Your search keyword '"Partier, A."' showing total 5 results

1. Molecular and FISH analyses of a 53-kbp intact DNA fragment inserted by biolistics in wheat ( Triticum aestivum L.) genome.

Author

Partier, A., Gay, G., Tassy, C., Beckert, M., Feuillet, C., and Barret, P.

Subjects

*PLANT genetic engineering, *FLUORESCENCE in situ hybridization, *BIOLISTICS, *GENE cassettes, WHEAT genetics

Abstract

Key message: A large, 53-kbp, intact DNA fragment was inserted into the wheat ( Triticum aestivum L.) genome. FISH analyses of individual transgenic events revealed multiple insertions of intact fragments. Abstract: Transferring large intact DNA fragments containing clusters of resistance genes or complete metabolic pathways into the wheat genome remains a challenge. In a previous work, we showed that the use of dephosphorylated cassettes for wheat transformation enabled the production of simple integration patterns. Here, we used the same technology to produce a cassette containing a 44-kb Arabidopsis thaliana BAC, flanked by one selection gene and one reporter gene. This 53-kb linear cassette was integrated in the bread wheat ( Triticum aestivum L.) genome by biolistic transformation. Our results showed that transgenic plants harboring the entire cassette were generated. The inheritability of the cassette was demonstrated in the T1 and T2 generation. Surprisingly, FISH analysis performed on T1 progeny of independent events identified double genomic insertions of intact fragments in non-homoeologous positions. Inheritability of these double insertions was demonstrated by FISH analysis of the T1 generation. Relative conclusions that can be drawn from molecular or FISH analysis are discussed along with future prospects of the engineering of large fragments for wheat transformation or genome editing. [ABSTRACT FROM AUTHOR]

Published

2017

2. Induction of Targeted Deletions in Transgenic Bread Wheat (Triticum aestivum L.) Using Customized Meganuclease.

Author

Youssef, D., Nihou, A., Partier, A., Tassy, C., Paul, W., Rogowsky, P. M., Beckert, M., and Barret, P.

Subjects

*DELETION mutation, *WHEAT, *ANTIBIOTICS, *FOOD crops, *DNA

Abstract

Biotechnologies offer breeders good opportunities for breakthrough genetic improvements of bread wheat, one of mankind's main food crops. Since the production of the first transgenic wheat, one of the major concerns has been the removal of selective markers, first because of societal concerns about the antibiotic resistance of some of these genes, and second because removal of a selective marker was the first step toward retransformation using the same selection system. Site-directed nucleases are enzymes that cut genomic DNA in vivo at predefined sites. Among them, meganucleases cut DNA at predefined, long DNA (up to 24 nt) sites, thereby enabling single cuts on large genomes including the bread wheat genome (17 Gbp). In this paper, we describe for the first time the use of a customized meganuclease to cut wheat DNA in vivo.We show that double cuts provoked the deletion of previously inserted DNA cassettes containing the DsRed reporter gene, and that in many cases, the meganuclease target site was correctly reconstituted, offering opportunities for subsequent insertion of stacked transgenes to replace the gene of selection. Moreover, perfect deletions were observed not only in the callus after transient expression of the meganucleases, but also in T0 transgenic wheat after stable retransformation with the meganuclease. Future prospects for the removal of selective markers and transgene stacking are discussed. [ABSTRACT FROM AUTHOR]

Published

2018

3. Treatment of the rat hepatic stellate cell line, PAV-1, by retinol and palmitic acid leads to a convenient model to study retinoids metabolism

Author

Sauvant, Patrick, Abergel, Armand, Partier, Anne, Alexandre-Gouabau, Marie-Cécile, Rock, Edmond, Sion, Benoit, Motta, Claude, Sapin, Vincent, and Azaïs-Bresco, Véronique

Subjects

*VITAMIN A, *CELLS, *PALMITIC acid, *RETINOIDS

Abstract

The main site of vitamin A storage in the liver is the hepatic stellate cells (HSC). Involvement of HSC in vitamin A metabolism has mainly been studied using primary culture, which represents the most physiological model but technically suffers several drawbacks (yield, low reproducibility, etc.). To circumvent these problems, we have previously established and characterised an immortalised rat HSC line named PAV-1. This study aimed to investigate in PAV-1 and in primary HSC (i) the incorporation of retinol and its esterification, (ii) the cellular retinol-binding protein (CRBP) content, (iii) the acid retinyl ester hydrolase activity (aREH), (iv) the thermal susceptibility and (v) the lipid composition of the membranes, which may play a crucial role in retinol transport across cellular membrane. In routine conditions of culture, the rate of retinol esterification in PAV-1 was low (5.2%) compared to that obtained with primary HSC (69.9%). Retinol pre-treatment doubled this esterification rate (10.7%) and the CRBP content in PAV-1. The co-incubation with retinol and palmitic acid enabled PAV-1 to esterify retinol with a rate close to that of primary HSC (66.2% vs. 69.9%) and with similar retinyl ester profiles. aREH activity was higher in primary HSC than in PAV-1. Thermal susceptibility and phospholipid composition of membranes in PAV-1 treated cells were similar to those of primary HSC. In conclusion, our study shows that PAV-1 cells treated with retinol and palmitic acid is a sound and convenient model for studying vitamin A mobilisation, a fundamental physiological event occurring in HSC. [Copyright &y& Elsevier]

Published

2002

4. Identification of glycosyltransferases involved in cell wall synthesis of wheat endosperm

Author

Suliman, M., Chateigner-Boutin, A.-L., Francin-Allami, M., Partier, A., Bouchet, B., Salse, J., Pont, C., Marion, J., Rogniaux, H., Tessier, D., Guillon, F., and Larré, C.

Subjects

*GLYCOSYLTRANSFERASES, *PLANT cell walls, *ENDOSPERM, *WHEAT seeds, *GLYCOSYLATION, *ARABINOXYLANS, *ORIGIN of life

Abstract

Abstract: Plant cell walls are complex structures critical for plant fitness and valuable for human nutrition as dietary fiber and for industrial uses such as biofuel production. The cell wall polysaccharides in wheat endosperm consist of two major polymers, arabinoxylans and beta-glucans, as well as other minor components. Most of these polysaccharides are synthesized in the Golgi apparatus but the mechanisms underlying their synthesis have yet to be fully elucidated and only a few of the enzymes involved have been characterized. To identify actors involved in the wheat endosperm cell wall formation, we used a subcellular fractionation strategy to isolate Golgi-enriched fractions from endosperm harvested during active cell wall deposition. The proteins extracted from these Golgi-enriched fractions were analyzed by LC–MS/MS. We report the identification of 1135 proteins among which 64 glycosyltransferases distributed in 17 families. Their potential function in cell wall synthesis is discussed. In addition, we identified 63 glycosylhydrolases, some of which may be involved in cell wall remodeling. Several glycosyltransferases were validated by showing that when expressed as fusion proteins with a fluorescent reporter, they indeed accumulate in the Golgi apparatus. Our results provide new candidates potentially involved in cell wall biogenesis in wheat endosperm. [Copyright &y& Elsevier]

Published

2013

5. Comparison of the postprandial plasma vitamin A response in young and older adults.

Author

Borel, P, Mekki, N, Boirie, Y, Partier, A, Alexandre-Gouabau, M C, Grolier, P, Beaufrere, B, Portugal, H, Lairon, D, and Azais-Braesco, V

Abstract

To assess the influence of age on vitamin A intestinal and liver metabolism in humans, the postprandial plasma concentrations of intestinal-originated vitamin A, i.e., retinyl esters, and liver-originated vitamin A, i.e., retinol, were compared in eight young (20-30 years old) and eight elderly (64-72 years old) healthy men. Plasma and chylomicron retinyl esters and retinol concentrations were measured for up to 24 h following the intake of a test meal that contained 23,300 RE retinyl palmitate. The chylomicron retinyl palmitate response (area under the curve) was not significantly different between the two groups, but its peak was slightly delayed (1 h) in the elderly men. The proportion of the different retinyl esters secreted in the chylomicrons was not significantly different between the two groups. The postprandial plasma retinol concentration did not change in the young participants, whereas it significantly increased in the elderly. These results suggest that vitamin A intestinal absorption and retinol intestinal esterification processes are not markedly modified in the elderly, whereas the chylomicron clearance and the regulation of postprandial plasma retinol concentration are apparently altered in these subjects. [ABSTRACT FROM AUTHOR]

Published

1998