Role of glutamine on the de novo purine nucleotide synthesis in Caco-2 cells | Zendy

J. Bozá | Zendy; Denis Moënnoz | Zendy; Claire E. Bournot | Zendy; Stéphanie Blum | Zendy; Irène Zbinden | Zendy; Paul André Finot | Zendy; Olivier Ballèvre | Zendy

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Role of glutamine on the de novo purine nucleotide synthesis in Caco-2 cells

Author(s) -

J. Bozá,

Denis Moënnoz,

Claire E. Bournot,

Stéphanie Blum,

Irène Zbinden,

Paul André Finot,

Olivier Ballèvre

Publication year - 2000

Publication title -

european journal of nutrition

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 1.321

H-Index - 96

eISSN - 1436-6215

pISSN - 1436-6207

DOI - 10.1007/s003940050074

Subject(s) - nucleotide , de novo synthesis , purine , biochemistry , glutamine , nucleic acid , biology , glycine , purine metabolism , chemistry , amino acid , gene , enzyme

The body's nucleotide pool derives from three potential sources: de novo synthesis, salvage of preformed-nucleosides/bases or the diet. The relative contributions of these pathways of assimilation are poorly understood in vivo. Dietary nucleotides have been suggested to have beneficial effects an the development and repair of the gastrointestinal tract. Tissues with a rapid turnover, such as the gut and the immune system cells, may utilise preformed nucleotides (coming from the diet), in situations in which there is a high demand of nucleotides for nucleic acid synthesis. Therefore, nucleotides could be considered as conditionally essential nutrients.

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