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321.
Bean pod mottle virus: a new powerful tool for functional genomics studies in Pisum sativum 下载免费PDF全文
Chouaib Meziadi Sophie Blanchet Manon M.S. Richard Marie‐Laure Pilet‐Nayel Valérie Geffroy Stéphanie Pflieger 《Plant biotechnology journal》2016,14(8):1777-1787
Pea (Pisum sativum L.) is an important legume worldwide. The importance of pea in arable rotations and nutritional value for both human and animal consumption have fostered sustained production and different studies to improve agronomic traits of interest. Moreover, complete sequencing of the pea genome is currently underway and will lead to the identification of a large number of genes potentially associated with important agronomic traits. Because stable genetic transformation is laborious for pea, virus‐induced gene silencing (VIGS) appears as a powerful alternative technology for determining the function of unknown genes. In this work, we present a rapid and efficient viral inoculation method using DNA infectious plasmids of Bean pod mottle virus (BPMV)‐derived VIGS vector. Six pea genotypes with important genes controlling biotic and/or abiotic stresses were found susceptible to BPMV carrying a GFP reporter gene and showed fluorescence in both shoots and roots. In a second step, we investigated 37 additional pea genotypes and found that 30 were susceptible to BPMV and only 7 were resistant. The capacity of BPMV to induce silencing of endogenes was investigated in the most susceptible genotype using two visual reporter genes: PsPDS and PsKORRIGAN1 (PsKOR1) encoding PHYTOENE DESATURASE and a 1,4‐β‐D‐glucanase, respectively. The features of the ‘one‐step’ BPMV‐derived VIGS vector include (i) the ease of rub‐inoculation, without any need for biolistic or agro‐inoculation procedures, (ii) simple cost‐effective procedure and (iii) noninterference of viral symptoms with silencing. These features make BPMV the most adapted VIGS vector in pea to make low‐ to high‐throughput VIGS studies. 相似文献
322.
Oscar Teijido Yogesh Tengarai Ganesan Raul Llanos Ashley Peton Jean-Baptiste Urtecho Adauri Soprani Aimee Villamayor Bruno Antonsson Stéphen Manon Laurent Dejean 《Analytical biochemistry》2016
Bcl-2 family proteins are critical regulators of mitochondrial outer membrane permeabilization (MOMP), which represents the point of no return of apoptotic cell death. The exposure of the Bax N-terminus at the mitochondria reflects Bax activation; and this activated configuration of the Bax protein is associated with MOMP. N-terminal exposure can be detected using specific monoclonal and/or polyclonal antibodies, and the onset of activated Bax has extensively been used as an early marker of apoptosis. The protocols of immunoprecipitation and/or immunocytochemistry commonly used to detect activated Bax are long and tedious, and allow semiquantification of the antigen at best. The sandwich ELISA protocol we developed has a 5 ng/mL detection limit and is highly specific for the activated conformation of Bax. This ELISA allows a rapid quantification of activated human Bax in whole cells and isolated mitochondria protein extracts. These properties grant this assay the potential to further clarify the prognostic and diagnostic value of activated Bax in disorders associated with deregulated apoptotic pathways such as degenerative diseases or cancer. 相似文献
323.
Chocron S Verhoeven MC Rentzsch F Hammerschmidt M Bakkers J 《Developmental biology》2007,305(2):577-588
Left-right (LR) asymmetry is regulated by early asymmetric signals within the embryo. Even though the role of the bone morphogenetic protein (BMP) pathway in this process has been reported extensively in various model organisms, opposing models for the mechanism by which BMP signaling operates still prevail. Here we show that in zebrafish embryos there are two distinct phases during LR patterning in which BMP signaling is required. Using transgenic lines that ectopically express either noggin3 or bmp2b, we show a requirement for BMP signaling during early segmentation to repress southpaw expression in the right lateral plate mesoderm and regulate both visceral and heart laterality. A second phase was identified during late segmentation, when BMP signaling is required in the left lateral plate mesoderm to regulate left-sided gene expression and heart laterality. Using morpholino knock down experiments, we identified Bmp4 as the ligand responsible for both phases of BMP signaling. In addition, we detected bmp4 expression in Kupffer's vesicle and show that restricted knock down of bmp4 in this structure results in LR patterning defects. The identification of these two distinct and opposing activities of BMP signaling provides new insight into how BMP signaling can regulate LR patterning. 相似文献
324.
Arokium H Ouerfelli H Velours G Camougrand N Vallette FM Manon S 《The Journal of biological chemistry》2007,282(48):35104-35112
During apoptosis, the pro-apoptotic protein Bax relocalizes from the cytosol to the mitochondrial outer membrane. This relocalization is associated to major conformational changes, namely at the N- and C-terminal ends of the protein. Substitution of residues located at critical positions within the protein potentially stimulates or inhibits this process. In the present study, we investigated the hypothesis that phosphorylation of serine residues might trigger these conformational changes, with a focus on Ser(163) and Ser(184), which have been shown to be phosphorylatable by protein kinases GSK3beta and Akt/PKB, respectively, and on Ser(60), which is located in a consensus target sequence for PKA. Substitutions of these serine residues by alanine or aspartate were done in wild type or previously characterized Bax mutants, and the capacity of the resulting proteins to interact with mitochondria and to release cytochrome c was assayed in yeast, which provides a tool to study the function of Bax, independently of the rest of the apoptotic network. We conclude that sequential phosphorylation of these serine residues might participate in the triggering of the different conformational changes associated with Bax activation during apoptosis. 相似文献
325.
Mine Altinli Julien Soms Marc Ravallec Fabienne Justy Manon Bonneau Mylene Weill Anne-Sophie Gosselin-Grenet Mathieu Sicard 《Environmental microbiology》2019,21(9):3284-3298
Culex pipiens densovirus (CpDV), a single stranded DNA virus, has been isolated from Culex pipiens mosquitoes but differs from other mosquito densoviruses in terms of genome structure and sequence identity. Its transmission from host to host, the nature of its interactions with both its host and host's endosymbiotic bacteria Wolbachia are not known. Here, we report the presence of CpDV in the ovaries and eggs of Cx. pipiens mosquitoes in close encounters with Wolbachia. In the ovaries, CpDV amount significantly differed between mosquito lines harbouring different strains of Wolbachia and these differences were not linked to variations in Wolbachia densities. CpDV was vertically transmitted in all laboratory lines to 17%–20% of the offspring. For some females, however, the vertical transmission reached 90%. Antibiotic treatment that cured the host from Wolbachia significantly decreased both CpDV quantity and vertical transmission suggesting an impact of host microbiota, including Wolbachia, on CpDV transmission. Overall our results show that CpDV is transmitted vertically via transovarian path along with Wolbachia with which it shares the same cells. Our results are primordial to understand the dynamics of densovirus infection, their persistence and spread in populations considering their potential use in the regulation of mosquito vector populations. 相似文献
326.
Virginie Merot‐L'anthoene Rmi Tournebize Olivier Darracq Vimel Rattina Maud Lepelley Laurence Bellanger Christine Tranchant‐Dubreuil Manon Coule Marie Pgard Sylviane Metairon Coralie Fournier Piet Stoffelen Steven B. Janssens Catherine Kiwuka Pascal Musoli Ucu Sumirat Hyacinthe Legnat Jean‐Lon Kambale Joo Ferreira da Costa Neto Clara Revel Alexandre de Kochko Patrick Descombes Dominique Crouzillat Valrie Poncet 《Plant biotechnology journal》2019,17(7):1418-1430
Coffee species such as Coffea canephora P. (Robusta) and C. arabica L. (Arabica) are important cash crops in tropical regions around the world. C. arabica is an allotetraploid (2n = 4x = 44) originating from a hybridization event of the two diploid species C. canephora and C. eugenioides (2n = 2x = 22). Interestingly, these progenitor species harbour a greater level of genetic variability and are an important source of genes to broaden the narrow Arabica genetic base. Here, we describe the development, evaluation and use of a single‐nucleotide polymorphism (SNP) array for coffee trees. A total of 8580 unique and informative SNPs were selected from C. canephora and C. arabica sequencing data, with 40% of the SNP located in annotated genes. In particular, this array contains 227 markers associated to 149 genes and traits of agronomic importance. Among these, 7065 SNPs (~82.3%) were scorable and evenly distributed over the genome with a mean distance of 54.4 Kb between markers. With this array, we improved the Robusta high‐density genetic map by adding 1307 SNP markers, whereas 945 SNPs were found segregating in the Arabica mapping progeny. A panel of C. canephora accessions was successfully discriminated and over 70% of the SNP markers were transferable across the three species. Furthermore, the canephora‐derived subgenome of C. arabica was shown to be more closely related to C. canephora accessions from northern Uganda than to other current populations. These validated SNP markers and high‐density genetic maps will be useful to molecular genetics and for innovative approaches in coffee breeding. 相似文献
327.
Mark Watson Anne Roulston Laurent Bélec Xavier Billot Richard Marcellus Dominique Bédard Cynthia Bernier Stéphane Branchaud Helen Chan Kenza Dairi Karine Gilbert Daniel Goulet Michel-Olivier Gratton Henady Isakau Anne Jang Abdelkrim Khadir Elizabeth Koch Manon Lavoie Michael Lawless Mai Nguyen Denis Paquette émilie Turcotte Alvin Berger Matthew Mitchell Gordon C. Shore Pierre Beauparlant 《Molecular and cellular biology》2009,29(21):5872-5888
GMX1777 is a prodrug of the small molecule GMX1778, currently in phase I clinical trials for the treatment of cancer. We describe findings indicating that GMX1778 is a potent and specific inhibitor of the NAD+ biosynthesis enzyme nicotinamide phosphoribosyltransferase (NAMPT). Cancer cells have a very high rate of NAD+ turnover, which makes NAD+ modulation an attractive target for anticancer therapy. Selective inhibition by GMX1778 of NAMPT blocks the production of NAD+ and results in tumor cell death. Furthermore, GMX1778 is phosphoribosylated by NAMPT, which increases its cellular retention. The cytotoxicity of GMX1778 can be bypassed with exogenous nicotinic acid (NA), which permits NAD+ repletion via NA phosphoribosyltransferase 1 (NAPRT1). The cytotoxicity of GMX1778 in cells with NAPRT1 deficiency, however, cannot be rescued by NA. Analyses of NAPRT1 mRNA and protein levels in cell lines and primary tumor tissue indicate that high frequencies of glioblastomas, neuroblastomas, and sarcomas are deficient in NAPRT1 and not susceptible to rescue with NA. As a result, the therapeutic index of GMX1777 can be widended in the treatment animals bearing NAPRT1-deficient tumors by coadministration with NA. This provides the rationale for a novel therapeutic approach for the use of GMX1777 in the treatment of human cancers.The cyanoguanidinopyridine GMX1778 (previously known as CHS828) is the active form of the prodrug GMX1777 and has potent antitumor activity in vitro and in vivo against cell lines derived from several different tumor origins (11). The antitumor activity of GMX1778 has been widely studied since its discovery (1, 11, 19-21, 24), but positive identification of the molecular target and the mechanism of action of GMX1778 has been elusive. Here, we demonstrate that GMX1778 exerts its antitumor activity via its potent and selective antagonism of NAD+ biosynthesis. GMX1777 is currently being assessed in phase I clinical trials for treatment of patients with refractory solid tumors.The pyridine nucleotide NAD+ plays a major role in the regulation of several essential cellular processes (7, 22, 25, 38). In addition to being a biochemical cofactor for enzymatic redox reactions involved in cellular metabolism, including ATP production, NAD+ is important in diverse cellular pathways responsible for calcium homeostasis (17), gene regulation (5), longevity (18), genomic integrity (33), and apoptosis (36). Cancer cells exhibit a significant dependence on NAD+ for support of the high levels of ATP production necessary for rapid cell proliferation. They also consume large amounts of this cofactor via reactions that utilize poly(ADP) ribosylation, including DNA repair pathways (10, 37, 39).In eukaryotes, the biosynthesis of NAD+ occurs via two biochemical pathways: the de novo pathway, in which NAD+ synthesis occurs through the metabolism of l-tryptophan via the kynurenine pathway, and the salvage pathway. The NAD+ salvage pathway can use either nicotinamide (niacinamide) (NM) or nicotinic acid (niacin) (NA) (via the Preiss-Handler pathway) as a substrate for NAD+ production. Saccharomyces cerevisiae species predominantly use NA as the substrate for NAD+ biosynthesis, through the deamidation of NM by the nicotinamidase PNC1 (25). However, mammalian cells do not express a nicotinamidase enzyme and use NM as the preferred substrate for the NAD+ salvage pathway. The mammalian NAD+ biosynthesis salvage pathway using NM is composed of NA phosphoribosyltransferase (NAMPT), which is the rate-limiting and penultimate enzyme that catalyzes the phosphoribosylation of NM to produce nicotinamide mononucleotide (NMN) (27, 29). NMN is subsequently converted to NAD+ by NMN adenyltransferases (NMNAT). The gene encoding NAMPT was originally identified as encoding a cytokine named pre-B-cell colony-enhancing factor (PBEF1) (30). NAMPT was also identified as a proposed circulating adipokine named visfatin (thought to be secreted by fat cells) and was suggested to function as an insulin mimetic; however, this role of NAMPT currently remains controversial (8). In mice, NAMPT has been shown to act as a systemic NAD+ biosynthetic enzyme that regulates insulin secretion from β cells (28). The molecular structure of NAMPT from human (15), rat (16) and mouse (35) tissue, containing either NMN or the inhibitor APO866, have been determined by X-ray crystallography. These structures revealed that NAMPT is a dimeric type II phosphoribosyltransferase.Here, we report that the anticancer compound GMX1778 is a specific inhibitor of NAMPT in vivo and in vitro and is itself a substrate for the enzyme. Phosphoribosylated GMX1778 inhibits NAMPT as potently as GMX1778 but is preferentially retained within cells. Finally, we have identified a novel anticancer strategy utilizing NA rescue of GMX1778 cytotoxicity to increase the therapeutic index of GMX1777 activity in tumors that are deficient in NA phosphoribosyltransferase 1 (NAPRT1). 相似文献
328.
Nuclear genes encoding chloroplast hemoglobins in the unicellular green alga Chlamydomonas eugametos
Manon Couture Hélène Chamberland Benoit St-Pierre Jean Lafontaine Michel Guertin 《Molecular & general genetics : MGG》1994,243(2):185-197
When the green unicellular alga Chlamydomonas eugametos is grown under light/dark regimes, nuclear genes are periodically activated in response to the changes in light conditions. These genetic responses are dependent upon the activation of genes associated with photosynthesis (LI616 and LI637), nonphotosynthetic photoreceptors (LI410 and LI818) and the biological clock (LI818). We report here that the LI410 and LI637 genes are part of a small gene family encoding hemoglobins (Hbs) related to those from two unicellular eukaryotes, the ciliated protozoa Paramecium caudatum and Tetrahymena pyriformis, and from the cyanobacterium Nostoc commune. Investigations of the intracellular localization of C. eugametos Hbs by means of immunogold electron microscopy indicate that these proteins are predominantly located in the chloroplast, particularly in the pyrenoid and the thylakoid region. To our knowledge, this constitutes the first evidence for the presence of Hbs in chloroplasts. Alignment of the LI637 cDNA nucleotide sequence with its corresponding genomic sequence indicates that the L1637 gene contains three introns, the positions of which are compared with those in the Hb genes of plants, animals and the ciliate P. caudatum. Although the LI637 gene possesses a three-intron/four-exon pattern similar to that of plant leghemoglobin genes, introns are inserted at different positions. Similarly the position of the single intron in the P. caudatum gene differs from the intron sites in the LI637 gene. The latter observations argue against the current view that all eukaryotic Hbs have evolved from a common ancestor having a gene structure identical to that of plant or animal Hbs. 相似文献
329.
Stéphen Manon Xavier Roucou Martine Guérin Michel Rigoulet Bernard Guérin 《Journal of bioenergetics and biomembranes》1998,30(5):419-429
Large and unselective permeabilities through the inner membrane of yeast mitochondria have been observed for more than 20 years, but the characterization of these permeabilities, leading to hypothesize the existence of a large-conductance unselective channel in yeast inner mitochondrial membrane, was done only recently by several groups. This channel has been tentatively identified as a yeast counterpart to the mammalian permeability transition pore, the crucial role of which is now well-documented in physiopathological phenomena, such as Ca2+ homeostasis, ischemic damages, or programmed cell death. The aim of this review is to make a point on the known characteristics of this yeast mitochondrial unselective channel (YMUC) and to analyze whether or not it can be considered as a yeast permeability transition pore. 相似文献
330.
Laleh Yerushalmi Sylvie Rocheleau Ruxandra Cimpoia Manon Sarrazin Geoffrey Sunahara Adriana Peisajovich 《Soil & Sediment Contamination》1998,7(1):37-51
Soil samples taken from a contaminated site in Northern Quebec, Canada, exhibited a low capacity for biodegradation of total petroleum hydrocarbons (TPH), despite a high capacity for the mineralization of aromatic hydrocarbons and a low toxicity of soil leachates as measured by Microtox assay. Toxicity assays directly performed on surface soil, including earthworm mortality and barley seedling emergence, indicated moderate to high levels of toxicity. Soil biostimulation did not improve the removal of petroleum hydrocarbons, while bioaugmentation of soil with a developed enrichment culture increased the efficiency of hydrocarbon removal from 20.4% to 49.2%. A considerable increase in the removal of TPH was obtained in a bioslurry process, enhancing the mass transfer of hydrocarbons from soil to the aqueous phase and increasing the efficiency of hydrocarbon removal to over 70% after 45 days of incubation. The addition of ionic or nonionic surfactants did not have a significant impact on biodegradation of hydrocarbons. The extent of hydrocarbon mineralization during the bioslurry process after 45 days of incubation ranged from 41.3% to 58.9%, indicating that 62.7% to 83.1% of the eliminated TPH were transformed into CO2 and water. 相似文献