Glutelins are a class of prolamin proteins found in the endosperm of certain seeds of the grass family. They constitute a major component of the protein composite collectively referred to as gluten. Glutenin is the most common glutelin, as it is found in wheat and is responsible for some of the refined baking properties in bread wheat. The glutelins of barley and rye[1] have also been identified. Glutelins are the primary protein form of energy storage in the endosperm of rice grains.[2]

Glutelin
Identifiers
SymbolGlutelin
InterProIPR000480

This class was originally differentiated from prolamins by Thomas Burr Osborne according to its low solubility. Modern analysis now considers glutelins as a low-solubility subclass of prolamins.

Glutelins are soluble in dilute acids or bases, detergents, chaotropic agents, or reducing agents. They are also rich in hydrophobic amino acids, with a content of phenylalanine, valine, tyrosine, proline and leucine corresponding to approximately 45% of the amino acid sequence of Glutelin-2 (UniProtKB access code P04706.1), though that specific amino acid profile is not characteristic of all glutelins.[3] There are typically both high-molecular-weight (HMW) and low-molecular-weight (LMW) glutelins in most grass species. These proteins cross-link with themselves and other proteins during baking via disulfide bonds. The LMW ones are similar to Gliadin.

Individuals possessing the HLA-DQ8 class II antigen receptor gene may demonstrate increased reactivity to high-molecular weight glutenin (as measured by increased levels of pro-inflammatory cytokine interferon gamma), though such observations are limited to one patient.[4]

References

edit
  1. ^ Shang H, Wei Y, Long H, Yan Z, Zheng Y (2005). "Identification of LMW glutenin-like genes from Secale sylvestre host". Genetika. 41 (12): 1656–64. PMID 16396452.
  2. ^ Kei Takahashi; Hiromi Kohno; Tomomichi Kanabayashi; Masaki Okuda (2019). "Glutelin subtype-dependent protein localization in rice grain evidenced by immunodetection analyses". Plant Molecular Biology. 100 (3): 231–246. doi:10.1007/s11103-019-00855-5. PMC 6542783. PMID 30911876.
  3. ^ Elwart J. A. D. (1967). "Amino acid analysis of glutenins and gliadins". J. Sci. Food Agric. 10 (3): 111–117. doi:10.1002/jsfa.2740180307. PMID 6042168.
  4. ^ Dewar D, Amato M, Ellis H, Pollock E, Gonzalez-Cinca N, Wieser H, Ciclitira P (2006). "The toxicity of high molecular weight glutenin subunits of wheat to patients with coeliac disease". Eur J Gastroenterol Hepatol. 18 (5): 483–91. doi:10.1097/00042737-200605000-00005. PMID 16607142.
edit