Your search keyword '"Piednoel, M"' showing total 5 results

1. The Physcomitrella patens chromosome‐scale assembly reveals moss genome structure and evolution

Author

Lang, D, Ullrich, KK, Murat, F, Fuchs, J, Jenkins, J, Haas, FB, Piednoel, M, Gundlach, H, Van Bel, M, Meyberg, R, Vives, C, Morata, J, Symeonidi, A, Hiss, M, Muchero, W, Kamisugi, Y, Saleh, O, Blanc, G, Decker, EL, Van Gessel, N, Grimwood, J, Hayes, RD, Graham, SW, Gunter, LE, McDaniel, SF, Hoernstein, SNW, Larsson, A, Li, F-W, Perroud, P-F, Phillips, J, Ranjan, P, Rokshar, DS, Rothfels, CJ, Schneider, L, Shu, S, Stevenson, DW, Thümmler, F, Tillich, M, Villarreal Aguilar, JC, Widiez, T, Wong, GK-S, Wymore, A, Zhang, YA, Zimmer, AD, Quatrano, RS, Mayer, KFX, Goodstein, D, Casacuberta, JM, Vandepoele, K, Reski, R, Cuming, AC, Tuskan, GA, Maumus, F, Salse, J, Schmutz, J, and Rensing, SA

Subjects

food and beverages

Abstract

The draft genome of the moss model, Physcomitrella patens, comprised approximately 2000 unordered scaffolds. In order to enable analyses of genome structure and evolution we generated a chromosome‐scale genome assembly using genetic linkage as well as (end) sequencing of long DNA fragments. We find that 57% of the genome comprises transposable elements (TEs), some of which may be actively transposing during the life cycle. Unlike in flowering plant genomes, gene‐ and TE‐rich regions show an overall even distribution along the chromosomes. However, the chromosomes are mono‐centric with peaks of a class of Copia elements potentially coinciding with centromeres. Gene body methylation is evident in 5.7% of the protein‐coding genes, typically coinciding with low GC and low expression. Some giant virus insertions are transcriptionally active and might protect gametes from viral infection via siRNA mediated silencing. Structure‐based detection methods show that the genome evolved via two rounds of whole genome duplications (WGDs), apparently common in mosses but not in liverworts and hornworts. Several hundred genes are present in colinear regions conserved since the last common ancestor of plants. These syntenic regions are enriched for functions related to plant‐specific cell growth and tissue organization. The P. patens genome lacks the TE‐rich pericentromeric and gene‐rich distal regions typical for most flowering plant genomes. More non‐seed plant genomes are needed to unravel how plant genomes evolve, and to understand whether the P. patens genome structure is typical for mosses or bryophytes.

Published

2018

2. Genomic Repeat Abundances Contain Phylogenetic Signal

Author

Dodsworth, S., primary, Chase, M. W., additional, Kelly, L. J., additional, Leitch, I. J., additional, Macas, J., additional, Novak, P., additional, Piednoel, M., additional, Weiss-Schneeweiss, H., additional, and Leitch, A. R., additional

Published

2014

3. Nongenotoxic 3-Nitroimidazo[1,2- a ]pyridines Are NTR1 Substrates That Display Potent in Vitro Antileishmanial Activity.

Author

Fersing C, Basmaciyan L, Boudot C, Pedron J, Hutter S, Cohen A, Castera-Ducros C, Primas N, Laget M, Casanova M, Bourgeade-Delmas S, Piednoel M, Sournia-Saquet A, Belle Mbou V, Courtioux B, Boutet-Robinet É, Since M, Milne R, Wyllie S, Fairlamb AH, Valentin A, Rathelot P, Verhaeghe P, Vanelle P, and Azas N

Abstract

Twenty nine original 3-nitroimidazo[1,2- a ]pyridine derivatives, bearing a phenylthio (or benzylthio) moiety at position 8 of the scaffold, were synthesized. In vitro evaluation highlighted compound 5 as an antiparasitic hit molecule displaying low cytotoxicity for the human HepG2 cell line (CC 50 > 100 μM) alongside good antileishmanial activities (IC 50 = 1-2.1 μM) against L. donovani , L. infantum , and L. major ; and good antitrypanosomal activities (IC 50 = 1.3-2.2 μM) against T. brucei brucei and T. cruzi , in comparison to several reference drugs such as miltefosine, fexinidazole, eflornithine, and benznidazole (IC 50 = 0.6 to 13.3 μM). Molecule 5 , presenting a low reduction potential ( E ° = -0.63 V), was shown to be selectively bioactivated by the L. donovani type 1 nitroreductase (NTR1). Importantly, molecule 5 was neither mutagenic (negative Ames test), nor genotoxic (negative comet assay), in contrast to many other nitroaromatics. Molecule 5 showed poor microsomal stability; however, its main metabolite (sulfoxide) remained both active and nonmutagenic, making 5 a good candidate for further in vivo studies., Competing Interests: The authors declare no competing financial interest.

Published

2018

4. The Physcomitrella patens chromosome-scale assembly reveals moss genome structure and evolution.

Author

Lang D, Ullrich KK, Murat F, Fuchs J, Jenkins J, Haas FB, Piednoel M, Gundlach H, Van Bel M, Meyberg R, Vives C, Morata J, Symeonidi A, Hiss M, Muchero W, Kamisugi Y, Saleh O, Blanc G, Decker EL, van Gessel N, Grimwood J, Hayes RD, Graham SW, Gunter LE, McDaniel SF, Hoernstein SNW, Larsson A, Li FW, Perroud PF, Phillips J, Ranjan P, Rokshar DS, Rothfels CJ, Schneider L, Shu S, Stevenson DW, Thümmler F, Tillich M, Villarreal Aguilar JC, Widiez T, Wong GK, Wymore A, Zhang Y, Zimmer AD, Quatrano RS, Mayer KFX, Goodstein D, Casacuberta JM, Vandepoele K, Reski R, Cuming AC, Tuskan GA, Maumus F, Salse J, Schmutz J, and Rensing SA

Subjects

Centromere, Chromatin genetics, DNA Methylation, DNA Transposable Elements, Genetic Variation, Polymorphism, Single Nucleotide, Recombination, Genetic, Synteny, Biological Evolution, Bryopsida genetics, Chromosomes, Plant, Genome, Plant

Abstract

The draft genome of the moss model, Physcomitrella patens, comprised approximately 2000 unordered scaffolds. In order to enable analyses of genome structure and evolution we generated a chromosome-scale genome assembly using genetic linkage as well as (end) sequencing of long DNA fragments. We find that 57% of the genome comprises transposable elements (TEs), some of which may be actively transposing during the life cycle. Unlike in flowering plant genomes, gene- and TE-rich regions show an overall even distribution along the chromosomes. However, the chromosomes are mono-centric with peaks of a class of Copia elements potentially coinciding with centromeres. Gene body methylation is evident in 5.7% of the protein-coding genes, typically coinciding with low GC and low expression. Some giant virus insertions are transcriptionally active and might protect gametes from viral infection via siRNA mediated silencing. Structure-based detection methods show that the genome evolved via two rounds of whole genome duplications (WGDs), apparently common in mosses but not in liverworts and hornworts. Several hundred genes are present in colinear regions conserved since the last common ancestor of plants. These syntenic regions are enriched for functions related to plant-specific cell growth and tissue organization. The P. patens genome lacks the TE-rich pericentromeric and gene-rich distal regions typical for most flowering plant genomes. More non-seed plant genomes are needed to unravel how plant genomes evolve, and to understand whether the P. patens genome structure is typical for mosses or bryophytes., (© 2017 The Authors The Plant Journal © 2017 John Wiley & Sons Ltd.)

Published

2018

5. Improving and correcting the contiguity of long-read genome assemblies of three plant species using optical mapping and chromosome conformation capture data.

Author

Jiao WB, Accinelli GG, Hartwig B, Kiefer C, Baker D, Severing E, Willing EM, Piednoel M, Woetzel S, Madrid-Herrero E, Huettel B, Hümann U, Reinhard R, Koch MA, Swan D, Clavijo B, Coupland G, and Schneeberger K

Subjects

Arabidopsis genetics, Chromosomes, Plant genetics, Contig Mapping standards, Genomics standards, Chromosomes, Plant chemistry, Contig Mapping methods, Genome, Plant, Genomics methods, Software

Abstract

Long-read sequencing can overcome the weaknesses of short reads in the assembly of eukaryotic genomes; however, at present additional scaffolding is needed to achieve chromosome-level assemblies. We generated Pacific Biosciences (PacBio) long-read data of the genomes of three relatives of the model plant Arabidopsis thaliana and assembled all three genomes into only a few hundred contigs. To improve the contiguities of these assemblies, we generated BioNano Genomics optical mapping and Dovetail Genomics chromosome conformation capture data for genome scaffolding. Despite their technical differences, optical mapping and chromosome conformation capture performed similarly and doubled N50 values. After improving both integration methods, assembly contiguity reached chromosome-arm-levels. We rigorously assessed the quality of contigs and scaffolds using Illumina mate-pair libraries and genetic map information. This showed that PacBio assemblies have high sequence accuracy but can contain several misassemblies, which join unlinked regions of the genome. Most, but not all, of these misjoints were removed during the integration of the optical mapping and chromosome conformation capture data. Even though none of the centromeres were fully assembled, the scaffolds revealed large parts of some centromeric regions, even including some of the heterochromatic regions, which are not present in gold standard reference sequences., (© 2017 Jiao et al.; Published by Cold Spring Harbor Laboratory Press.)

Published

2017