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SM ISO690:2012 RUDIC, Valeriu, DJUR (MAXACOVA), Svetlana, CEPOI, Liliana, CHIRIAC, Tatiana, RUDI, Ludmila, ŞOVA, Sergiu. Cianobacteria spirulina platensis —
matrice pentru producerea compuşilor organici
selenocomponenţi
. In: Revista de Ştiinţă, Inovare, Cultură şi Artă „Akademos”, 2014, nr. 1(32), pp. 83-88. ISSN 1857-0461. |
EXPORT metadate: Google Scholar Crossref CERIF DataCite Dublin Core |
Revista de Ştiinţă, Inovare, Cultură şi Artă „Akademos” | |||||
Numărul 1(32) / 2014 / ISSN 1857-0461 /ISSNe 2587-3687 | |||||
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CZU: 582.232.2:579.226:577.1 | |||||
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In recent years, an increasing use of trace elements is due to their deficiency into human and animal body, caused by the action of various external and internal risk factors. It is apparent that hidden trace element deficiencies are far more widespread than is generally estimated. Selenium is one of the essential trace elements for human and animal body. Selenium has many medical effects, such as reducing cancer mortality, prevention of cardiovascular diseases, etc. The specific
biological activity of selenium depends on its chemical forms, organic selenium being the form with the highest bioactivity. Cyanobacterium Spirulina platensis has been consumed as a dietary supplement for a long time, and in recent years this microbiological object is investigated as a matrix for the production of organic compounds with Se, thus, representing a
promising source for large scale production of organic
selenium. It has been shown that strain Spirulina platensis CNMN-CB-11 accumulates selenium in its process of growth and development and can be used as a matrix for the production of organic compounds with selenium. Iron selenite in concentration of 30,00 mg/l can be used to obtain spirulina biomass containing
selenium biotransformed into organic form (79,8%) by its integrating into intracellular bioligands of spirulina,
such as free amino acids, oligopeptides, etc. compounds with low and medium molecular weight (27,7%) and proteins (30,3%). |
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Cuvinte-cheie Spirulina platensis, Selenium, bioaccumulation, selenium distribution |
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