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Einkor wheat bread 100%: the strength of gluten makes the difference

by luciano

The aim of the study
The aim of the study is to evaluate the role of gluten strength of the same genotype (equal genetic imprinting) but with different cultivation on the final volume of bread.

Test
Two loaves were made with two einkorn wheat flours which are completely identical in quantity of ingredients and methods of execution. Both flours used belong to the einkorn genotype type ID331; one (A) grown without any fertilizer or other chemical compounds, the other (B) grown with the supply of nitrogen.
Both loaves were prepared with the same method:
“New Method for making fermented bakery products n. EP 3305078B1: at the bottom of https://glutenlight.eu/en/2019/09/27/einkorn-bread100/”.
The result clearly shows how the strength of gluten (1) played a decisive role in giving bread (B) a higher volume, a more open and regular crumb (Photo NN. 3, 4, 5, 6, 7, 8).
It is known that the supply of nitrogen contributes to increasing both the quantity and strength of gluten (2). This was a decisive factor for the development of agrotechnics which allowed flour to be produced with better workability from an industrial point of view; the increase in the strength of gluten, however, led in parallel to a less digestible (3) and less tolerable (4) gluten.

Monococcum wheat (einkorn wheat): why it is so important

by luciano

Summary of the main characteristics of the monococcum wheat (einkorn) which give it great potential to be used for the preparation of bakery products but also sweet ones for people who:
1. are genetically predisposed for celiac disease (1) (2) (3) (4) (5),
2. must keep the glycemic index under control (6),
3. are non-celiac gluten sensitive, reintroduce gluten after its exclusion (7),
4. have difficulty digesting gluten (8).
5. are sensitive to ATI -amylase trypsina inhibitors-. (9)
6. Also worthy of note is the high nutritional qualities of monococcus wheat (einkorn) (10)
(1)- Immunogenicity of monococcum wheat in celiac patients
………..omissis. “Conclusions: Our data show that the monococcum lines Monlis and ID331 activate the CD T cell response and suggest that these lines are toxic for celiac patients. However, ID331 is likely to be less effective in inducing CD because of its inability to activate the innate immune pathways”. Immunogenicity of monococcum wheat in celiac patients. Carmen Gianfrani et altri. Am J Clin Nutr 2012;96:1339–45.

(2) ………omissis. “D’altra parte, tenuto conto che l’incidenza e la gravità della celiachia dipende dalla quantità e dalla nocività delle prolamine e che alcuni genotipi di grano monococco hanno una elevata qualità panificatoria accoppiata con assenza di citotossicità e ridotta immunogenicità, è atteso che l’uso delle farine di monococco nella dieta della popolazione generale, all’interno della quale si trova una elevata percentuale di individui predisposti geneticamente alla celiachia ma non ancora celiaci, possa contribuire a contenere la diffusione di questa forma di intolleranza alimentare. Ciò lascia pensare che il grano monococco, riportato recentemente in coltivazione in Italia dai ricercatori del Consiglio per la Ricerca e la sperimentazione in Agricoltura (CRA) di Roma e San Angelo Lodigiano, potrà svolgere un ruolo importante nella prevenzione della celiachia, sia direttamente sotto forma di pane e pasta sia indirettamente come specie modello per lo studio del ruolo dell’immunità innata nell’insorgenza della celiachia”. Le nuove frontiere delle tecnologie alimentari e la celiachia Norberto Pogna, Laura Gazza (2013).

(3)-Extensive in vitro gastrointestinal digestion markedly reduces the immune-toxicity of Triticum monococcum wheat: Implication for celiac disease
Carmen Gianfrani, Alessandra Camarca, Giuseppe Mazzarella, Luigia Di Stasio, Nicola Giardullo, Pasquale Ferranti, Gianluca Picariello, Vera Rotondi Aufiero, Stefania Picascia, Riccardo Troncone, Norberto Pogna, Salvatore Auricchio
and Gianfranco Mamone. Mol. Nutr. Food Res. 2015, 00, 1–11
Scope: The ancient diploid Triticum monococcum is of special interest as a candidate low-toxic wheat species for celiac disease patients. Here, we investigated how an in vitro gastro-intestinal digestion, affected the immune toxic properties of gliadin from diploid compared to hexaploid wheat.
Method and results: Gliadins from Triticum monococcum, and Triticum aestivum cultivars were digested using either a partial proteolysis with pepsin-chymotrypsin, or an extensive degradation that used gastrointestinal enzymes including the brush border membrane enzymes. The immune stimulatory properties of the digested samples were investigated on T-cell lines and jejunal biopsies from celiac disease patients. The T-cell response profile to the Triticum mono coccum gliadin was comparable to that obtained with Triticum aestivum gliadin after the partial pepsin-chymotrypsin digestion. In contrast, the extensive gastrointestinal hydrolysis drastically reduced the immune stimulatory properties of Triticum monococcum gliadin. MS-based analy- sis showed that several Triticum monococcum peptides, including known T-cell epitopes, were degraded during the gastrointestinal treatment, whereas many of Triticum aestivum gliadin survived the gastrointestinal digestion.
Conclusion: he pattern of Triticum monococcum gliadin proteins is sufficiently different from those of common hexaploid wheat to determine a lower toxicity in celiac disease patients following in vitro simulation of human digestion.