• Journal of Microbiology and Biotechnology
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• v.6 no.2
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• pp.110-115
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• 1996

Yellow mutants of the astaxanthin producing red yeast Phaffia rhodozyma were obtained by nitrosoguanidine mutagenesis. The carotenoid composition of the yelow mutants, Yan-1 and Ny-1, was mainly $\beta$ -carotene (> 95$%$) and torulene (< 5$$). Therefore, the yellow mutants are carotene oxygenation deficient mutants (CODMs). CODMs produced decreased quantities of carotenoids compared to their red parents and this indicated that carotene may regulate its synthesis. CODMs, Yan-1 and Ny-4, on plates containing 50 $\mu$ M antimycin, showed highly pigmented vertical papillae. Antimycin-induced mutants purified from the papillae showed increases in carotenoid content (up to 1 mg $\beta$-carotene/g yeast). CODMs, Yan-1 and Ay-1, were more sensitive to antimycin than red strains, Ant-1 and 67-385. This was probably due to lower antioxidant activity of $\beta$-carotene than that of astaxanthin. Light increased torulene and light+antimycin further increased the torulene. Yan-1 and Ny-4 could grow with succinate, though their red parents, Ant-1 and Anf-1p, could not. However, antimycin induced mutation of Yan-1 or Ny-4 destroyed the ability to grow with succinate.

• Journal of the Korean Chemical Society
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• v.24 no.4
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• pp.310-314
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• 1980

Some minor carotenoid pigments, luteints, lutein monoester, torulene, $\gamma$-carotene, and 5,6-monoepoxy-$\alpha$-carotene-like have been separated and identified from the abdominal skin of Bombina Orientalis. Their structures have been established through the physical and chemical properties, VIS-UV and IR spectral characteristics, and chromatographic behaviors.

• KSBB Journal
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• v.17 no.1
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• pp.44-48
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• 2002

An efficient method of extraction for carotenoids in Rhodotorula glutinis KCTC 7989 was developed. Major carotenoids produced were identified as torularhodin of 61.7%, $\beta$-carotene of 28.8%, and torulene of 9.5%. HCI treatment, as a pretreatment on cell, was necessary to carry out together with thermal treatment unlike DMSO pretreatment. The choice of solvent had an important effect on the composition of carotenoids extracted: benzene and chloroform were effective for the extraction of torularhodin, especially. However, diethyl ether was most effective for the extraction of total carotenoids. Freeze dried type cells showed high efficiency value for the extraction of carotenoids, in compared with dried and wet type cells.

• Applied Biological Chemistry
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• v.19 no.4
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• pp.243-247
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• 1976

A potent intracellular-lipid-producing yeast, Rhodotrorular glutinis var. glutinis sw-17 was studied on the production of carotenoids after shaking the cultures for 8 days at $25^{\circ}C$. The pigments were extracted with solvents and chromatographed with columns for its isolation. The carotonoids were identified by their positions on the column, and by their light-absorption curves. Close agreement was obtained between the absorption maxima of the isolated pigments and published literature values. The characteristic wave length maxima and the extinction values used for quantitative determination. The caroteniod pigments produced by the yeast were composed of torularhodin(28.52%), torulene(38.16%), neurosporene(1.49%), ${\gamma}-carotene(9.88%)$, ${\beta}$-zeacarotene(2.0%), ${\beta}-carotene(19.95%)$ and ${\delta}-carotene(trace)$.

• Journal of Microbiology and Biotechnology
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• v.29 no.4
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• pp.507-517
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• 2019

Rhodotorula is a group of pigment-producing yeasts well known for its intracellular biosynthesis of carotenoids such as ${\beta}-carotene$, ${\gamma}-carotene$, torulene and torularhodin. The great potential of carotenoids in applications in food and feed as well as in health products and cosmetics has generated a market value expected to reach over $2.0 billion by 2022. Due to growing public concern over food safety, the demand for natural carotenoids is rising, and this trend significantly encourages the use of microbial fermentation for natural carotenoid production. This review covers the biological properties of carotenoids and the most recent findings on the carotenoid biosynthetic pathway, as well as strategies for the metabolic engineering methods for the enhancement of carotenoid production by Rhodotorula. The practical approaches to improving carotenoid yields, which have been facilitated by advancements in strain work as well as the optimization of media and fermentation conditions, were summarized respectively.