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Items: 1 to 20 of 330

1.

Raman spectroscopy for intracellular monitoring of carotenoid in Blakeslea trispora.

Papaioannou EH, Liakopoulou-Kyriakides M, Christofilos D, Arvanitidis I, Kourouklis G.

Appl Biochem Biotechnol. 2009 Nov;159(2):478-87. doi: 10.1007/s12010-008-8472-0. Epub 2009 Jan 6.

PMID:
19130307
2.

On-line monitoring of Phaffia rhodozyma fed-batch process with in situ dispersive Raman spectroscopy.

Cannizzaro C, Rhiel M, Marison I, von Stockar U.

Biotechnol Bioeng. 2003 Sep 20;83(6):668-80.

PMID:
12889031
3.

Identification of carotenoids produced from cheese whey by Blakeslea trispora in submerged fermentation.

Varzakakou M, Roukas T.

Prep Biochem Biotechnol. 2010;40(1):76-82. doi: 10.1080/10826060903400666.

PMID:
20024797
4.

Validation model for Raman based skin carotenoid detection.

Ermakov IV, Gellermann W.

Arch Biochem Biophys. 2010 Dec 1;504(1):40-9. doi: 10.1016/j.abb.2010.07.023. Epub 2010 Aug 1.

PMID:
20678465
5.

New insights into mechanisms of growth and beta-carotene production in Blakeslea trispora.

Böhme K, Richter C, Pätz R.

Biotechnol J. 2006 Oct;1(10):1080-4.

PMID:
17004297
6.

Spectroscopy analysis for simultaneous determination of lycopene and β-carotene in fungal biomass of Blakeslea trispora.

Soroka IM, Narushin VG, Turiyansky YD, Tyurenkov AA.

Acta Biochim Pol. 2012;59(1):65-9. Epub 2012 Mar 17.

7.

Media optimization for the production of beta-carotene by Blakeslea trispora: a statistical approach.

Choudhari S, Singhal R.

Bioresour Technol. 2008 Mar;99(4):722-30. Epub 2007 Mar 26.

PMID:
17379513
8.

Rapid and environmentally-friendly extraction of carotenoids from Blakeslea trispora.

Wang HB, Zhang LW, Luo J, Yu LJ.

Biotechnol Lett. 2015 Nov;37(11):2173-8. doi: 10.1007/s10529-015-1920-3. Epub 2015 Jul 25. Erratum in: Biotechnol Lett. 2015 Nov;37(11):2179-80.

PMID:
26209033
9.

Production of beta-carotene from beet molasses by Blakeslea trispora in stirred-tank and bubble column reactors: development of a mathematical modeling.

Goksungur Y, Mantzouridou F, Roukas T, Kotzekidou P.

Appl Biochem Biotechnol. 2004 Jan;112(1):37-54.

PMID:
14734837
10.

[Zygote formation in Blakeslea trispora: morphological peculiarities and relationship with carotenoid synthesis].

Tereshina VM, Memorskaia AS, Feofilova EP.

Mikrobiologiia. 2003 Jul-Aug;72(4):503-9. Russian.

PMID:
14526541
11.

Effect of biomass pre-treatment and solvent extraction on beta-carotene and lycopene recovery from Blakeslea trispora cells.

Papaioannou E, Roukas T, Liakopoulou-Kyriakides M.

Prep Biochem Biotechnol. 2008;38(3):246-56. doi: 10.1080/10826060802164942.

PMID:
18569871
12.

Performance of crude olive pomace oil and soybean oil during carotenoid production by Blakeslea trispora in submerged fermentation.

Mantzouridou F, Tsimidou MZ, Roukas T.

J Agric Food Chem. 2006 Apr 5;54(7):2575-81.

PMID:
16569046
13.

Effect of fruit and vegetable intake on skin carotenoid detected by non-invasive Raman spectroscopy.

Rerksuppaphol S, Rerksuppaphol L.

J Med Assoc Thai. 2006 Aug;89(8):1206-12.

PMID:
17048431
15.
16.

Agro-food wastes utilization by Blakeslea trispora for carotenoids production.

Papaioannou EH, Liakopoulou-Kyriakides M.

Acta Biochim Pol. 2012;59(1):151-3. Epub 2012 Mar 17.

17.

Clinical validation of a noninvasive, Raman spectroscopic method to assess carotenoid nutritional status in humans.

Zidichouski JA, Mastaloudis A, Poole SJ, Reading JC, Smidt CR.

J Am Coll Nutr. 2009 Dec;28(6):687-93.

PMID:
20516269
18.

Characterization of pollen carotenoids with in situ and high-performance thin-layer chromatography supported resonant Raman spectroscopy.

Schulte F, Mäder J, Kroh LW, Panne U, Kneipp J.

Anal Chem. 2009 Oct 15;81(20):8426-33. doi: 10.1021/ac901389p.

PMID:
19778038
19.

On-line content uniformity determination of tablets using low-resolution Raman spectroscopy.

Wikström H, Romero-Torres S, Wongweragiat S, Williams JA, Grant ER, Taylor LS.

Appl Spectrosc. 2006 Jun;60(6):672-81.

PMID:
16808869
20.

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