Introduction of the hypocholesterolemic peptide LPYPR to the major storage protein of mung bean Vigna radiata (L.) Wilczek through site-directed mutagenesis


Citation

Upadhyay S. K., . and Torio M. A. O., . and Lacsamana M. S., . and Diaz M. G. Q., . and Angelia M. R. N., . and Sucgang A. T., . and Uy L. Y. C., . Introduction of the hypocholesterolemic peptide LPYPR to the major storage protein of mung bean Vigna radiata (L.) Wilczek through site-directed mutagenesis. pp. 527-537. ISSN 22317546

Abstract

The hypocholesterolemic peptide LPYPR was successfully introduced into the VR-1 VR-2 and VR-5 regions of the mung bean 8S globulin. The mutant protein (MP) has 96.69 structural homology and 97 sequence homology compared to the wild type (WT). Expression of the mutant protein in E. coli HMS174(DE3) was 40.66 which was 144.42 higher than that of the WT. The WT protein and MP had MWs of about 48.4 and 48.7 kDa respectively. These were purified using HIC and digested with trypsin. UPLC analysis of the tryptic digests of the MP revealed the successful release of the LPYPR peptide. Unlike the WT protein cholesterol-binding capacity (mg/g sample) of the MP increased over time of tryptic digestion (average growth rate of 9.5 for crude MP and 12.5 for HIC-purified MP) for its undigested form (crude: 220.96 8.65 purified: 214.71 11.91) with maximum values of 380.76 6.61 and 434.44 10.88 were obtained for the 24-h digests of the crude and purified proteins respectively. Similarly the sodium taurocholate binding capacity () was also found to increase over time of tryptic digestion (average growth rate of 4 for crude MP and 5.67 for HIC-purified MP) for the tryptic digests of the MP. Minimum values for bound sodium taurocholate was obtained with the undigested samples (crude: 46.71 0.42 purified: 44.49 0.13) while maximum values thereof were obtained with the 24-h digest samples (crude: 59.75 0.30 purified 61.95 0.51).


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Abstract

The hypocholesterolemic peptide LPYPR was successfully introduced into the VR-1 VR-2 and VR-5 regions of the mung bean 8S globulin. The mutant protein (MP) has 96.69 structural homology and 97 sequence homology compared to the wild type (WT). Expression of the mutant protein in E. coli HMS174(DE3) was 40.66 which was 144.42 higher than that of the WT. The WT protein and MP had MWs of about 48.4 and 48.7 kDa respectively. These were purified using HIC and digested with trypsin. UPLC analysis of the tryptic digests of the MP revealed the successful release of the LPYPR peptide. Unlike the WT protein cholesterol-binding capacity (mg/g sample) of the MP increased over time of tryptic digestion (average growth rate of 9.5 for crude MP and 12.5 for HIC-purified MP) for its undigested form (crude: 220.96 8.65 purified: 214.71 11.91) with maximum values of 380.76 6.61 and 434.44 10.88 were obtained for the 24-h digests of the crude and purified proteins respectively. Similarly the sodium taurocholate binding capacity () was also found to increase over time of tryptic digestion (average growth rate of 4 for crude MP and 5.67 for HIC-purified MP) for the tryptic digests of the MP. Minimum values for bound sodium taurocholate was obtained with the undigested samples (crude: 46.71 0.42 purified: 44.49 0.13) while maximum values thereof were obtained with the 24-h digest samples (crude: 59.75 0.30 purified 61.95 0.51).

Additional Metadata

[error in script]
Item Type: Article
AGROVOC Term: Mung beans
AGROVOC Term: Vigna radiata
AGROVOC Term: Sampling
AGROVOC Term: analysis
AGROVOC Term: Gastrointestinal agents
AGROVOC Term: Mutagenesis
Depositing User: Mr. AFANDI ABDUL MALEK
Last Modified: 24 Apr 2025 00:55
URI: http://webagris.upm.edu.my/id/eprint/9911

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