SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4321373117> ?p ?o ?g. }

Showing items 1 to 100 of ±140 with 100 items per page.

W4321373117 endingPage "1988" @default.
W4321373117 startingPage "1988" @default.
W4321373117 abstract "Microalgae produce a variety of high-value chemicals including carotenoids. Fucoxanthin is also a carotenoid that has many physiological functions and biological properties. For this reason, the cost-effective production of fucoxanthin at an industrial scale has gained significant attention. In the proposed study, fucoxanthin production was aimed to be increased by altering the culture conditions of N. shiloi. The effect of light intensity aeration rate, different nitrogen sources, and oxidative stress on the biomass and fucoxanthin productivity have been discussed. Based on these results, the fucoxanthin increased to 97.45 ± 2.64 mg/g by adjusting the light intensity to 50 µmol/m2s, and aeration rate at 5 L/min using oxidative stress through the addition of 0.1 mM H2O2 and 0.1 mM NaOCl to the culture medium. Fucoxanthin was then purified with preparative HPLC using C30 carotenoid column (10 mm × 250 mm, 5 μm). After the purification procedure, Liquid chromatography tandem mass spectrometry (LC-MS/MS) and UV-vis spectroscopy were employed for the confirmation of fucoxanthin. This study presented a protocol for obtaining and purifying considerable amounts of biomass and fucoxanthin from diatom by manipulating culture conditions. With the developed methodology, N. shiloi could be evaluated as a promising source of fucoxanthin at the industrial scale for food, feed, cosmetic, and pharmaceutical industries." @default.
W4321373117 created "2023-02-21" @default.
W4321373117 creator A5015173658 @default.
W4321373117 creator A5017627748 @default.
W4321373117 creator A5028813980 @default.
W4321373117 creator A5033018260 @default.
W4321373117 creator A5072693700 @default.
W4321373117 creator A5082036527 @default.
W4321373117 creator A5088163588 @default.
W4321373117 date "2023-02-20" @default.
W4321373117 modified "2023-10-03" @default.
W4321373117 title "Manipulation in Culture Conditions of Nanofrustulum shiloi for Enhanced Fucoxanthin Production and Isolation by Preparative Chromatography" @default.
W4321373117 cites W1510811503 @default.
W4321373117 cites W1651222697 @default.
W4321373117 cites W1903788792 @default.
W4321373117 cites W1949400751 @default.
W4321373117 cites W1963496118 @default.
W4321373117 cites W1971560144 @default.
W4321373117 cites W1975397470 @default.
W4321373117 cites W1977424327 @default.
W4321373117 cites W1978837937 @default.
W4321373117 cites W1982261447 @default.
W4321373117 cites W1996406277 @default.
W4321373117 cites W1998567443 @default.
W4321373117 cites W2000472015 @default.
W4321373117 cites W2004155706 @default.
W4321373117 cites W2015585621 @default.
W4321373117 cites W2017590409 @default.
W4321373117 cites W2029335088 @default.
W4321373117 cites W2041684572 @default.
W4321373117 cites W2044809902 @default.
W4321373117 cites W2057965171 @default.
W4321373117 cites W2061209815 @default.
W4321373117 cites W2061362244 @default.
W4321373117 cites W2071709963 @default.
W4321373117 cites W2082006495 @default.
W4321373117 cites W2086682534 @default.
W4321373117 cites W2090757018 @default.
W4321373117 cites W2090857330 @default.
W4321373117 cites W2091214433 @default.
W4321373117 cites W2093536921 @default.
W4321373117 cites W2093847007 @default.
W4321373117 cites W2097237123 @default.
W4321373117 cites W2105435654 @default.
W4321373117 cites W2111912550 @default.
W4321373117 cites W2145506695 @default.
W4321373117 cites W2467863249 @default.
W4321373117 cites W2549030574 @default.
W4321373117 cites W2567610985 @default.
W4321373117 cites W2621032637 @default.
W4321373117 cites W2680366611 @default.
W4321373117 cites W2811276287 @default.
W4321373117 cites W2811497584 @default.
W4321373117 cites W2879979536 @default.
W4321373117 cites W2884137097 @default.
W4321373117 cites W2899444779 @default.
W4321373117 cites W2909200165 @default.
W4321373117 cites W2910271798 @default.
W4321373117 cites W2911522336 @default.
W4321373117 cites W2912557076 @default.
W4321373117 cites W2919673372 @default.
W4321373117 cites W2945954624 @default.
W4321373117 cites W2946547056 @default.
W4321373117 cites W2951928216 @default.
W4321373117 cites W2975694913 @default.
W4321373117 cites W3000561611 @default.
W4321373117 cites W3016716884 @default.
W4321373117 cites W3035176278 @default.
W4321373117 cites W3043852270 @default.
W4321373117 cites W3043973410 @default.
W4321373117 cites W3091880030 @default.
W4321373117 cites W3093802508 @default.
W4321373117 cites W3112729114 @default.
W4321373117 cites W3133635558 @default.
W4321373117 cites W3205824093 @default.
W4321373117 cites W3208710090 @default.
W4321373117 cites W4235607766 @default.
W4321373117 cites W4296619138 @default.
W4321373117 cites W4308247972 @default.
W4321373117 cites W604962347 @default.
W4321373117 doi "https://doi.org/10.3390/molecules28041988" @default.
W4321373117 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36838976" @default.
W4321373117 hasPublicationYear "2023" @default.
W4321373117 type Work @default.
W4321373117 citedByCount "2" @default.
W4321373117 countsByYear W43213731172023 @default.
W4321373117 crossrefType "journal-article" @default.
W4321373117 hasAuthorship W4321373117A5015173658 @default.
W4321373117 hasAuthorship W4321373117A5017627748 @default.
W4321373117 hasAuthorship W4321373117A5028813980 @default.
W4321373117 hasAuthorship W4321373117A5033018260 @default.
W4321373117 hasAuthorship W4321373117A5072693700 @default.
W4321373117 hasAuthorship W4321373117A5082036527 @default.
W4321373117 hasAuthorship W4321373117A5088163588 @default.
W4321373117 hasBestOaLocation W43213731171 @default.
W4321373117 hasConcept C115540264 @default.
W4321373117 hasConcept C134537524 @default.
W4321373117 hasConcept C178790620 @default.