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Procedeu de cultivare a cianobacteriei Spirulina platensis

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dc.contributor Institutul de Microbiologie şi Biotehnologie
dc.contributor.author RUDI, Liudmila
dc.contributor.author CEPOI, Liliana
dc.contributor.author CHIRIAC, Tatiana
dc.contributor.author RUDIC, Valeriu
dc.contributor.author DJUR, Svetlana
dc.contributor.author ZINICOVSCAIA, Inga
dc.contributor.author VALUŢA, Ana
dc.contributor.author DUMBRĂVEANU, Veronica
dc.contributor.author MISCU, Vera
dc.contributor.author CEPOI, Anastasia
dc.contributor.author ROTARI, Ion
dc.contributor.author TAŞCĂ, Ion
dc.date.accessioned 2024-01-30T09:02:05Z
dc.date.available 2024-01-30T09:02:05Z
dc.date.issued 2022-02-28
dc.identifier.citation RUDI, Liudmila, CEPOI Liliana et al. Procedeu de cultivare a cianobacteriei Spirulina platensis. Brevet MD 4796, CIB C12N 1/20, C12N 1/38, C01G 5/00, B82Y 5/00. Institutul de Microbiologie şi Biotehnologie. Nr. depozit: a 2021 0009. Data depozit: 2021.02.26. Data public.: 2022.02.28. In: BOPI. 2022, nr. 2. en_US
dc.identifier.other Nr. depozit: a 2021 0009
dc.identifier.uri http://www.db.agepi.md/Inventions/details/a%202021%200009
dc.identifier.uri http://repository.utm.md/handle/5014/26113
dc.description.abstract Invenţia se referă la biotehnologie, şi anume la un procedeu de cultivare a cianobacteriei Spirulina platensis şi poate fi aplicată în scopul obţinerii de materie primă pentru elaborarea şi fabricarea remediilor cu acţiune antimalignă şi imunomodulatoare. Conform invenţiei, procedeul de cultivare a cianobacteriei Spirulina platensis include cultivarea cianobacteriei pe mediul nutritiv ce conţine, în g/L: NaNO3-2,5, NaHCO3-8,0, NaCI-1,0, K2SO4-1,0, Na2HPO4-0,2, MgSO4.7H2O-0,2, H3BO3-0,00286, MnCI2.4H2O-0,00181, CuSO4.5H2O-0,00008; MoO3-0,000015, FeEDTA 1,0 ml/L şi apă distilată restul, la temperatura de 30-32°C, pH 8,0-10,0 şi iluminarea de 37-55 µM fotoni/m2.s în regim continuu, timp de 6 zile, totodată în a cincea zi de cultivare în mediul nutritiv se adaugă nanoparticule de Ag în înveliş de polietilenglicol cu dimensiunea de până la 5 nm în concentraţia de 0,10-0,12 µM/L. Rezultatul invenţiei constă în reducerea conţinutului dialdehidei malonice în biomasa de spirulină. en_US
dc.description.abstract Изобретение относится к биотехнологии, а именно к способу культивирования цианобактерии Spirulina platensis и может быть применено с целью получения сырья для разработки и производства средств с противораковым и иммуномодулирующим действием. Согласно изобретению, способ культивирования цианобактерии Spirulina platensis включает культивирование цианобактерии на питательной среде, содержащей, г/л: NaNO3-2,5, NaHCO3-8,0, NaCI-1,0, K2SO4-1,0, Na2HPO4-0,2, MgSO4.7H2O-0,2, H3BO3-0,00286, MnCI2.4H2O-0,00181, CuSO4.5H2O-0,00008; MoO3-0,000015, FeEDTA 1,0 мл/л и воду дистиллированную остальное, при температуре 30-32°C, pH 8,0-10,0, при постоянном освещении в 37-55 µM фотонов/м2.сек, в течение 6 дней, при этом на пятый день культивирования в питательную среду добавляют наночастицы серебра в полиэтиленгликолевой оболочке размером до 5 нм, в концентрации 0,10-0,12 µM/л. Технический результат заключается в снижении содержания малонового диальдегида в биомассе спирулины. en_US
dc.description.abstract The invention relates to biotechnology, namely to a process for cultivating Spirulina platensis cyanobacterium and can be used for producing raw materials for the development and manufacture of drugs with anticancer and immunomodulatory action. According to the invention, the process for cultivating Spirulina platensis cyanobacterium comprises cultivation of cyanobacterium on a nutrient medium, containing, g/L: NaNO3-2,5; NaHCO3-8.0; NaCI-1.0; K2SO4-1.0; Na2HPO4- 0.2; MgS04.7H2O-0.2, H3BO3-0.00286; MnCl2.4H2O-0.00181; CuSO4.5H2O-0.00008; MoO3-0. 000015, FeEDTA 1.0 ml/L and distilled water the rest, at a temperature of 30-32C, pH 8.0-10.0 and illumination of 37-55 µM photons/m2 /s in continuous regime, for 6 days, at the same time silver nanoparticles in a polyethylene glycol shell of a size of up to 5 nm, in a concentration of 0.10-0.12 µM/L are added into the nutrient medium on the fifth day of cultivation. The technical result consists in reducing the content of malondialdehyde in the spirulina biomass. en_US
dc.language.iso ro en_US
dc.publisher Agenţia de Stat pentru Proprietatea Intelectuală en_US
dc.rights Brevet valabil. Data expirării brevetului 26.02.2041. en_US
dc.rights Attribution-NonCommercial-NoDerivs 3.0 United States *
dc.rights.uri http://creativecommons.org/licenses/by-nc-nd/3.0/us/ *
dc.subject invenţii en_US
dc.subject brevete de invenţie en_US
dc.subject cianobacterii en_US
dc.subject Spirulina Platensis en_US
dc.subject dialdehida malonice en_US
dc.subject biomasă de spirulină en_US
dc.subject цианобактерии en_US
dc.subject малоновый диальдегид en_US
dc.subject биомасса спирулины en_US
dc.subject cyanobacterium en_US
dc.subject malondialdehyde en_US
dc.subject spirulina biomass en_US
dc.subject.classification IPC: C12N 1/20 (2006.01) en_US
dc.subject.classification IPC: C12N 1/38 (2006.01) en_US
dc.subject.classification IPC: C01G 5/00 (2006.01) en_US
dc.subject.classification IPC: B82Y 5/00 (2011.01) en_US
dc.title Procedeu de cultivare a cianobacteriei Spirulina platensis en_US
dc.type Patent en_US


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Brevet valabil. Data expirării brevetului 26.02.2041. Except where otherwise noted, this item's license is described as Brevet valabil. Data expirării brevetului 26.02.2041.

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