu, Hai-Tao

Subjects

*COACERVATION, *IONIC strength, *CARRAGEENANS, *SCALLOPS, *FLOCCULATION, *GONADS

Abstract

• Complex coacervation of SMGHs/ κ -C is largely governed by NaCl/KCl. • pH c and pH φ1 exhibited salt-dependent behaviors. • Optical density of SMGHs/ κ -C was regulated by salt-enhanced and -reduced effect. • Salt addition enhanced SMGHs/ κ -C gels mainly driven by electrostatic forces. • SMGHs/ κ -C showed more flocculation, larger pore and thicker network wall with salt. The complex coacervation between scallop Patinopecten yessoensis male gonad hydrolysates (SMGHs) and κ -carrageenan (κ -C) as influenced by ionic strength (NaCl and KCl) were monitored by using turbidimetric analysis at pH 1–12. The optical density of SMGHs/ κ -C complexes initially increased at lower ionic strength (0–0.5 M) whereas decreased at higher ionic strength (0.5–1.5 M) as a result of the salt-enhanced and salt-reduced effect, respectively. Both of pH c and pH φ1 exhibited ionic strength-dependent behavior that firstly shifted to acidic pH followed by an increase as salt increasing. Moreover, salt addition strongly promoted the gelation of SMGHs/ κ -C which was mainly driven by electrostatic forces, as reflected by increasing storage modulus G' from 3621 to 6559 Pa, 2681–25631 Pa at 0.1 Hz and decreasing T 23 relaxation time from 349.10 to 296.89 ms, 241.07–186.89 ms by 0–0.5 M NaCl/KCl, respectively. Furthermore, the rheological and relaxation time T 2 data were well associated with microscopy images that SMGHs/ κ -C gels with NaCl/KCl showed a denser network with more flocculation formation and larger pore sizes with thicker network wall, especially in KCl group, which indeed supported the gel elasticity. Taken together, this study could provide theoretical and methodological basis for new functional hydrogel products with modified gel strength and microstructure by understanding the complex coacervation in gel system. [ABSTRACT FROM AUTHOR]

Published

2020