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2. Deciphering the Evolution, Cell Biology and Regulation of Monoterpene Indole Alkaloids

Author

Lanoue, Arnaud, Oudin, Audrey, St-Pierre, Benoit, Dutilleul, C., martine, courtois, Glevarec, Gaëlle, Crèche, J., Clastre, M., Giglioli-Guivarc'H, N., Papon, N., Besseau, S., Courdavault, V., Eric, Ducos, Dugé De Bernonville, Thomas, nadine, imbault, olivier, pichon, Biomolécules et biotechnologies végétales (BBV EA 2106), Université de Tours, INH : Pathologie végétale : biodiversité, écologie, interactions bioagresseurs-plantes (PAVE), Institut National de la Recherche Agronomique (INRA)-Université d'Angers (UA), and Financial support was provided by the ‘Ministère de l’Enseignement Supérieur et de la Recherche’ (MESR, France), the University of Tours, the ‘Région Centre', and the ‘Ligue Contre le Cancer, comite´ d’Indre et Loire’.

Subjects
[SDV.BV]Life Sciences [q-bio]/Vegetal Biology
Abstract

International audience; Monoterpene indole alkaloids (MIAs) constitute a large group of specialised metabolites with many potent pharmaceutical properties, including the antitumoral vinblastine and hypotensive ajmalicine. Hence a large body of phytochemical investigation delineates the distribution and diversity of various MIA structural classes in Gentianales families. The biosynthetic pathway of these secondary metabolites involves several specific branches, including indole and monoterpenoid formations, secoiridoid assembly, central MIA biosynthesis and branch-specific reactions, as well as supply of primary metabolite precursors by the methylerythritol phosphate and shikimate pathways. Several genes and enzymatic activities involved in these pathways have been characterised, allowing detailed analysis of the molecular biology of this system in model plants such as Catharanthus roseus and Rauvolfia serpentina. With the prospects of improving production of MIAs in plant and cell culture, regulations of biosynthetic capacities have been thoroughly investigated. This pathway also presents a high degree of spatial organisation at the organ, cellular and subcellular levels. This chapter presents an overview of the structural diversity, the complexity of MIA biosynthesis, and regulation with an evolutionary perspective.

Published
2013
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7. Setting-up a fast and reliable cytokinin biosensor based on a plant histidine kinase receptor expressed in Saccharomyces cerevisiae.

Author

Daudu D, Kisiala A, Werner Ribeiro C, Mélin C, Perrot L, Clastre M, Courdavault V, Papon N, Oudin A, Courtois M, Dugé de Bernonville T, Gaucher M, Degrave A, Lanoue A, Lanotte P, Schouler C, Brisset MN, Emery RJN, Pichon O, Carpin S, Giglioli-Guivarc'h N, Crèche J, Besseau S, and Glévarec G

Subjects
Bacteria metabolism, Malus, Biosensing Techniques, Cytokinins metabolism, Histidine Kinase genetics, Plant Proteins genetics, Saccharomyces cerevisiae genetics
Abstract

Cytokinins (CK) have been extensively studied for their roles in plant development. Recently, they also appeared to ensure crucial functions in the pathogenicity of some bacterial and fungal plant pathogens. Thus, identifying cytokinin-producing pathogens is a prerequisite to gain a better understanding of their role in pathogenicity. Taking advantage of the cytokinin perception properties of Malus domestica CHASE Histidine Kinase receptor 2 (MdCHK2), we thereby developed a selective and highly sensitive yeast biosensor for the application of cytokinin detection in bacterial samples. The biosensor is based on the mutated sln1Δ Saccharomyces cerevisiae strain expressing MdCHK2. The biosensor does not require any extraction or purification steps of biological samples, enabling cytokinin analysis directly from crude bacterial supernatants. For the first time, the production of cytokinin was shown in the well-known plant pathogenic bacteria Erwinia amylovora and was also revealed in human pathogens Staphylococcus aureus and Streptococcus agalactiae. Importantly, this biosensor was shown to be an efficient tool for unraveling certain steps in cytokinin biosynthesis by micro-organisms since this it was successfully used to unveil the role of ygdH22, a LOG-like gene, that is probably involved in cytokinin biosynthesis pathway in Escherichia coli. Overall, we demonstrated that our biosensor displays several advantages including time- and cost-effectiveness by allowing a rapid and specific detection of cytokinins in bacterial supernatants These results also support its scalability to high-throughput formats., (Copyright © 2018 Elsevier B.V. All rights reserved.)

Published
2019
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8. Ranking genome-wide correlation measurements improves microarray and RNA-seq based global and targeted co-expression networks.

Author

Liesecke F, Daudu D, Dugé de Bernonville R, Besseau S, Clastre M, Courdavault V, de Craene JO, Crèche J, Giglioli-Guivarc'h N, Glévarec G, Pichon O, and Dugé de Bernonville T

Subjects
Arabidopsis metabolism, Arabidopsis Proteins metabolism, Metabolic Networks and Pathways, Transcriptome, Arabidopsis genetics, Arabidopsis Proteins genetics, Gene Expression Regulation, Plant, Gene Regulatory Networks, Genome, Plant, High-Throughput Nucleotide Sequencing methods, Sequence Analysis, RNA methods
Abstract

Co-expression networks are essential tools to infer biological associations between gene products and predict gene annotation. Global networks can be analyzed at the transcriptome-wide scale or after querying them with a set of guide genes to capture the transcriptional landscape of a given pathway in a process named Pathway Level Coexpression (PLC). A critical step in network construction remains the definition of gene co-expression. In the present work, we compared how Pearson Correlation Coefficient (PCC), Spearman Correlation Coefficient (SCC), their respective ranked values (Highest Reciprocal Rank (HRR)), Mutual Information (MI) and Partial Correlations (PC) performed on global networks and PLCs. This evaluation was conducted on the model plant Arabidopsis thaliana using microarray and differently pre-processed RNA-seq datasets. We particularly evaluated how dataset × distance measurement combinations performed in 5 PLCs corresponding to 4 well described plant metabolic pathways (phenylpropanoid, carbohydrate, fatty acid and terpene metabolisms) and the cytokinin signaling pathway. Our present work highlights how PCC ranked with HRR is better suited for global network construction and PLC with microarray and RNA-seq data than other distance methods, especially to cluster genes in partitions similar to biological subpathways.

Published
2018
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9. CHASE-Containing Histidine Kinase Receptors in Apple Tree: From a Common Receptor Structure to Divergent Cytokinin Binding Properties and Specific Functions.

Author

Daudu D, Allion E, Liesecke F, Papon N, Courdavault V, Dugé de Bernonville T, Mélin C, Oudin A, Clastre M, Lanoue A, Courtois M, Pichon O, Giron D, Carpin S, Giglioli-Guivarc'h N, Crèche J, Besseau S, and Glévarec G

Abstract

Cytokinin signaling is a key regulatory pathway of many aspects in plant development and environmental stresses. Herein, we initiated the identification and functional characterization of the five CHASE-containing histidine kinases (CHK) in the economically important Malus domestica species. These cytokinin receptors named MdCHK2, MdCHK3a/MdCHK3b, and MdCHK4a/MdCHK4b by homology with Arabidopsis AHK clearly displayed three distinct profiles. The three groups exhibited architectural variations, especially in the N-terminal part including the cytokinin sensing domain. Using a yeast complementation assay, we showed that MdCHK2 perceives a broad spectrum of cytokinins with a substantial sensitivity whereas both MdCHK4 homologs exhibit a narrow spectrum. Both MdCHK3 homologs perceived some cytokinins but surprisingly they exhibited a basal constitutive activity. Interaction studies revealed that MdCHK2, MdCHK4a, and MdCHK4b homodimerized whereas MdCHK3a and MdCHK3b did not. Finally, qPCR analysis and bioinformatics approach pointed out contrasted expression patterns among the three MdCHK groups as well as distinct sets of co-expressed genes. Our study characterized for the first time the five cytokinin receptors in apple tree and provided a framework for their further functional studies.

Published
2017
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10. Disrupting the methionine biosynthetic pathway in Candida guilliermondii: characterization of the MET2 gene as counter-selectable marker.

Author

Obando Montoya EJ, Mélin C, Blanc N, Lanoue A, Foureau E, Boudesocque L, Prie G, Simkin AJ, Crèche J, Atehortùa L, Giglioli-Guivarc'h N, Clastre M, Courdavault V, and Papon N

Subjects
Acetyltransferases genetics, Acetyltransferases metabolism, Biosynthetic Pathways genetics, Candida enzymology, Candida genetics, Cloning, Molecular, Cysteine Synthase genetics, Cysteine Synthase metabolism, Genetic Markers genetics, Genetic Markers physiology, Luminescent Proteins genetics, Methionine genetics, Microscopy, Fluorescence, Mutagenesis, Insertional, Transformation, Genetic, Candida metabolism, Methionine biosynthesis
Abstract

Candida guilliermondii (teleomorph Meyerozyma guilliermondii) is an ascomycetous species belonging to the fungal CTG clade. This yeast remains actively studied as a result of its moderate clinical importance and most of all for its potential uses in biotechnology. The aim of the present study was to establish a convenient transformation system for C. guilliermondii by developing both a methionine auxotroph recipient strain and a functional MET gene as selection marker. We first disrupted the MET2 and MET15 genes encoding homoserine-O-acetyltransferase and O-acetylserine O-acetylhomoserine sulphydrylase, respectively. The met2 mutant was shown to be a methionine auxotroph in contrast to met15 which was not. Interestingly, met2 and met15 mutants formed brown colonies when cultured on lead-containing medium, contrary to the wild-type strain, which develop as white colonies on this medium. The MET2 wild-type allele was successfully used to transfer a yellow fluorescent protein (YFP) gene-expressing vector into the met2 recipient strain. In addition, we showed that the loss of the MET2-containing YFP-expressing plasmid can be easily observed on lead-containing medium. The MET2 wild-type allele, flanked by two short repeated sequences, was then used to disrupt the LYS2 gene (encoding the α-aminoadipate reductase) in the C. guilliermondii met2 recipient strain. The resulting lys2 mutants displayed, as expected, auxotrophy for lysine. Unfortunately, all our attempts to pop-out the MET2 marker (following the recombination of the bordering repeat sequences) from a target lys2 locus were unsuccessful using white/brown colony colour screening. Nevertheless, this MET2 transformation/disruption system represents a new versatile genetic tool for C. guilliermondii., (Copyright © 2014 John Wiley & Sons, Ltd.)

Published
2014
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11. A new series of vectors for constitutive, inducible or repressible gene expression in Candida guilliermondii.

Author

Defosse TA, Melin C, Obando Montoya EJ, Lanoue A, Foureau E, Glévarec G, Oudin A, Simkin AJ, Crèche J, Atehortùa L, Giglioli-Guivarc'h N, Clastre M, Courdavault V, and Papon N

Subjects
Candida metabolism, Cloning, Molecular methods, Lac Operon, Promoter Regions, Genetic genetics, Recombinant Proteins genetics, Recombinant Proteins metabolism, Candida genetics, Gene Expression genetics, Genetic Engineering methods, Genetic Vectors genetics, Plasmids genetics
Abstract

The biotechnological potential of C. guilliermondii is now well established. This yeast species currently benefits from the availability of a convenient molecular toolbox including recipient strains, selectable markers and optimized transformation protocols. However, the number of expression systems for biotechnological applications in C. guilliermondii remains limited. We have therefore developed and characterized a new series of versatile controllable expression vectors for this yeast. While previous studies firmly demonstrated that knock-out systems represent efficient genetic strategies to interrupt yeast biochemical pathways at a specific step in C. guilliermondii, the set of expression plasmids described in this study will provide new powerful opportunities to boost homologous or heterologous biosynthetic routes by fine controlled over-expression approaches., (Copyright © 2014 Elsevier B.V. All rights reserved.)

Published
2014
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12. Subcellular localization of the histidine kinase receptors Sln1p, Nik1p and Chk1p in the yeast CTG clade species Candida guilliermondii.

Author

Foureau E, Clastre M, Montoya EJ, Besseau S, Oudin A, Glévarec G, Simkin AJ, Crèche J, Atehortùa L, Giglioli-Guivarc'h N, Courdavault V, and Papon N

Subjects
Cell Membrane metabolism, Cell Nucleus metabolism, Histidine Kinase, Osmotic Pressure, Phosphorylation, Signal Transduction, Candida metabolism, Fungal Proteins metabolism, Protein Kinases metabolism
Abstract

Fungal histidine kinase receptors (HKR) sense and transduce many intra- and extracellular signals that regulate a wide range of physiological processes. Candida CTG clade species commonly possess three types of HKR namely Sln1p (type VI), Nik1p (type III) and Chk1p (type X). Although some recent work has demonstrated the potential involvement of HKR in osmoregulation, morphogenesis, sexual development, adaptation to osmotic stresses and drug resistance in distinct Candida species, little data is available in relation to their subcellular distribution within yeast cells. We describe in this work the comparative subcellular localization of class III, VI, and X HKRs in Candida guilliermondii, a yeast CTG clade species of clinical and biotechnological interest. Using a fluorescent protein fusion approach, we showed that C. guilliermondii Sln1p fused to the yellow fluorescent protein (Sln1p-YFP) appeared to be anchored in the plasma membrane. By contrast, both Chk1p-YFP and YFP-Chk1p were localized in the nucleocytosol of C. guilliermondii transformed cells. Furthermore, while Nik1p-YFP fusion protein always displayed a nucleocytosolic localization, we noted that most of the cells expressing YFP-Nik1p fusion protein displayed an aggregated pattern of fluorescence in the cytosol but not in the nucleus. Interestingly, Sln1p-YFP and Nik1p-YFP fusion protein localization changed in response to hyperosmotic stress by rapidly clustering into punctuated structures that could be associated to osmotic stress signaling. To date, this work provides the first insight into the subcellular localization of the three classes of HKR encoded by CTG clade yeast genomes and constitutes original new data concerning this family of receptors. This represents also an essential prerequisite to open a window into the understanding of the global architecture of HKR-mediated signaling pathways in CTG clade species., (Copyright © 2014 Elsevier Inc. All rights reserved.)

Published
2014
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13. Characterization of an autonomously replicating sequence in Candida guilliermondii.

Author

Foureau E, Courdavault V, Navarro Gallón SM, Besseau S, Simkin AJ, Crèche J, Atehortùa L, Giglioli-Guivarc'h N, Clastre M, and Papon N

Subjects
DNA, Circular genetics, DNA, Fungal genetics, Electroporation, Transformation, Genetic, Candida genetics, DNA Replication, DNA, Circular metabolism, DNA, Fungal metabolism, Plasmids
Abstract

Candida guilliermondii is an ascomycetous yeast widely studied due to its clinical importance, biotechnological interest, and biological control potential. During a series of preliminary experiments aiming at optimizing the electroporation procedure of C. guilliermondii cells, we observed that the efficiency of transformation of an ura5 recipient strain with the corresponding dominant marker URA5 was more than a thousand fold higher as compared with the transformation of an ura3 strain with the URA3 wild type allele. This result allowed the identification of an autonomously replicating sequence (ARS) within an A/T rich region located upstream of the URA5 open reading frame (ORF). Interestingly, linear double strand DNAs (dsDNAs) containing this putative ARS are circularized and then autonomously replicated in C. guilliermondii transformed cells. We demonstrated that the C. guilliermondii Lig4p ligase, involved in the canonical non-homologous end-joining (NHEJ) pathway, was responsible for this phenomenon since a lig4 mutant was unable to circularize and to autonomously maintain transforming dsDNAs containing the putative ARS. Finally, a functional dissection of the C. guilliermondii A/T rich region located upstream of the URA5 ORF revealed the presence of a 60 bp-length sequence essential and sufficient to confer ARS properties to shuttle plasmid and linear dsDNAs., (Copyright © 2013 Elsevier GmbH. All rights reserved.)

Published
2013
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14. Candida guilliermondii: biotechnological applications, perspectives for biological control, emerging clinical importance and recent advances in genetics.

Author

Papon N, Savini V, Lanoue A, Simkin AJ, Crèche J, Giglioli-Guivarc'h N, Clastre M, Courdavault V, and Sibirny AA

Subjects
Base Sequence, Candida growth & development, Candida metabolism, Morphogenesis genetics, Sequence Analysis, DNA, Virulence, Biosynthetic Pathways genetics, Candida genetics, Genome, Fungal
Abstract

Candida guilliermondii (teleomorph Meyerozyma guilliermondii) is an ascomycetous species belonging to the Saccharomycotina CTG clade which has been studied over the last 40 years due to its biotechnological interest, biological control potential and clinical importance. Such a wide range of applications in various areas of fundamental and applied scientific research has progressively made C. guilliermondii an attractive model for exploring the potential of yeast metabolic engineering as well as for elucidating new molecular events supporting pathogenicity and antifungal resistance. All these research fields now take advantage of the establishment of a useful molecular toolbox specifically dedicated to C. guilliermondii genetics including the construction of recipient strains, the development of selectable markers and reporter genes and optimization of transformation protocols. This area of study is further supported by the availability of the complete genome sequence of the reference strain ATCC 6260 and the creation of numerous databases dedicated to gene ontology annotation (metabolic pathways, virulence, and morphogenesis). These genetic tools and genomic resources represent essential prerequisites for further successful development of C. guilliermondii research in medical mycology and in biological control by facilitating the identification of the multiple factors that contribute to its pathogenic potential. These genetic and genomic advances should also expedite future practical uses of C. guilliermondii strains of biotechnological interest by opening a window into a better understanding of the biosynthetic pathways of valuable metabolites.

Published
2013
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15. Efficient gene targeting in a Candida guilliermondii non-homologous end-joining pathway-deficient strain.

Author

Foureau E, Courdavault V, Rojas LF, Dutilleul C, Simkin AJ, Crèche J, Atehortùa L, Giglioli-Guivarc'h N, Clastre M, and Papon N

Subjects
Antigens, Nuclear genetics, DNA-Binding Proteins genetics, Fungal Proteins genetics, Gene Knockout Techniques, Ku Autoantigen, Candida genetics, Gene Targeting methods, Genetics, Microbial methods, Recombination, Genetic
Abstract

The yeast, Candida guilliermondii, has been widely studied due to its biotechnological interest as well as its biological control potential. It integrates foreign DNA predominantly via ectopic events, likely through the well-known non-homologous end-joining (NHEJ) pathway involving the Ku70p/Ku80p heterodimer, Lig4p, Nej1p and Lif1p. This phenomenon remains highly deleterious for targeted gene knock-out strategies that require the homologous recombination process. Here, we have constructed a ku70 mutant strain derived from the ATCC 6260 reference strain of C. guilliermondii. Following a series of disruption attempts of various genes (FCY1, ADE2 and TRP5), using several previously described dominant selectable markers (URA5, SAT-1 and HPH#), we demonstrated that the efficiencies of homologous gene targeting in such a NHEJ-deficient strain was very high compared to the wild type strain. The C. guilliermondii ku70 deficient mutant thus represents a powerful recipient strain to knock-out genes efficiently in this yeast.

Published
2013
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16. Transformation of Candida guilliermondii wild-type strains using the Staphylococcus aureus MRSA 252 ble gene as a phleomycin-resistant marker.

Author

Foureau E, Courdavault V, Simkin AJ, Sibirny AA, Crèche J, Giglioli-Guivarc'h N, Clastre M, and Papon N

Subjects
Bacterial Proteins genetics, DNA, Bacterial chemistry, DNA, Bacterial genetics, DNA, Fungal chemistry, DNA, Fungal genetics, Gene Expression, Genetic Vectors, Methicillin-Resistant Staphylococcus aureus genetics, Molecular Sequence Data, Promoter Regions, Genetic, Recombinant Proteins biosynthesis, Recombinant Proteins genetics, Selection, Genetic, Sequence Analysis, DNA, Antifungal Agents metabolism, Bacterial Proteins biosynthesis, Candida genetics, Drug Resistance, Microbial, Gene Transfer Techniques, Phleomycins metabolism, Transformation, Genetic
Abstract

We designed an efficient transformation system for Candida guilliermondii wild-type strains. We demonstrated that the Staphylococcus aureus MRSA 252 ble coding sequence placed under the control of the yeast phosphoglycerate kinase gene transcription-regulating regions confers phleomycin resistance to transformed C. guilliermondii cells. To illustrate the potential of this drug-resistant cassette, we carried out the disruption of the C. guilliermondii ADE2 gene. This new dominant selectable marker represents a powerful tool to study the function of various genes in this yeast of clinical and biotechnological interest., (© 2013 Federation of European Microbiological Societies. Published by Blackwell Publishing Ltd. All rights reserved.)

Published
2013
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17. A type-B response regulator drives the expression of the hydroxymethylbutenyl diphosphate synthase gene in periwinkle.

Author

Ginis O, Oudin A, Guirimand G, Chebbi M, Courdavault V, Glévarec G, Papon N, Crèche J, and Courtois M

Subjects
Catharanthus genetics, Gene Expression Regulation, Plant, Genes, Plant, Homeostasis physiology, Promoter Regions, Genetic, Catharanthus enzymology, Cytokinins metabolism, Enzymes genetics, Enzymes metabolism, Erythritol biosynthesis, Plant Growth Regulators metabolism, Transcription Factors metabolism
Abstract

In plant cytokinin (CK) signaling, type-B response regulators (RRs) act as major players in orchestrating the transcriptome changes in response to CK. However, their direct targets are poorly known. The identification of putative type-ARR1 motifs located within the promoter of the CK-responsive hydroxyl methyl butenyl diphosphate synthase (HDS) gene from the methyl erythritol phosphate (MEP) pathway prompted us to investigate the ability of a previously isolated periwinkle type-B RR (CrRR5) that presents high homologies with ARR1 to interact with the promoter. Electrophoretic mobility shift assays (EMSAs) demonstrated that the CrRR5 DNA-binding domain binds specifically type-ARR1 motifs within the HDS promoter. We also established through yellow fluorescent protein (YFP) imaging the targeting of CrRR5 into cell nucleus in accordance with its putative function of transcription factor. In transient assays performed on periwinkle cells cultivated with CK, overexpression of the full-length CrRR5 or a truncated CrRR5 engineering a constitutive active form (35S:ΔDDK) did not affect the HDS promoter activity that reached a threshold. By contrast, in absence of CK, overexpression of CrRR5ΔDDK enhanced promoter activity up to the threshold level observed in cells grown with CK. Our results strongly suggest that CrRR5 directly transactivates the HDS promoter. CrRR5 is the first identified transcription factor mediating the CK signaling that targets a gene from the MEP pathway involved in isoprenoid metabolism. Moreover, CrRR5 could play a role in a regulatory mechanism controlling CK homeostasis in periwinkle cells., (Copyright © 2012 Elsevier GmbH. All rights reserved.)

Published
2012
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18. Optimization of the URA-blaster disruption system in Candida guilliermondii: efficient gene targeting using the URA3 marker.

Author

Foureau E, Courdavault V, Simkin AJ, Pichon O, Crèche J, Giglioli-Guivarc'h N, Clastre M, and Papon N

Subjects
Fungal Proteins genetics, Fungal Proteins metabolism, Recombination, Genetic, Selection, Genetic, Candida genetics, Gene Targeting methods
Abstract

We established a simple transformation system for C. guilliermondii by developing both an ura3 ATCC 6260-derived recipient strain as well as an URA3 blaster cassette. We demonstrated that this strategy allows efficient multiple gene disruption by homologous recombination with a convenient gene targeting frequency., (Copyright © 2012 Elsevier B.V. All rights reserved.)

Published
2012
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19. Down-regulation of the CrHPT1 histidine phosphotransfer protein prevents cytokinin-mediated up-regulation of CrDXR, and CrG10H transcript levels in periwinkle cell cultures.

Author

Amini A, Andreu F, Glévarec G, Rideau M, and Crèche J

Subjects
Aldose-Ketose Isomerases metabolism, Cell Culture Techniques, Cell Line, Cytochrome P-450 Enzyme System metabolism, Dexamethasone pharmacology, Down-Regulation, Gene Silencing, Multienzyme Complexes metabolism, Oxidoreductases metabolism, Phosphotransferases metabolism, RNA Interference, Secologanin Tryptamine Alkaloids metabolism, Signal Transduction, Transcription, Genetic, Aldose-Ketose Isomerases genetics, Catharanthus genetics, Catharanthus metabolism, Cytochrome P-450 Enzyme System genetics, Cytokinins metabolism, Gene Expression Regulation, Plant drug effects, Multienzyme Complexes genetics, Oxidoreductases genetics, Phosphotransferases genetics
Abstract

In Catharanthus roseus cell cultures, cytokinins (CK) improve monoterpenoid indole alkaloids (MIAs) accumulation. This metabolite production is correlated with an increase of transcripts corresponding to genes encoding both elements of the CK-signaling pathway and enzymes implicated in MIAs biosynthesis. However, it has not been demonstrated that the CK signal, leading to MIAs accumulation, comes through components identified as belonging to the CK-signaling pathway. In this work, we addressed this question, by transgenesis, using an inducible RNAi system targeting element of CK-signaling. In transgenic lines, the up-regulation by CK of two genes involved in MIA biosynthesis was abolished. These results demonstrate a relationship between the CK-signaling and the MIAs biosynthetic pathways.

Published
2012
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20. A TRP5/5-fluoroanthranilic acid counter-selection system for gene disruption in Candida guilliermondii.

Author

Foureau E, Clastre M, Millerioux Y, Simkin AJ, Cornet L, Dutilleul C, Besseau S, Marais E, Melin C, Guillard J, Crèche J, Giglioli-Guivarc'h N, Courdavault V, and Papon N

Subjects
Candida metabolism, Fungal Proteins metabolism, Genetic Markers, Mutation, TRPC Cation Channels metabolism, Candida genetics, Fungal Proteins genetics, Gene Expression Regulation, Fungal, Multigene Family, TRPC Cation Channels genetics, ortho-Aminobenzoates metabolism
Abstract

Candida guilliermondii is an interesting biotechnological model for the industrial production of value-added metabolites and also remains an opportunistic emerging fungal agent of candidiasis often associated with oncology patients. The aim of the present study was to establish a convenient transformation system for C. guilliermondii by developing both an ATCC 6260-derived recipient strain and a recyclable selection marker. We first disrupted the TRP5 gene in the wild-type strain and demonstrated that trp5 mutants were tryptophan auxotroph as well as being resistant to the antimetabolite 5-fluoroanthranilic acid (FAA). Following an FAA selection of spontaneous mutants derived from the ATCC 6260 strain and complementation analysis, we demonstrated that trp5 genotypes could be directly recovered on FAA-containing medium. The TRP5 wild-type allele, flanked by two short repeated sequences of its 3'UTR, was then used to disrupt the FCY1 gene in C. guilliermondii trp5 recipient strains. The resulting fcy1 mutants displayed strong flucytosine resistance and a counter-selection on FAA allowed us to pop-out the TRP5 allele from the FCY1 locus. To illustrate the capacity of this blaster system to achieve a second round of gene disruption, we knocked out both the LEU2 and the HOG1 genes in the trp5, fcy1 background. Although all previously described yeast "TRP blaster" disruption systems used TRP1 as counter-selectable marker, this study demonstrated the potential of the TRP5 gene in such strategies. This newly created "TRP5 blaster" disruption system thus represents a powerful genetic tool to study the function of a large pallet of genes in C. guilliermondii.

Published
2012
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21. Deus ex Candida genetics: overcoming the hurdles for the development of a molecular toolbox in the CTG clade.

Author

Papon N, Courdavault V, Clastre M, Simkin AJ, Crèche J, and Giglioli-Guivarc'h N

Subjects
Metabolic Engineering methods, Candida genetics, Codon, Genes, Reporter, Molecular Biology methods
Abstract

Dominant selectable markers, reporter genes and regulatable systems remain powerful molecular tools for genetic and cell biology studies in fungi. Among Saccharomycotina, it is currently accepted that most species belonging to the genus Candida have adopted a specific codon usage, whereby the CTG codon encodes serine instead of leucine. This group is now widely referred to as the CTG clade. For a long time, this uncommon genetic code has precluded the use of the available Saccharomyces or bacterial markers and reporter systems for genetic studies in Candida species. Over the last 15 years, increasing effort has been made to adapt drug-resistance markers, fluorescent protein variants, luciferase and recombinase genes to favour their expression in species related to the yeast CTG clade. In addition to the growing set of Candida genome sequences, these codon-optimized molecular tools have progressively opened a window for the investigation of the conservation of gene function within Candida species. These technical advances will also facilitate future genetic studies in non-albicans Candida (NAC) species and will help both in elucidating the molecular events underlying pathogenicity and antifungal resistance and in exploring the potential of yeast metabolic engineering.

Published
2012
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22. Fluorescent protein fusions in Candida guilliermondii.

Author

Courdavault V, Millerioux Y, Clastre M, Simkin AJ, Marais E, Crèche J, Giglioli-Guivarc'h N, and Papon N

Subjects
Candida chemistry, Fungal Proteins analysis, Fungal Proteins genetics, Genetic Engineering methods, Genetics, Microbial methods, Humans, Microscopy, Fluorescence, Plasmids, Recombinant Fusion Proteins genetics, Recombinant Fusion Proteins metabolism, Recombination, Genetic, Candida genetics, Candida metabolism, Luminescent Proteins genetics, Luminescent Proteins metabolism, Mycology methods, Staining and Labeling methods
Abstract

Candida guilliermondii is an emerging fungal agent of candidiasis often associated with oncology patients. This yeast also remains a promising biotechnological model for the industrial production of value-added metabolites. In the present study, we developed a recipient strain as well as a set of plasmids for construction of fluorescent protein (FP) fusions in this species. We demonstrated that C. guilliermondii phosphoglycerate kinase transcription-regulating sequences allow a constitutive expression of codon-optimized green, cyan, yellow and mCherry FP genes in C. guilliermondii cells and the fluorescence signal could be directly observed at the colony and blastospore level by epifluorescence microcopy. To illustrate differential targeting of the FPs into specified cellular compartments, we studied and validated the expected subcellular localization of various C. guilliermondii predicted proteins fused to FPs. Furthermore, co-expression experiments of various couples of FP-tagged C. guilliermondii predicted proteins in the same cell showed that the fluorescence of each FP could be detected independently, providing firm evidences that YFP/CFP and GFP/mCherry pairs can be used for dual labeling in C. guilliermondii cells. This technical advance will facilitate future studies of protein co-expression and co-localization in C. guilliermondii and will give precious help for elucidating new molecular events supporting pathogenicity, antifungal resistance and for exploring the potential of yeast metabolic engineering., (Copyright © 2011 Elsevier Inc. All rights reserved.)

Published
2011
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23. Drug-resistant cassettes for the efficient transformation of Candida guilliermondii wild-type strains.

Author

Millerioux Y, Clastre M, Simkin AJ, Courdavault V, Marais E, Sibirny AA, Noël T, Crèche J, Giglioli-Guivarc'h N, and Papon N

Subjects
Antifungal Agents pharmacology, Drug Resistance, Fungal, Hygromycin B pharmacology, Streptothricins pharmacology, Candida genetics, Genetics, Microbial methods, Mutagenesis, Insertional methods, Selection, Genetic, Transformation, Genetic
Abstract

Candida guilliermondii is an opportunistic emerging fungal agent of candidiasis often associated with oncology patients. This yeast also remains an interesting biotechnological model for the industrial production of value-added metabolites. The recent whole-genome sequencing of the C. guilliermondii ATCC 6260 reference strain provides an interesting resource for elucidating new molecular events supporting pathogenicity, antifungal resistance and for exploring the potential of yeast metabolic engineering. In the present study, we designed an efficient transformation system for C. guilliermondii wild-type strains using both nourseothricin- and hygromycin B-resistant markers. To demonstrate the potential of these drug-resistant cassettes, we carried out the disruption and the complementation of the C. guilliermondii FCY1 gene (which encodes cytosine deaminase) known to be associated with flucytosine sensitivity in yeast. These two new dominant selectable markers represent powerful tools to study the function of a large pallet of genes in this yeast of clinical and biotechnological interest., (© 2011 Federation of European Microbiological Societies. Published by Blackwell Publishing Ltd. All rights reserved.)

Published
2011
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24. Development of a URA5 integrative cassette for gene disruption in the Candida guilliermondii ATCC 6260 strain.

Author

Millerioux Y, Clastre M, Simkin AJ, Marais E, Sibirny AA, Noël T, Crèche J, Giglioli-Guivarc'h N, and Papon N

Subjects
Genes, Fungal, Humans, Transformation, Genetic, Candida genetics, Genetics, Microbial methods, Mutagenesis, Insertional methods, Selection, Genetic
Abstract

We designed an efficient transformation system for Candida guilliermondii based on a ura5 ATCC 6260 derived recipient strain and a URA5 recyclable selection marker. This "URA5 blaster" disruption system represents a powerful tool to study the function of a large pallet of genes in this yeast of clinical and biotechnological interest., (Copyright © 2010 Elsevier B.V. All rights reserved.)

Published
2011
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25. Low levels of gibberellic acid control the biosynthesis of ajmalicine in Catharanthus roseus cell suspension cultures.

Author

Amini A, Glévarec G, Andreu F, Rideau M, and Crèche J

Subjects
Cell Culture Techniques, Cytokinins genetics, Gene Expression, Genes, Plant, Gibberellins administration & dosage, Gibberellins antagonists & inhibitors, Indoleacetic Acids metabolism, Plant Growth Regulators antagonists & inhibitors, RNA metabolism, Reverse Transcriptase Polymerase Chain Reaction, Secologanin Tryptamine Alkaloids antagonists & inhibitors, Signal Transduction drug effects, Triazoles pharmacology, Catharanthus metabolism, Cytokinins metabolism, Gibberellins metabolism, Plant Growth Regulators metabolism, Secologanin Tryptamine Alkaloids metabolism
Abstract

In periwinkle cell suspensions, amounts of gibberellic acid ranging from 10 ( - 10) M to 10 ( - 7) M significantly antagonized, in a dose-dependant manner, the stimulation of ajmalicine biosynthesis by cytokinins (CKs). This inhibitory effect was strictly correlated with the abolition of the expression of two genes encoding enzymes of the monoterpenoid indole alkaloid (MIA) biosynthetic pathway and was normally upregulated after CK treatments. Moreover, low concentrations of the gibberellin biosynthesis inhibitor paclobutrazol could reverse the inhibitory effects of low auxin levels on ajmalicine accumulation in the cells. On the other hand, gibberellic acid could not affect the expression of two type-A response regulators considered to be CK primary response genes in periwinkle cells. The antagonistic effects of gibberellins and cytokinins on MIA biosynthesis and their possible impact on elements of the signal transduction are discussed.

Published
2009
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26. Cytokinin and ethylene control indole alkaloid production at the level of the MEP/terpenoid pathway in Catharanthus roseus suspension cells.

Author

Papon N, Bremer J, Vansiri A, Andreu F, Rideau M, and Crèche J

Subjects
Catharanthus enzymology, Catharanthus genetics, Culture Techniques, Cytokinins, Ethylenes, Gene Expression Regulation, Plant, Humans, Indole Alkaloids chemistry, Plant Roots, Promoter Regions, Genetic, Protein Engineering, Terpenes chemistry, Catharanthus metabolism, Indole Alkaloids metabolism, Phytotherapy, Terpenes metabolism
Abstract

The Madagascar periwinkle Catharanthus roseus accumulates a number of terpenoid indole alkaloids, some of which have high therapeutic interest. The biotechnological approach with cells in vitro remains an alternative to the field culture of periwinkle for the production of such compounds. We previously reported that two phytohormones, cytokinin and ethylene, remarkably enhanced the accumulation of alkaloids in periwinkle cell suspensions. In this work, we investigated the effects of these hormones on the regulation of several genes of the indole alkaloid biosynthetic pathway. We show that cytokinin and/or ethylene greatly enhanced the expression of the geraniol 10-hydroxylase gene. When given together, these hormones also increased the expression of three genes belonging to the methyl-erythritol pathway. These results make it possible to consider elements of cytokinin and ethylene signalling pathways as tools for improving terpenoid indole alkaloid production through metabolic engineering.

Published
2005
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27. Histidine-containing phosphotransfer domain extinction by RNA interference turns off a cytokinin signalling circuitry in Catharanthus roseus suspension cells.

Author

Papon N, Vansiri A, Gantet P, Chénieux JC, Rideau M, and Crèche J

Subjects
Catharanthus cytology, Catharanthus genetics, Cells, Cultured, Cytokinins genetics, Flowers cytology, Gene Silencing, Genes, Plant, Plant Leaves cytology, Plant Stems cytology, Plants, Genetically Modified, Protein Structure, Tertiary, RNA, Small Interfering chemistry, Catharanthus metabolism, Cytokinins metabolism, Histidine metabolism, RNA, Small Interfering metabolism, Signal Transduction
Abstract

We previously reported that cytokinins (CK) induce the fast and specific transcription of CrRR1, a gene encoding a type A response regulator in Catharanthus roseus cell cultures. Here, we characterized the CrHPt1 gene that encodes a histidine-containing phosphotransfer domain. CrHPt1 was silenced through RNA interference (RNAi) to test its possible implication in the CK signalling pathway. In transgenic lines stably transformed with an intron-spliced construct, the degradation of CrHPt1 transcripts abolishes the CK inductive effect on CrRR1 transcription. These result give a new in vivo functional argument for the crucial role of HPt proteins in the CK signalling pathway leading to the expression of the genes encoding type A response regulators. They also show that RNAi is a powerful strategy to turn off the CK signalling circuitry.

Published
2004
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28. One-pot synthesis of functionalized 4,5-dihydroisoxazole derivatives via nitrile oxides and biological evaluation with plant cells.

Author

Mincheva Z, Courtois M, Crèche J, Rideau M, and Viaud-Massuard MC

Subjects
Catharanthus growth & development, Dose-Response Relationship, Drug, Drug Evaluation, Preclinical methods, Isoxazoles pharmacology, Nitriles pharmacology, Oxides pharmacology, Catharanthus drug effects, Isoxazoles chemical synthesis, Nitriles chemical synthesis, Oxides chemical synthesis
Abstract

1,3 Dipolar cycloadditions of nitrile oxides generated in situ in the presence of a variety of olefins provided 4,5-dihydroisoxazoles. The whole procedure could be performed in a practical and efficient one-pot operation. The products are of excellent purity (95%) and are isolated in 60-83% yields. Some of them enhanced the accumulation of indole alkaloids in periwinkle cell cultures.

Published
2004
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29. Differential expression of two type-A response regulators in plants and cell cultures of Catharanthus roseus (L.) G. Don.

Author

Papon N, Oudin A, Vansiri A, Rideau M, Chénieux JC, and Crèche J

Subjects
Amino Acid Sequence, Catharanthus cytology, Catharanthus growth & development, Cells, Cultured, Cloning, Molecular, DNA, Complementary chemistry, DNA, Complementary genetics, Gene Expression Regulation, Developmental drug effects, Gene Expression Regulation, Plant drug effects, Molecular Sequence Data, Plant Growth Regulators genetics, Plant Growth Regulators metabolism, Plant Proteins metabolism, Sequence Analysis, DNA, Sequence Homology, Amino Acid, Signal Transduction genetics, Signal Transduction physiology, Zeatin pharmacology, Catharanthus genetics, Plant Proteins genetics
Abstract

Two full-length cDNAs named CrRR2 and CrRR3 have been isolated by PCR from a C. roseus cDNA library. The first one encodes a 154 amino acid putative protein with a high percentage of identity with the Arabidopsis thaliana response regulators ARR16 and ARR17, and is not expressed in C. roseus organs and cell cultures. The second one encodes a 188 amino acid ORF sharing the highest homologies with the A. thaliana ARR8 and ARR9 response regulators. Its expression is root-specific and the transcripts are transiently up-regulated after trans-zeatin treatment in C. roseus suspension cells. CrRR3 protein might be involved in the cytokinin-enhanced alkaloid production in C. roseus cell cultures.

Published
2003
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30. Inhibition of the plant cytokinin transduction pathway by bacterial histidine kinase inhibitors in Catharanthus roseus cell cultures.

Author

Papon N, Clastre M, Gantet P, Rideau M, Chénieux JC, and Crèche J

Subjects
Amino Acid Sequence, Arabidopsis genetics, Catharanthus genetics, Cloning, Molecular, Cytokinins antagonists & inhibitors, Cytokinins chemistry, DNA, Complementary, Histidine Kinase, Kinetics, Models, Biological, Molecular Sequence Data, Plant Proteins antagonists & inhibitors, Plant Proteins chemistry, Plant Proteins genetics, Sequence Alignment, Sequence Homology, Amino Acid, Signal Transduction drug effects, Bacteria enzymology, Catharanthus physiology, Cytokinins genetics, Enzyme Inhibitors pharmacology, Protein Kinase Inhibitors, Protein Kinases, Signal Transduction physiology
Abstract

We describe the isolation of two Catharanthus roseus cDNAs encoding proteins putatively involved in the final steps of a 'histidine-to-aspartate' phosphorelay in cytokinin (CK) signaling. The expression of one of these genes, CrRR1, was specifically up-regulated by CKs in C. roseus cell suspensions. We used this system as a biological model to test the activity of bacterial histidine kinase inhibitors. Our data demonstrate that these inhibitors are active on the CK transduction pathway and represent powerful chemical tools to study hormone signal transduction in plants. Moreover, these data suggest a strong conservation of functional features between prokaryotic and plant signaling pathways utilizing histidine kinases.

Published
2003
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31. Expression analysis in plant and cell suspensions of CrCKR1, a cDNA encoding a histidine kinase receptor homologue in Catharanthus roseus (L.) G. Don.

Author

Papon N, Clastre M, Andreu F, Gantet P, Rideau M, and Crèche J

Subjects
Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Blotting, Northern, Catharanthus enzymology, Cells, Cultured, Cytokinins pharmacology, DNA, Complementary chemistry, DNA, Complementary genetics, Gene Expression Regulation, Enzymologic drug effects, Gene Expression Regulation, Plant drug effects, Histidine Kinase, Molecular Sequence Data, Phylogeny, Plant Stems enzymology, Plant Stems genetics, Protein Kinases metabolism, RNA, Messenger drug effects, RNA, Messenger genetics, RNA, Messenger metabolism, Receptors, Cell Surface genetics, Receptors, Cell Surface metabolism, Sequence Analysis, DNA, Catharanthus genetics, Protein Kinases genetics
Abstract

A full length cDNA (CrCKR1) encoding a hybrid histidine kinase was isolated from a Catharanthus roseus cDNA library. The kinase belongs to the subfamily of cytokinin receptors represented by CRE1/AHK4/WOL in Arabidopsis thaliana. In cell suspensions, the expression of CrCKR1 is not affected by various stress and hormonal treatments but is stimulated in cells continuously exposed to cytokinin. In plants, CrCKR1 is strongly expressed only in the petals of mature flowers. These data suggest that CrCKR1 could take part in the mechanisms leading to the production of secondary metabolites in C. roseus.

Published
2002
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33. Variability in tissue cultures of Choisya ternata. III comparing alkaloid production in cell lines obtained by various strategies.

Author

Trémouillaux-Guiller J, Kodja H, Andreu F, Crèche J, Chénieux JC, and Rideau M

Abstract

Callus cultures of Choisya ternata have been prepared by different strategies: aggregate clones, subclones and protoclones obtained from well-established strains; protoclones obtained from mesophyll tissue; cultures transformed by Agrobacterium tumefaciens. All of them show high variability in their dihydrofuroquinoline alkaloid production. As compared to the alkaloid content of the whole plant, one alkaloid (platydesminium) could be obtained in higher amounts in some lines, but it was impossible to get high-balfourodinium accumulating lines. Moreover balfourodinium-producing capacities were lower in transformed cells as compared to those of normal cell lines.

Published
1988
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34. [A comparative study of the effects of selection and environmental factors on alkaloid accumulation in strains of Choisya ternata].

Author

Gras M, Crèche J, Chénieux JC, and Rideau M

Abstract

The accumulation of two dihydrofuroquinoline alkaloids has been studied in seventeen strains of Choisya ternata (Rutaceae) initiated from the same tree. The contents of platydesminium and balfourodinium vary in heavy proportions. The effect of some factors (age of the culture, NAA or glucose concentrations of the medium, light intensity) has been studied in two of these strains, one with a low accumulative capacity, the other with a high accumulative capacity. These factors may in certain cases increase the alkaloid contents of both strains, but the induced variability is much lower than that existing naturally between the strains. The strain with a low content always remains inferior to that with a high content. This shows the importance of selecting strains with a high accumulative capacity before studying an optimal production medium.

Published
1982
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