Zoila R. Flores-Bustamante scite author profile

Paclitaxel is a potent and widely used antitumor agent. Considerable worldwide research efforts have been carried out on different production alternatives. Since the description of the first paclitaxel-producing fungi, more than 15 years ago, microorganisms have been investigated as potential alternatives for an environmentally acceptable, relatively simple and inexpensive method to produce paclitaxel. However, in spite of significant research on paclitaxel-producing microorganisms, no commercial fermentation process has been implemented up to now. The aim of this study is to review the present status of research on paclitaxel-producing microorganisms and the ongoing efforts to develop heterologous paclitaxel biosynthesis, and analyze the perspectives of microbial fermentation for paclitaxel production.

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Diversity of endophytic fungi of Taxus globosa (Mexican yew)

Rivera-Orduña

et al. 2010

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The aim of this work was the isolation and taxonomic characterization of endophytic fungi from Taxus globosa at the Sierra Alta Hidalguense, Mexico. A total of 116 fungi were isolated from the bark, branches, leaves and roots of healthy yew trees. Based on morphological characteristics 57 were selected for taxonomic characterization through phylogenetic analysis of their 28S rDNA sequences. The fungal isolates belonged to Ascomycota (77.2%) and Basidiomycota (22.8%). Twelve different fungal groups were Trametes for the first time were isolated from yews; this suggests that T. globosa harbours novel and highly diverse fungi. The Shannon-Weaver and Simpson diversity index values for the overall fungal community were H′=3.139 and 1-D=0.941 respectively.

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ATP-citrate lyase activity and carotenoid production in batch cultures of Phaffia rhodozyma under nitrogen-limited and nonlimited conditions

Chávez-Cabrera

Flores-Bustamante

Marsch

et al. 2009

Appl Microbiol Biotechnol

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ATP-citrate lyase (ACL) is the key cytoplasmic enzyme which supplies acetyl-CoA for fatty acids in oleaginous yeast. Although it has been suggested that fatty acid and carotenoid biosynthesis may have a common source of acetyl-CoA in Phaffia rhodozyma, the source for carotenoids is currently unknown. The purpose of this work was to analyze the development of ACL activity during batch cultures of P. rhodozyma under ammonium-limited and nonammonium-limited conditions and study its possible relationship with carotenoid synthesis. Every experiment showed carotenoid accumulation linked to an increasing ACL activity. Moreover, the ACL activity increased with dissolved oxygen (DO), i.e., ACL responded to DO in a similar way as carotenoid synthesis. Additionally, in the ammonium-limited culture, ACL activity increased upon ammonium depletion. However, the contribution to carotenoid accumulation in that case was negligible. This suggests that P. rhodozyma has developed two components of ACL, each one responsive to a different environmental stimulus, i.e., DO and ammonium depletion. The role of each component is still unknown; however, considering that the former responds to DO and the known role of carotenoids as antioxidants, it may be a provider of acetyl-CoA for carotenoid synthesis.

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A comparative study of Taxol production in liquid and solid-state fermentation with Nigrospora sp. a fungus isolated from Taxus globosa

Ruiz-Sánchez

Flores-Bustamante

Dendooven

et al. 2010

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Aims: To determine in liquid (LF) and solid‐state fermentation (SSF) the effect of medium concentration on growth and Taxol produced by Nigrospora sp., a fungus isolated from the Mexican yew. Methods and Results: Nigrospora sp. was grown at different concentrations of the base culture medium M1D, i.e. two (2×), four (4×), six (6×) and eight times (8×) the base concentration. The titres of Taxol determined by competitive inhibition enzyme immunoassay increased with increasing medium concentration in LF and SSF but were higher in SSF in every medium concentration. The Taxol produced in SSF and LF with 8× medium was 221 and 142 ng l−1. The SSF gave also higher biomass, growth and sugar utilization than LF in every medium. The growth and sugar consumption were modelled by the logistic and the Pirt models, respectively. However, the Luedeking–Piret model was unsuitable for Taxol. Conclusions: The SSF surpassed LF in terms of Taxol, growth and sugar utilization; thus, it has significant advantages over LF. Significance and Impact of the Study: This is the first report on Taxol production by SSF and the first contribution to evaluate the influence of the medium on Taxol production in LF and SSF.

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Molecular cloning and characterization of the ATP citrate lyase from carotenogenic yeastPhaffia rhodozyma

Chávez-Cabrera

Marsch

Bartolo-Aguilar

et al. 2015

FEMS Yeast Research

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ATP citrate lyase (ACL), is a key cytosolic source of acetyl-CoA for fatty acid and sterol biosynthesis and appear to be involved in carotenoid biosynthesis in yeasts. Three homologous DNA sequences encoding ACLs in Phaffia rhodozyma were isolated i.e two genes and one cDNA. The two genes were multi-intronic, with 3450-bp-coding sequences and both genes, as the cDNA, encoded identical 120.1-kDa polypeptides. Full-length amino acid sequences of these ACLs showed the two multidomains, PLN02235 and PLN02522, which are necessary for activity. The ACLs showed 82-87% similarity to putative ACLs from other basidiomycetes and 71% similarity to human ACL. The acl cDNA was used to express the heterologous ACL 6XHis-tagged which was identified using MALDI-TOF-MS. The sequenced peptides with 42.2% coverage showed 100% identity to the amino acid sequence generated in silico. The recombinant ACL purified to homogeneity showed an activity of 2 U. This is the first study to characterize a recombinant ACL from a carotenogenic yeast. The present study provides a key foundation for future studies to assess (a) the possible occurrence of alternative splicing, (b) identify the promoter(s) sequence(s) and (c) the involvement of ACL in the differential regulation of fatty acid and carotenoid biosynthesis in yeasts.

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