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2. Cannibalism in cultured Eurasian perch, Perca fluviatilis (Actinopterygii: Perciformes: Percidae)—Implication of maternal influence, kinship, and sex ratio of progenies

Author

Król, J., Dauchot, N., Mandiki, S.N.M., Van Cutsem, P., and Kestemont, P.

Subjects
Perch, All female, Ecology, Actinopterygii, Cannibalism, Juvenile, Aquatic Science, Biology, biology.organism_classification, Perciformes, Larvae, Percidae, Dam effect, Kinship, Percids, Sex ratio
Abstract

Background. Intra cohort cannibalism is one of the main factors that affects the growth and survival of cultured fishes, especially in the larval and juvenile stages. Cannibalism is mainly influenced by extrinsic factors, but intrinsic effects cannot be excluded. As regards the family Percidae, all-female rearing can be advantageous for the fish growth, but does this solution have some impact on cannibalism? The main objective of this study was to investigate potential differences in cannibalism rate and its relation to further growth and survival between mixed-sex and all-female Eurasian perch, Perca fluviatilis Linnaeus, 1758, larvae reared in full-siblings and halfsiblings groups. The additional purpose of this study was to determine whether there was some maternal influence on the cannibalism-survival-growth dynamics in cultured Eurasian perch larvae. Materials and methods. Cannibalism, survival, and growth were studied in mixed-sex and all-female progenies of Eurasian perch larvae. Ten-day old larvae (body weight of 20 mg) originating from the crosses of four parents (two females: f1 and f2; one male: ma; and one neomale: mc) were reared over 77 days at 22°C under the light regime of 16 : 8 (light : dark) in replicated groups consisting of mixed-sex full siblings (f1ma, f2ma), all-female full siblings (f1mc, f2mc), or mixed-sex half-siblings (f1ma + f2ma) and all-female groups (f1mc + f2mc). Results. At the end of the experiment, there was no sexual growth dimorphism and no sex-biased cannibalism. Neither the effect of sibling versus half-sibling groups, nor effects of normal progeny versus all-female population on survival and cannibalism rate were significant. By contrast, maternal effects on cannibalism were observed, chiefly as regards type I cannibalism (partial and tail-first ingestion), and they impacted on survival, as mortality from other causes (complete cannibalism or others) was independent from maternal origin. Conclusion. There is no particular disadvantage of rearing monosex female progenies in term of cannibalism and survival, whereas this culture-management solution is prone to produce long-term advantages for the perch growth, owing to the faster growth of female fish.

Published
2015
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6. Construction of 12 EST libraries and characterization of a 12,226 EST dataset for chicory (Cichorium intybus) root, leaves and nodules in the context of carbohydrate metabolism investigation

Author

Boutry Marc, Watillon Bernard, Purnelle Bénédicte, Muys Céline, Mingeot Dominique, Dauchot Nicolas, and Van Cutsem Pierre

Subjects
Botany, QK1-989
Abstract

Abstract Background The industrial chicory, Cichorium intybus, is a member of the Asteraceae family that accumulates fructan of the inulin type in its root. Inulin is a low calories sweetener, a texture agent and a health promoting ingredient due to its prebiotic properties. Average inulin chain length is a critical parameter that is genotype and temperature dependent. In the context of the study of carbohydrate metabolism and to get insight into the transcriptome of chicory root and to visualize temporal changes of gene expression during the growing season, we obtained and characterized 10 cDNA libraries from chicory roots regularly sampled in field during a growing season. A leaf and a nodule libraries were also obtained for comparison. Results Approximately 1,000 Expressed Sequence Tags (EST) were obtained from each of twelve cDNA libraries resulting in a 12,226 EST dataset. Clustering of these ESTs returned 1,922 contigs and 4,869 singlets for a total of 6,791 putative unigenes. All ESTs were compared to public sequence databases and functionally classified. Data were specifically searched for sequences related to carbohydrate metabolism. Season wide evolution of functional classes was evaluated by comparing libraries at the level of functional categories and unigenes distribution. Conclusion This chicory EST dataset provides a season wide outlook of the genes expressed in the root and to a minor extent in leaves and nodules. The dataset contains more than 200 sequences related to carbohydrate metabolism and 3,500 new ESTs when compared to other recently released chicory EST datasets, probably because of the season wide coverage of the root samples. We believe that these sequences will contribute to accelerate research and breeding of the industrial chicory as well as of closely related species.

Published
2009
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7. The genome and population genomics of allopolyploid Coffea arabica reveal the diversification history of modern coffee cultivars.

Author

Salojärvi J, Rambani A, Yu Z, Guyot R, Strickler S, Lepelley M, Wang C, Rajaraman S, Rastas P, Zheng C, Muñoz DS, Meidanis J, Paschoal AR, Bawin Y, Krabbenhoft TJ, Wang ZQ, Fleck SJ, Aussel R, Bellanger L, Charpagne A, Fournier C, Kassam M, Lefebvre G, Métairon S, Moine D, Rigoreau M, Stolte J, Hamon P, Couturon E, Tranchant-Dubreuil C, Mukherjee M, Lan T, Engelhardt J, Stadler P, Correia De Lemos SM, Suzuki SI, Sumirat U, Wai CM, Dauchot N, Orozco-Arias S, Garavito A, Kiwuka C, Musoli P, Nalukenge A, Guichoux E, Reinout H, Smit M, Carretero-Paulet L, Filho OG, Braghini MT, Padilha L, Sera GH, Ruttink T, Henry R, Marraccini P, Van de Peer Y, Andrade A, Domingues D, Giuliano G, Mueller L, Pereira LF, Plaisance S, Poncet V, Rombauts S, Sankoff D, Albert VA, Crouzillat D, de Kochko A, and Descombes P

Subjects
Coffee, Genome, Plant genetics, Metagenomics, Plant Breeding, Coffea genetics
Abstract

Coffea arabica, an allotetraploid hybrid of Coffea eugenioides and Coffea canephora, is the source of approximately 60% of coffee products worldwide, and its cultivated accessions have undergone several population bottlenecks. We present chromosome-level assemblies of a di-haploid C. arabica accession and modern representatives of its diploid progenitors, C. eugenioides and C. canephora. The three species exhibit largely conserved genome structures between diploid parents and descendant subgenomes, with no obvious global subgenome dominance. We find evidence for a founding polyploidy event 350,000-610,000 years ago, followed by several pre-domestication bottlenecks, resulting in narrow genetic variation. A split between wild accessions and cultivar progenitors occurred ~30.5 thousand years ago, followed by a period of migration between the two populations. Analysis of modern varieties, including lines historically introgressed with C. canephora, highlights their breeding histories and loci that may contribute to pathogen resistance, laying the groundwork for future genomics-based breeding of C. arabica., (© 2024. The Author(s).)

Published
2024
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8. Industrial chicory genome gives insights into the molecular timetable of anther development and male sterility.

Author

Waegneer E, Rombauts S, Baert J, Dauchot N, De Keyser A, Eeckhaut T, Haegeman A, Liu C, Maudoux O, Notté C, Staelens A, Van der Veken J, Van Laere K, and Ruttink T

Abstract

Industrial chicory ( Cichorium intybus var. sativum ) is a biannual crop mostly cultivated for extraction of inulin, a fructose polymer used as a dietary fiber. F1 hybrid breeding is a promising breeding strategy in chicory but relies on stable male sterile lines to prevent self-pollination. Here, we report the assembly and annotation of a new industrial chicory reference genome. Additionally, we performed RNA-Seq on subsequent stages of flower bud development of a fertile line and two cytoplasmic male sterile (CMS) clones. Comparison of fertile and CMS flower bud transcriptomes combined with morphological microscopic analysis of anthers, provided a molecular understanding of anther development and identified key genes in a range of underlying processes, including tapetum development, sink establishment, pollen wall development and anther dehiscence. We also described the role of phytohormones in the regulation of these processes under normal fertile flower bud development. In parallel, we evaluated which processes are disturbed in CMS clones and could contribute to the male sterile phenotype. Taken together, this study provides a state-of-the-art industrial chicory reference genome, an annotated and curated candidate gene set related to anther development and male sterility as well as a detailed molecular timetable of flower bud development in fertile and CMS lines., Competing Interests: Authors OM and CN are employed by Chicoline, a division of Cosucra Groupe Warcoing. The remaining authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest. This study received funding from Cosucra Groupe Warcoing S.A. Belgium as scholarship to EW and JV. The funder had the following involvement in the study: Cosucra Groupe Warcoing S.A. Belgium was partner in the DGA project Grant D31-1221 with the Walloon region DGARNE Belgium that initiated genome sequencing. ND and OM, affiliated with Cosucra Groupe Warcoing, created and provided the inbred line L8001., (Copyright © 2023 Waegneer, Rombauts, Baert, Dauchot, De Keyser, Eeckhaut, Haegeman, Liu, Maudoux, Notté, Staelens, Van der Veken, Van Laere and Ruttink.)

Published
2023
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9. Epigenetic Silencing of MicroRNA-126 Promotes Cell Growth in Marek's Disease.

Author

Gennart I, Petit A, Wiggers L, Pejaković S, Dauchot N, Laurent S, Coupeau D, and Muylkens B

Abstract

During latency, herpesvirus infection results in the establishment of a dormant state in which a restricted set of viral genes are expressed. Together with alterations of the viral genome, several host genes undergo epigenetic silencing during latency. These epigenetic dysregulations of cellular genes might be involved in the development of cancer. In this context, Gallid alphaherpesvirus 2 (GaHV-2), causing Marek's disease (MD) in susceptible chicken, was shown to impair the expression of several cellular microRNAs (miRNAs). We decided to focus on gga-miR-126, a host miRNA considered a tumor suppressor through signaling pathways controlling cell proliferation. Our objectives were to analyze the cause and the impact of miR-126 silencing during GaHV-2 infection. This cellular miRNA was found to be repressed at crucial steps of the viral infection. In order to determine whether miR-126 low expression level was associated with specific epigenetic signatures, DNA methylation patterns were established in the miR-126 gene promoter. Repression was associated with hypermethylation at a CpG island located in the miR-126 host gene epidermal growth factor like-7 ( EGFL-7 ). A strategy was developed to conditionally overexpress miR-126 and control miRNAs in transformed CD4+ T cells propagated from Marek's disease (MD) lymphoma. This functional assay showed that miR-126 restoration specifically diminishes cell proliferation. We identified CT10 regulator of kinase (CRK), an adaptor protein dysregulated in several human malignancies, as a candidate target gene. Indeed, CRK protein levels were markedly reduced by the miR-126 restoration.

Published
2021
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10. Asparagine accumulation in chicory storage roots is controlled by translocation and feedback regulation of asparagine biosynthesis in leaves.

Author

Soares E, Shumbe L, Dauchot N, Notté C, Prouin C, Maudoux O, and Vanderschuren H

Subjects
Asparagine, Feedback, Plant Leaves, Plants, Cichorium intybus genetics
Abstract

The presence of acrylamide (AA), a potentially carcinogenic and neurotoxic compound, in food has become a major concern for public health. AA in plant-derived food mainly arises from the reaction of the amino acid asparagine (Asn) and reducing sugars during processing of foodstuffs at high temperature. Using a selection of genotypes from the chicory (Cichorium intybus L.) germplasm, we performed Asn measurements in storage roots and leaves to identify genotypes contrasting for Asn accumulation. We combined molecular analysis and grafting experiments to show that leaf to root translocation controls Asn biosynthesis and accumulation in chicory storage roots. We could demonstrate that Asn accumulation in storage roots depends on Asn biosynthesis and transport from the leaf, and that a negative feedback loop by Asn on CiASN1 expression impacts Asn biosynthesis in leaves. Our results provide a new model for Asn biosynthesis in root crop species and highlight the importance of characterizing and manipulating Asn transport to reduce AA content in processed plant-based foodstuffs., (© 2020 The Authors. New Phytologist © 2020 New Phytologist Trust.)

Published
2020
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11. CiMYB17, a stress-induced chicory R2R3-MYB transcription factor, activates promoters of genes involved in fructan synthesis and degradation.

Author

Wei H, Bausewein A, Greiner S, Dauchot N, Harms K, and Rausch T

Subjects
Cichorium intybus metabolism, Fructans genetics, Plant Proteins genetics, Plant Proteins metabolism, Promoter Regions, Genetic, Stress, Physiological, Transcription Factors genetics, Transcription Factors metabolism, Cichorium intybus genetics, Fructans biosynthesis, Gene Expression Regulation, Plant, Plant Proteins physiology, Transcription Factors physiology
Abstract

In Cichorium intybus, inulin metabolism is mediated by fructan-active enzymes (FAZYs): sucrose:sucrose 1-fructosyltransferase (1-SST), fructan:fructan 1-fructosyltransferase (1-FFT), and fructan 1-exohydrolases 1, 2a and 2b (1-FEH1, -2a and -2b), respectively. While these enzymes have been rigorously characterized, the transcriptional network orchestrating their development- and stress-related expression has remained largely unknown. Here, the possible role of R2R3-MYB transcription factors in FAZY regulation was explored via bioinformatic identification of R2R3-MYBs (using an RNA sequencing (RNAseq) database), studies of co-expression of these factors with target genes, in vivo transient transactivation assays of FAZY target promoters (dual luciferase assay), and a yeast one-hybrid assay investigating the specificity of the binding of these factors to cis-elements. The chicory MYB transcription factor CiMYB17 specifically activated promoters of 1-SST and 1-FFT by binding to the consensus DNA-motif DTTHGGT. Unexpectedly, CiMYB17 also activated promoters of fructan exohydrolase genes. The stimulatory effect on promoter activities of sucrose transporter and cell wall invertase genes points to a general role in regulating the source-sink relationship. Co-induction of CiMYB17 with 1-SST and 1-FFT (and, less consistently, with 1-FEH1/2) in nitrogen-starved or abscisic acid (ABA)-treated chicory seedlings and in salt-stressed chicory hairy roots supports a role in stress-induced fructan metabolism, including de novo fructan synthesis and trimming of pre-existing fructans, whereas the reduced expression of CiMYB17 in developing taproots excludes a role in fructan accumulation under normal growth conditions., (© 2017 The Authors. New Phytologist © 2017 New Phytologist Trust.)

Published
2017
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12. Loss of function of 1-FEH IIb has more impact on post-harvest inulin degradation in Cichorium intybus than copy number variation of its close paralog 1-FEH IIa.

Author

Dauchot N, Raulier P, Maudoux O, Notté C, Draye X, and Van Cutsem P

Abstract

Key Message: The loss of mini-exon 2 in the 1-FEH IIb glycosyl-hydrolase results in a putative non-functional allele. This loss of function has a strong impact on the susceptibility to post-harvest inulin depolymerization. Significant variation of copy number was identified in its close paralog 1-FEH IIa, but no quantitative effect of copy number on carbohydrates-related phenotypes was detected. Inulin polyfructan is the second most abundant storage carbohydrate in flowering plants. After harvest, it is depolymerized by fructan exohydrolases (FEHs) as an adaptive response to end-season cold temperatures. In chicory, the intensity of this depolymerization differs between cultivars but also between individuals within a cultivar. Regarding this phenotypic variability, we recently identified statistically significant associations between inulin degradation and genetic polymorphisms located in three FEHs. We present here new results of a systematic analysis of copy number variation (CNV) in five key members of the chicory (Cichorium intybus) GH32 multigenic family, including three FEH genes and the two inulin biosynthesis genes: 1-SST and 1-FFT. qPCR analysis identified a significant variability of relative copy number only in the 1-FEH IIa gene. However, this CNV had no quantitative effect. Instead, cloning of the full length gDNA of a close paralogous sequence (1-FEH IIb) identified a 1028 bp deletion in lines less susceptible to post-harvest inulin depolymerization. This region comprises a 9 bp mini-exon containing one of the three conserved residues of the active site. This results in a putative non-functional 1-FEH IIb allele and an observed lower inulin depolymerization. Extensive genotyping confirmed that the loss of mini-exon 2 in 1-FEH IIb and the previously identified 47 bp duplication located in the 3'UTR of 1-FEH IIa belong to a single haplotype, both being statistically associated with reduced susceptibility to post-harvest inulin depolymerization. Emergence of these haplotypes is discussed.

Published
2015
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13. Development and characterization of microsatellite loci for the Moroccan endemic endangered species Argania spinosa (Sapotaceae).

Author

El Bahloul Y, Dauchot N, Machtoun I, Gaboun F, and Van Cutsem P

Abstract

Premise of the Study: Microsatellite loci were developed for the Moroccan endemic endangered species Argania spinosa with a combination of a typical library enrichment procedure and a 454 GS FLX Titanium-based high-throughput sequencing approach. •, Methods and Results: A genomic DNA library was enriched and further screened using (GA)15, (GTA)8, and (TTC)8 biotin-labeled probes coupled with chemi-luminescence detection. To increase simple sequence repeat (SSR) loci number, an ultra-high-throughput sequencing-based approach was used. Evaluation of all primer pairs was performed with labeled dUTP on an ABI 3130xl sequencer. Eleven polymorphic SSR loci were selected out of 79 SSR regions and extensively characterized on 150 individuals from eight populations. Total alleles ranged from six to 19 alleles per locus while expected heterozygosity ranged from 0.618 to 0.869. •, Conclusions: The SSRs developed here will be used to further characterize the genetic diversity of A. spinosa across its distribution range, mainly in the southern part of Morocco and southwestern Algeria. They may also be transferable to other Sapotaceae species.

Published
2014
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14. Mutations in chicory FEH genes are statistically associated with enhanced resistance to post-harvest inulin depolymerization.

Author

Dauchot N, Raulier P, Maudoux O, Notté C, Bertin P, Draye X, and Van Cutsem P

Subjects
Cichorium intybus enzymology, Genetic Association Studies, Polymerization, Cichorium intybus genetics, Genes, Plant, Glycoside Hydrolases genetics, Inulin metabolism, Polymorphism, Genetic
Abstract

Key Message: Nucleotidic polymorphisms were identified in fructan exohydrolases genes which are statistically associated with enhanced susceptibility to post-harvest inulin depolymerization. Industrial chicory (Cichorium intybus L.) root is the main commercial source of inulin, a linear fructose polymer used as dietary fiber. Post-harvest, inulin is depolymerized into fructose which drastically increases processing cost. To identify genetic variations associated with enhanced susceptibility to post-harvest inulin depolymerization and related free sugars content increase, we used a candidate-gene approach focused on inulin and sucrose synthesis and degradation genes, all members of the family 32 of glycoside hydrolases (GH32). Polymorphism in these genes was first investigated by carrying out EcoTILLING on two groups of chicory breeding lines exhibiting contrasted response to post-harvest inulin depolymerization. This allowed the identification of polymorphisms significantly associated with depolymerization in three fructan exohydrolase genes (FEH). This association was confirmed on a wider panel of 116 unrelated families in which the FEH polymorphism explained 35 % of the post-harvest variance for inulin content, 36 % of variance for sucrose content, 18 % for inulin degree of polymerization, 23 % for free fructose content and 22 % for free glucose content. These polymorphisms were associated with significant post-harvest changes of inulin content, inulin chain length and free sugars content.

Published
2014
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15. Characterisation of two cold induced dehydrin genes from Cichorium intybus L.

Author

Mingeot D, Dauchot N, Van Cutsem P, and Watillon B

Subjects
Amino Acid Sequence, Base Sequence, Blotting, Northern, Blotting, Southern, Cichorium intybus growth & development, DNA, Complementary genetics, Molecular Sequence Data, Plant Proteins chemistry, Plant Proteins metabolism, Promoter Regions, Genetic genetics, Seasons, Stress, Physiological genetics, Transcription, Genetic, Cichorium intybus genetics, Cold Temperature, Gene Expression Regulation, Plant, Genes, Plant, Plant Proteins genetics
Abstract

Two dehydrin genes were identified from a Cichorium intybus EST database. They were among the most abundant sequences obtained from 10 cDNA libraries constructed from chicory roots grown under field conditions. The full length cDNA sequences, designated CiDHN1 and CiDHN2, were 1,176 and 1,055 bp long and encoded predicted polypeptides of 262 and 261 amino acids, respectively. The deduced CiDHN1 protein contains a S-segment and four lysine-rich consensus motifs (K-segments) which represent a typical SK(4) structure of dehydrins. The CiDHN2 sequence contains two Y motifs and two K-segments classifying CiDHN2 as Y(2)K(2)-type dehydrin. Southern-blotting analysis suggested that CiDHN1 and CiDHN2 are single copy genes. Northern-blotting analysis revealed that both CiDHN genes are expressed in roots and leaves, with seasonal variations in transcript accumulation. The effect of cold on the CiDHN1 and CiDHN2 transcript level was demonstrated. CiDHN1 and CiDHN2 promoter analysis revealed the presence of low temperature-responsive and ABA-responsive elements.

Published
2009
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16. Proteomic analysis of chicory root identifies proteins typically involved in cold acclimation.

Author

Degand H, Faber AM, Dauchot N, Mingeot D, Watillon B, Cutsem PV, Morsomme P, and Boutry M

Subjects
Cichorium intybus chemistry, Electrophoresis, Gel, Two-Dimensional, Inulin metabolism, Peptide Mapping, Plant Proteins metabolism, Proteomics, Trypsin metabolism, Acclimatization, Cichorium intybus physiology, Cold Temperature, Oxidative Stress, Plant Proteins analysis, Plant Roots chemistry
Abstract

Chicory (Cichorium intybus) roots contain high amounts of inulin, a fructose polymer used as a storage carbohydrate by the plant and as a human dietary and prebiotic compound. We performed 2-D electrophoretic analysis of proteins from root material before the first freezing period. The proteins were digested with trypsin and the peptides analyzed by MS (MALDI-TOF/TOF). From the 881 protein spots analyzed, 714 proteins corresponded to a database accession, 619 of which were classified into functional categories. Besides expected proteins (e.g. related to metabolism, energy, protein synthesis, or cell structure), other well-represented categories were proteins related to folding and stability (49 spots), proteolysis (49 spots), and the stress response (67 spots). The importance of abiotic stress response was confirmed by the observation that 7 of the 21 most intense protein spots are known to be involved in cold acclimation. These results suggest a major effect of the low temperature period that preceded root harvesting.

Published
2009
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17. Construction of 12 EST libraries and characterization of a 12,226 EST dataset for chicory (Cichorium intybus) root, leaves and nodules in the context of carbohydrate metabolism investigation.

Author

Dauchot N, Mingeot D, Purnelle B, Muys C, Watillon B, Boutry M, and Van Cutsem P

Subjects
Cluster Analysis, Databases, Genetic, Gene Expression Profiling, Genome, Plant, Plant Leaves genetics, Polymorphism, Single Nucleotide, RNA, Plant genetics, Root Nodules, Plant genetics, Seasons, Sequence Analysis, DNA, Carbohydrate Metabolism genetics, Cichorium intybus genetics, Expressed Sequence Tags, Gene Library
Abstract

Background: The industrial chicory, Cichorium intybus, is a member of the Asteraceae family that accumulates fructan of the inulin type in its root. Inulin is a low calories sweetener, a texture agent and a health promoting ingredient due to its prebiotic properties. Average inulin chain length is a critical parameter that is genotype and temperature dependent. In the context of the study of carbohydrate metabolism and to get insight into the transcriptome of chicory root and to visualize temporal changes of gene expression during the growing season, we obtained and characterized 10 cDNA libraries from chicory roots regularly sampled in field during a growing season. A leaf and a nodule libraries were also obtained for comparison., Results: Approximately 1,000 Expressed Sequence Tags (EST) were obtained from each of twelve cDNA libraries resulting in a 12,226 EST dataset. Clustering of these ESTs returned 1,922 contigs and 4,869 singlets for a total of 6,791 putative unigenes. All ESTs were compared to public sequence databases and functionally classified. Data were specifically searched for sequences related to carbohydrate metabolism. Season wide evolution of functional classes was evaluated by comparing libraries at the level of functional categories and unigenes distribution., Conclusion: This chicory EST dataset provides a season wide outlook of the genes expressed in the root and to a minor extent in leaves and nodules. The dataset contains more than 200 sequences related to carbohydrate metabolism and 3,500 new ESTs when compared to other recently released chicory EST datasets, probably because of the season wide coverage of the root samples. We believe that these sequences will contribute to accelerate research and breeding of the industrial chicory as well as of closely related species.

Published
2009
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