AI Article Synopsis
- The study investigated cross-linking in gelatin using Carbon-13 NMR and 13C-enriched formaldehyde, discovering various reactions based on different conditions.
- When a 6% gelatin solution was treated with 2000 ppm 13CH2O at 20°C, the spectrum revealed specific peaks indicating the presence of cross-links between the amino acids arginine and lysine.
- Adding pancreatin to the gel caused it to revert to a fluid state, but after incubation, the cross-linked structures were still detectable in the NMR spectrum, demonstrating the stability of the reactions under certain conditions.
Article Abstract
Carbon-13 nuclear magnetic resonance (13C-NMR) and 13C-enriched formaldehyde (13CH2O) were utilized to observe cross-linking in gelatin. Thus, when a 6% solution of gelatin in water was treated with 2000 ppm 13CH2O at 20 degrees C, the 15 hr 13C-NMR spectrum of the crosslinked gel showed peaks representing carbinolamines (methylols) of arginine and lysine, as well as a peak ascribed to a methylene cross-link between arginine and lysine. Similar results were obtained when these cross-linking reactions were conducted using only 100 ppm 13CH2O. When pancreatin (1% w/v) was added to the solution of 6% gelatin cross-linked with 2000 ppm 13CH2O, the gel began to revert to a clear fluid solution. After incubation for 24 hr at 37 degrees C, the 13C-NMR spectrum of this solution confirmed the presence of the methylols of lysine and arginine, and the lysine-arginine cross-link. When 13CH2O (2000 ppm) was added to a 6% solution of gelatin at pH 13.0, the arginine methylol and the lysine-arginine crosslinks were produced. The 13CH2O-induced crosslinking of gelatin at pH 2.0, however, yielded the lysine methylol as the sole product.
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| http://dx.doi.org/10.3109/10837459609031414 | DOI Listing |
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