Cytochrome P450-catalyzed hydroxylation of taxa-4(5),11(12)-diene to taxa-4(20),11(12)-dien-5a-o1: the first oxygenation step in taxol biosynthesis

Hefner, Jerry; Rubenstein, Steven M.; Ketchum, Raymond E.B.; Gibson, Donna M.; Williams, Robert M.; Croteau, Rodney

doi:10.1016/s1074-5521(96)90096-4

Cited by 156 publications

(97 citation statements)

References 37 publications

Supporting

Mentioning

Contrasting

Unclassified

Order By: Relevance

“…[4] For instance, generation of the polycyclic taxane precursor 2 from acyclic tetraene 1 is followed by introduction of a 5-a-hydroxy group (3) by a cytochrome-P450-dependent hydroxylase-mediated oxygenase reaction (Scheme 1 a). [5] TET (ten eleven translocation) proteins induce oxidation of 5-methylcytosine (4) into 5-hydroxymethylcytosine (5) and 5-formylcytosine (6, Scheme 1 b) [6] which undergoes decarboxylation and thereby induces DNA demethylation as an epigenetic control. [7] A large class of oxidase and oxygenase enzymes contains copper metal in their active sites to bind and activate O 2 .…”

Section: Dedicated To Professor Matthias Bellermentioning

confidence: 99%

A Bioinspired Catalytic Oxygenase Cascade to Generate Complex Oxindoles

et al. 2014

View full text Add to dashboard Cite

Catalytic, selective, and controlled oxidative functionalization of C-H bonds using molecular oxygen as an oxidant remains highly desirable and equally challenging in the development of synthetic methodologies. Presented herein is a one-pot oxygenase cascade reaction wherein a copper(I)-catalyzed oxygenase reaction transforms the allylic methyl group in 3-methylidene oxindoles into an aldehyde, which then undergoes an aldol-oxa-Michael addition sequence with β-ketoesters to yield dihydrofuran-bearing oxindoles.

show abstract

Section: Dedicated To Professor Matthias Bellermentioning

confidence: 99%

A Bioinspired Catalytic Oxygenase Cascade to Generate Complex Oxindoles

et al. 2014

View full text Add to dashboard Cite

show abstract

“…The first of these oxidations was shown to be at the C5 position of the taxadiene core, which is necessary to form the so-called oxetane ring (Hefner et al, 1996). Subsequently, a gene encoding taxadiene 5--hydroxylase (T-5-OH) was identified and characterized (Jennewein et al, 2004).…”

Section: Glandular Trichome Expression As a Gene Function Discovery Toolmentioning

confidence: 99%

Trichome Specific Expression: Promoters and Their Applications

Tissier¹

2012

Transgenic Plants - Advances and Limitations

View full text Add to dashboard Cite

“…Esta enzima, aparte de su actividad hidroxilativa, tiene condiciones de migración del doble enlace de 4(5) a 4(20). Estos dos pasos metabólicos, ciclización e hidroxilación, son bajos y no se observan por ser limitantes en la velocidad de la biosíntesis del taxol (Hefner et al, 1996). El próximo paso en la ruta de biosíntesis que comienza a formar el taxol es catalizado por una enzima específica: taxadieno-5α-ol-O-acetil transferasa (TDAT) que acila taxa-4(20),11(12)-dien-5α-ol a la posición del C 5 para formar taxa-4(20), 11(12)-dien-5α-yl-acetato.…”

Section: Biosynthesis Of Taxoidsunclassified

“…Después de la formación del precursor polihidroxilado hipotético por la actividad de la enzima 2α-O-benzoyl These two metabolic steps, cyclization and hydroxylation, are low and not shown because they are constraints in the speed of taxol biosynthesis (Hefner et al, 1996). The next step in the biosynthetic pathway that begins to form taxol is catalyzed by a specific enzyme: taxadiene-5α-ol-O-acetyl transferase (TDAT) that acylates taxa-4(20), 11(12)-dien-5α-ol at the C 5 position to form taxa-4 (20), 11(12)-dien-5α-yl-acetate.…”

Section: Biosynthesis Of Taxoidsmentioning

confidence: 99%

TAXOIDES: METABOLITOS SECUNDARIOS DEL ÁRBOL DEL TEJO (Taxus spp.)

Barrales-Cureño¹,

Soto-Hernández²

2012

Rev Cha Se Cie For y del Amb

View full text Add to dashboard Cite

RESUMENEl árbol del tejo (Taxus spp.) es una gimnosperma dicotiledónea que pertenece a la familia Taxaceae; se distribuye en America, Europa y Asia. Taxus spp. contiene en la corteza y en las hojas, alcaloides diterpénicos conocidos como taxoides. Éstos se caracterizan químicamente por la presencia de un esqueleto de taxano y un anillo de oxetano, tal como el taxol, que es utilizado en el tratamiento del cáncer de ovario, seno, próstata y pulmón; enfermedad que actualmente es una de las principales causas de muerte a nivel mundial. El contenido de taxol es bajo en los árboles, por tanto, es necesario el uso de alternativas biotecnológicas como lo es el cultivo in vitro de tejidos vegetales para incrementar la cantidad de taxoides y preservar el recurso natural. En esta revisión científica se reportan las características químicas de los taxoides, el mecanismo de acción biológico y semisíntesis orgánica del taxol, se detalla también la ruta biosintética de los principales taxoides, así como las principales enzimas involucradas para la obtención de éstos a nivel bioquímico y, finalmente, se indica de manera general la producción de taxoides en cultivos in vitro. ABSTRACTThe yew tree (Taxus spp.) is a dicot gymnosperm belonging to the Taxaceae family and it can be found in America, Europe and Asia. These trees have in their bark and leaves diterpenic alkaloids known as taxoids, which are chemically characterized by the presence of a taxane skeleton and an oxetane ring such as taxol, which is used in the treatment of ovarian, breast, prostate and lung cancer; disease that is currently one of the leading causes of death worldwide. Taxol content is low in trees, so it is necessary to use biotechnology alternatives such as in vitro cultivation of plant tissue to increase the amount of taxoids and preserve the natural resource. The chemical characteristics of taxoids, the mechanism of the biological action and the semi-synthetic organic of taxol were reported in this scientific review; as well as, the biosynthetic pathway of major taxoids and the main enzymes involved in obtaining taxoids at biochemical level and, finally the production of taxoids in vitro cultures is indicated.

show abstract

Cytochrome P450-catalyzed hydroxylation of taxa-4(5),11(12)-diene to taxa-4(20),11(12)-dien-5a-o1: the first oxygenation step in taxol biosynthesis

Cited by 156 publications

References 37 publications

A Bioinspired Catalytic Oxygenase Cascade to Generate Complex Oxindoles

A Bioinspired Catalytic Oxygenase Cascade to Generate Complex Oxindoles

Trichome Specific Expression: Promoters and Their Applications

TAXOIDES: METABOLITOS SECUNDARIOS DEL ÁRBOL DEL TEJO (Taxus spp.)

Contact Info

Product

Resources

About