40 results on '"Calenge, F."'
Search Results
2. Combined effects of genetics and gut microbiota on vaccine response in laying hens
- Author
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Lecoeur, A., primary, Blanc, F., additional, Gourichon, D., additional, Bruneau, N., additional, Burlot, T., additional, Calenge, F., additional, and Pinard-van der Laan, M-H., additional
- Published
- 2022
- Full Text
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3. Genome mapping of three major resistance genes to woolly apple aphid (Eriosoma lanigerum Hausm.)
- Author
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Bus, V. G. M., Chagné, D., Bassett, H. C. M., Bowatte, D., Calenge, F., Celton, J.-M., Durel, C.-E., Malone, M. T., Patocchi, A., Ranatunga, A. C., Rikkerink, E. H. A., Tustin, D. S., Zhou, J., and Gardiner, S. E.
- Published
- 2008
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4. Both stable and unstable QTLs for resistance to powdery mildew are detected in apple after four years of field assessments
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Calenge, F. and Durel, C.-E.
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- 2006
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5. Identification of a major QTL together with several minor additive or epistatic QTLs for resistance to fire blight in apple in two related progenies
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Calenge, F., Drouet, D., Denancé, C., Van de Weg, W. E., Brisset, M.-N., Paulin, J.-P., and Durel, C.-E.
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- 2005
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6. Resistance gene analogues identified through the NBS-profiling method map close to major genes and QTL for disease resistance in apple
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Calenge, F., Van der Linden, C. G., Van de Weg, E., Schouten, H. J., Van Arkel, G., Denancé, C., and Durel, C.-E.
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- 2005
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7. An Integrated Approach of Genetic Resistance to Salmonella Carrier State in Fowls: from Genetics to Genomics and Modelling
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Beaumont, C., primary, Lecerf, F., additional, Protais, J., additional, Calenge, F., additional, Prevost, K., additional, Lalmanach, A.C., additional, Chapuis, H., additional, Pitel, F., additional, Burlot, T., additional, Sellier, N., additional, Fravalo, P., additional, Vignal, A., additional, and Velge, P., additional
- Published
- 2008
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8. QTL for resistance to Salmonella carrier state confirmed in both experimental and commercial chicken lines
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Calenge, F., Lecerf, F., Demars, J., Feve, K., Vignoles, F., Pitel, F., Vignal, A., Velge, P., Sellier, N., and Beaumont, C.
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- 2009
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9. Intégrer la caractérisation du microbiote digestif dans le phénotypage de l’animal de rente : vers un nouvel outil de maîtrise de la santé en élevage ?
- Author
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CALENGE, F., primary, MARTIN, C., additional, LE FLOCH, N., additional, PHOCAS, F., additional, MORGAVI, D., additional, ROGEL-GAILLARD, C., additional, and QUÉRÉ, P., additional
- Published
- 2014
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10. Broiler lines divergently selected for digestive efficiency also differ in their susceptibility to colibacillosis
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Calenge, F., primary, Mignon-Grasteau, S., additional, Chanteloup, N. K., additional, Brée, A., additional, Lalmanach, A.-C., additional, and Schouler, C., additional
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- 2014
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11. Génétique de la qualité de l’œuf
- Author
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BEAUMONT, C., primary, CALENGE, F., additional, CHAPUIS, H., additional, FABLET, J., additional, MINVIELLE, F., additional, and TIXIER-BOICHARD, M., additional
- Published
- 2011
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12. Use of a reduced set of single nucleotide polymorphisms for genetic evaluation of resistance to Salmonella carrier state in laying hens
- Author
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Legarra, A., primary, Calenge, F., additional, Mariani, P., additional, Velge, P., additional, and Beaumont, C., additional
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- 2011
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13. Selection for increased resistance to Salmonella carrier-state
- Author
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Beaumont, C., primary, Chapuis, H., additional, Sellier, N., additional, Calenge, F., additional, Zongo, P., additional, Velge, P., additional, and Protais, J., additional
- Published
- 2010
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14. Genome mapping of three major resistance genes to woolly apple aphid (Eriosoma lanigerum Hausm.)
- Author
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Bus, V. G. M., primary, Chagné, D., additional, Bassett, H. C. M., additional, Bowatte, D., additional, Calenge, F., additional, Celton, J.-M., additional, Durel, C.-E., additional, Malone, M. T., additional, Patocchi, A., additional, Ranatunga, A. C., additional, Rikkerink, E. H. A., additional, Tustin, D. S., additional, Zhou, J., additional, and Gardiner, S. E., additional
- Published
- 2007
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15. AN OVERVIEW OF THE POSITION AND ROBUSTNESS OF SCAB RESISTANCE QTLS AND MAJOR GENES BY ALIGNING GENETIC MAPS OF FIVE APPLE PROGENIES
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Durel, C.E., primary, Calenge, F., additional, Parisi, L., additional, van de Weg, W.E., additional, Kodde, L.P., additional, Liebhard, R., additional, Gessler, C., additional, Thiermann, M., additional, Dunemann, F., additional, Gennari, F., additional, Tartarini, S., additional, and Lespinasse, Y., additional
- Published
- 2004
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16. DELINEATION OF A SCAB RESISTANCE GENE CLUSTER ON LINKAGE GROUP 2 OF APPLE
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Bus, V., primary, van de Weg, W.E., additional, Durel, C.E., additional, Gessler, C., additional, Calenge, F., additional, Parisi, L., additional, Rikkerink, E., additional, Gardiner, S., additional, Patocchi, A., additional, Meulenbroek, M., additional, Schouten, H., additional, and Laurens, F., additional
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- 2004
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17. QTL ANALYSIS OF THE GENETIC ARCHITECTURE DETERMINING RESISTANCE TO FIRE BLIGHT IN AN APPLE PROGENY
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Calenge, F., primary, Drouet, D., additional, van de Weg, W.E., additional, Brisset, M.N., additional, Paulin, J.P., additional, and Durel, C.E., additional
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- 2004
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18. Quantitative Trait Loci (QTL) Analysis Reveals Both Broad-Spectrum and Isolate-Specific QTL for Scab Resistance in an Apple Progeny Challenged with Eight Isolates of Venturia inaequalis
- Author
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Calenge, F., primary, Faure, A., additional, Goerre, M., additional, Gebhardt, C., additional, Van de Weg, W. E., additional, Parisi, L., additional, and Durel, C.-E., additional
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- 2004
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19. Integrating the characterization of digestive microbiota in phenotyping livestock animals: Towards a new tool for animal health control?,Intégrer la caractérisation du microbiote digestif dans le phénotypage de l'animal de rente: Vers un nouvel outil de maîtrise de la santé en élevage?
- Author
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Calenge, F., Martin, C., Le Floch, N., Phocas, F., Morgavi, D., Claire ROGEL-GAILLARD, and Quéré, P.
20. An overview of the position and robustness of scab resistance QTLs and major genes by aligning genetic maps of five apple progenies
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Cesare Gessler, R. Liebhard, Fanny Calenge, L.P. Kodde, Stefano Tartarini, Luciana Parisi, Fabio Gennari, W.E. Van De Weg, M. Thiermann, Frank Dunemann, Yves Lespinasse, C.E. Durel, ProdInra, Migration, Unité mixte de recherche génétique et horticulture Genhort, Université d'Angers (UA)-Institut National de la Recherche Agronomique (INRA)-Institut National d'Horticulture, Unité de recherche Pathologie végétale et phytobactériologie, Institut National de la Recherche Agronomique (INRA), LAURENS F. AND EVANS K., Durel, C. E., Calenge, F., Parisi, L., van de Weg, W. E., Kodde, L. P., Liebhard, R., Gessler, C., Thiermann, M., Dunemann, F., Gennari, F., Tartarini, S., and Lespinasse, Y.
- Subjects
0106 biological sciences ,Quantitative trait loci ,[SDV]Life Sciences [q-bio] ,Population ,Horticulture ,Biology ,Quantitative trait locus ,01 natural sciences ,03 medical and health sciences ,Broad spectrum ,Quantitative resistance ,Genetic map ,PRI Biodiversiteit en Veredeling ,education ,MALUS X DOMESTICA ,Gene ,Malus x domestica ,ComputingMilieux_MISCELLANEOUS ,030304 developmental biology ,Genetics ,0303 health sciences ,education.field_of_study ,QUANTITATIVE TRAIT LOCI ,Venturia inaequalis ,Robustness (evolution) ,food and beverages ,Molecular markers ,biology.organism_classification ,SSR ,PRI Biodiversity and Breeding ,[SDV] Life Sciences [q-bio] ,GENE MAJEUR DE RESISTANCE ,Genetic marker ,Malus x domestica, Venturia inaequalis, quantitative resistance, quantitative trait loci, genetic map, molecular markers ,Amplified fragment length polymorphism ,010606 plant biology & botany - Abstract
In the frame of the D.A.R.E. project, five mapping populations have been studied for partial scab resistance against several races of Venturia inaequalis. A main objective was to identify QTLs (quantitative traits loci) with broad spectrum of resistance towards a wide range of strains of the fungus. Genetic markers (mainly SSR and AFLP) were tested on each population and genetic maps were constructed for both parents of each population. Meanwhile, pathological tests with several isolates of different races of V. inaequalis were performed. Four major genomic regions appear to be involved in scab resistance: they are located on linkage groups (LG) LG-1, LG-2, LG-11, and LG-17. Some other linkage groups carry either QTLs or major resistance genes that are isolate specific: a QTL on LG-5, Vd on LG-10, and Vg on LG-12. The QTL region located on LG-17 clearly exhibited the widest spectrum of resistance
- Published
- 2004
21. Lactobacilli-Based Pro and Postbiotic Efficacy Are Also Influenced by Other Factors Than Dietary Challenging Conditions.
- Author
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Jansseune SCG, Lammers A, van Baal J, Blanc F, Calenge F, Pinard-van der Laan MH, and Hendriks WH
- Abstract
The present study aimed to confirm the previously reported 'recovery' effect to a challenging diet (CD) of a Lactobacilli-based probiotic (Pro) and its derived postbiotic (Post) in broilers. Identical diet compositions were used, and observations were extended to a second CD diet. A completely randomised block design of 2 × 3 treatment groups with two CDs and three additive conditions (Control, Pro, Post) was used. One additional group received a standard diet (SD). The study involved 1600 one-day-old Ross 308 male broilers. All diets, fed from d1 to 35, were formulated to contain identical nutrients levels, with CDs formulated to be greater than SD in nonstarch polysaccharides using rye and barley (Rye CD) or dry distiller grains with soluble, sunflower and rapeseed meal (DDGS CD). Growth performance parameters, footpad lesions (FPL) score and plasma Ca, P and uric acid concentrations were measured. Compared to SD, birds fed Rye CD and DDGS CD had a higher 1-35 days feed conversion ratio (+3.4 and +4.1%, respectively), due to a higher feed intake for Rye CD (+2.9%) and a lower body weight for DDGS CD (-4.1%). An effect of additive was restricted to Rye CD where Post depressed BW at d28 and d35 (-3.7 and -2.4%, respectively). Compared to Rye CD, DDGS CD lowered plasma Ca/P at d21 (-9.0%) and d35 (-8.1%) and uric acid at d21 (-26%). Pro increased plasma Ca in Rye CD at d21 (+12%) and Post decreased plasma uric acid in DDGS CD at d35 (-25%). All other plasma parameters were not affected. The previously observed recovery effect of a commercial probiotic and postbiotic were not reproducible under highly similar growth conditions, which suggests that both may have specific physiological effects which are only expressed under specific circumstances., (© 2024 The Author(s). Journal of Animal Physiology and Animal Nutrition published by Wiley‐VCH GmbH.)
- Published
- 2024
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22. Microbiota but not immune modulation by a pro- and postbiotic was associated with the diet-additive interaction in broilers.
- Author
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Jansseune SCG, Blanc F, Lammers A, van Baal J, Bruneau N, der Laan MP, Hendriks WH, and Calenge F
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- Animals, Male, Random Allocation, Cecum microbiology, Infectious bursal disease virus physiology, Newcastle disease virus immunology, Birnaviridae Infections veterinary, Lactobacillus, Poultry Diseases microbiology, Poultry Diseases immunology, Poultry Diseases virology, Newcastle Disease immunology, Chickens immunology, Diet veterinary, Animal Feed analysis, Gastrointestinal Microbiome, Probiotics administration & dosage, Probiotics pharmacology
- Abstract
This study investigated the diet-additive interactions of a Lactobacilli-based probiotic (Pro) and postbiotic (Post) on immune parameters and cecal microbiota composition, with subsequent effects on the metabolome in broilers. A completely randomized block design was employed with 2 diets [standard (SD), and challenge (CD)] and 3 additive conditions (Control, Pro, Post) involving 1,368 one-day-old male Ross 308 broilers equally distributed among 36 pens in a 42 d study. Diets were formulated to contain identical nutrient levels, with CD higher than SD in non-starch polysaccharide content by including rye and barley. Total non-specific serum Ig A, M and G concentrations were determined weekly from d14 to 35. Following vaccination, titres of specific antibodies binding Newcastle disease virus (NDV) and infectious bursal disease virus (IBDV) were measured. Microbiota composition was analyzed by 16S rRNA gene sequencing at d14 and 35, and α- and β-diversity indexes (Observed, Chao1, Bray, Jaccard) were calculated. Cecal short-chain fatty acids and the semi-polar metabolome were determined in the Control SD and all CD groups at d35. At d35, a diet-additive interaction was observed on cecal microbiota composition. Within SD, Pro and Post did not affect operational taxonomic units (OTU) abundance (adjusted-P > 0.05) and diversity indexes (P > 0.05). Within CD, Pro and Post affected the relative abundances of 37 and 44 OTUs, respectively (adjusted-P < 0.05), with Post but not Pro affecting β-diversity indexes (P = 0.041 and 0.064 for Bray and Jaccard, respectively). Within CD, Post increased cecal acetate (21%; P = 0.007) and butyrate (41%; P = 0.002) concentration and affected the concentration of 2 metabolites (adjusted-P < 0.05), while Pro affected 240 metabolites (adjusted-P < 0.05). No diet-additive interactions were observed on serum Ig (P > 0.05), except for IgM at d14 (P = 0.004). Diet composition, but not the additives, affected immune status parameters. The Pro and Post affected cecal microbiota composition only under dietary challenging conditions as previously reported for growth., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)
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- 2024
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23. Early and late cognitive and behavioral aspects associated with range use in free-range laying hens (Gallus gallus domesticus).
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Ferreira VHB, Seressia J, Même N, Bernard J, Pinard-van der Laan MH, Calenge F, Lecoeur A, Hedlund L, Jensen P, Guesdon V, and Calandreau L
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- Animals, Female, Animal Husbandry methods, Chickens physiology, Cognition, Behavior, Animal physiology
- Abstract
Individual differences in free-range chicken systems are important factors influencing how birds use the range (or not), even if individuals are reared in the same environmental conditions. Here, we investigated how various aspects of the birds' behavioral and cognitive tendencies, including their optimism/pessimism, cognitive flexibility, sociability, and exploration levels, are associated with range use and how they may change over time (before and after range access). To achieve this, 100 White Leghorn laying hen chicks underwent three distinct behavioral/cognitive tests-the cognitive bias test, the detour test, and the multivariate test-prior to gaining access to the range, between 9 and 39 days of age. After range access was allowed (from day 71), birds' range use was evaluated over 7 nonconsecutive days (from 74-91 days of age). Subsequently, a subset of birds, classified as high rangers (n = 15) and low rangers (n = 15) based on their range use, underwent retesting on the same three previous tests between 94 and 108 days of age. Our results unveiled a negative correlation trend between birds' evaluation of the ambiguous cue and their subsequent range use (rho = -0.19, p = 0.07). Furthermore, low rangers were faster to learn the detour task (χ2 = 7.34, df = 1, p = 0.006), coupled with increased sociability during the multivariate test (rho = -0.23, p = 0.02), contrasting with their high-ranging counterparts, who displayed more exploratory behaviors (F[1,27] = 3.64, p = 0.06). These behavioral patterns fluctuated over time (before and after range access); however, conclusively attributing these changes to birds' aging and development or the access to the range remains challenging. Overall, our results corroborate that behavioral and cognitive individual differences may be linked to range use and offer novel perspectives on the early behavioral and cognitive traits that may be linked to range use. These findings may serve as a foundation for adapting environments to meet individual needs and improve animal welfare in the future., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)
- Published
- 2024
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24. Diet composition influences probiotic and postbiotic effects on broiler growth and physiology.
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Jansseune SCG, Lammers A, van Baal J, Blanc F, van der Laan MP, Calenge F, and Hendriks WH
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- Animals, Male, Dietary Supplements analysis, Lactobacillus physiology, Chickens growth & development, Chickens physiology, Probiotics administration & dosage, Probiotics pharmacology, Diet veterinary, Animal Feed analysis, Animal Nutritional Physiological Phenomena drug effects, Random Allocation
- Abstract
Dietary ingredient and nutrient composition may affect the efficacy of additives in broilers. Specific feed ingredients can represent dietary challenging conditions for broilers, resulting in impaired performances and health, which might be alleviated by dietary probiotics and postbiotics. We assessed the effects of a Lactobacilli probiotic (Pro) and postbiotic (Post) when added to a standard (SD) and challenge (CD) diet. A completely randomized block study with 2 diets (SD, CD) and 3 additive conditions (Control, Pro and Post) involving 1,368 one-day-old Ross male broilers, equally distributed among 36 pens, from d1 to d42 was conducted. Both diets were formulated to contain identical levels of nutrients, with CD formulated to be richer than SD in nonstarch polysaccharides using rye and barley as ingredients. Readout parameters included growth performance parameters, footpad lesions score, blood minerals and biochemical parameters, and tibia health, strength, and composition. Compared to SD, CD decreased BW (1,936 vs. 2,033 g; p = 0.001), increased FCR (p < 0.01) and impaired tibia health and strength (p < 0.05) at d35, thereby confirming the challenging effect of CD. Pro and Post increased BW in CD (+4.7 and +3.2%, respectively, at d35; P < 0.05) but not in the SD group, without affecting FCR. Independently of the diet, Pro increased plasma calcium, phosphorus and uric acid at d21 (+6.2, +7.4, and +15.5%, respectively) and d35 (+6.6, +6.2 and +21.0%, respectively) (P < 0.05) while Post increased plasma magnesium only at d21 (+11.3%; P = 0.037). Blood bile acids were affected by additives in an age- and diet-dependent manner, with some opposite effects between dietary conditions. Diet composition modulated Pro and Post effects on broiler growth performance. Additionally, Pro and Post affected animal metabolism and leg health diet-dependently for some but not all investigated parameters. Our findings show that the effects of pro- and postbiotics on the growth performance and physiology of broilers can be dependent on diet composition and thus possibly other factors affecting diet characteristics., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)
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- 2024
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25. Host genetics drives differences in cecal microbiota composition and immune traits of laying hens raised in the same environment.
- Author
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Lecoeur A, Blanc F, Gourichon D, Bruneau N, Burlot T, Pinard-van der Laan MH, and Calenge F
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- Animals, Female, Poultry Diseases microbiology, Poultry Diseases immunology, Newcastle Disease immunology, Vaccination veterinary, RNA, Ribosomal, 16S analysis, RNA, Ribosomal, 16S genetics, Chickens immunology, Chickens genetics, Chickens microbiology, Gastrointestinal Microbiome, Newcastle disease virus immunology, Viral Vaccines immunology, Cecum microbiology, Cecum immunology
- Abstract
Vaccination is one of the most effective strategies for preventing infectious diseases but individual vaccine responses are highly heterogeneous. Host genetics and gut microbiota composition are 2 likely drivers of this heterogeneity. We studied 94 animals belonging to 4 lines of laying hens: a White Leghorn experimental line genetically selected for a high antibody response against the Newcastle Disease Virus (NDV) vaccine (ND3) and its unselected control line (CTR), and 2 commercial lines (White Leghorn [LEG] and Rhode Island Red [RIR]). Animals were reared in the same conditions from hatching to 42 d of age, and animals from different genetic lines were mixed. Animals were vaccinated at 22 d of age and their humoral vaccine response against NDV was assessed by hemagglutination inhibition assay and ELISA from blood samples collected at 15, 19, and 21 d after vaccination. The immune parameters studied were the 3 immunoglobulins subtypes A, M, and Y and the blood cell composition was assessed by flow cytometry. The composition of the cecal microbiota was assessed at the end of the experiment by analyzing amplified 16S rRNA gene sequences to obtain amplicon sequence variants (ASV). The 4 lines showed significantly different levels of NDV vaccine response at the 3 measured points, with, logically, a higher response of the genetically selected ND3 line, and intermediate and low responses for the unselected CTR control line and for the 2 commercial lines, respectively. The ND3 line displayed also a higher proportion of immunoglobulins (IgA, IgM, and IgY). The RIR line showed the most different blood cell composition. The 4 lines showed significantly different microbiota characteristics: composition, abundances at all taxonomic levels, and correlations between genera and vaccine response. The tested genetic lines differ for immune parameters and gut microbiota composition and functions. These phenotypic differences can be attributed to genetic differences between lines. Causal relationships between both types of parameters are discussed and will be investigated in further studies., (Copyright © 2024 The Authors. Published by Elsevier Inc. All rights reserved.)
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- 2024
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26. Relationship between feed efficiency and gut microbiota in laying chickens under contrasting feeding conditions.
- Author
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Bernard M, Lecoeur A, Coville JL, Bruneau N, Jardet D, Lagarrigue S, Meynadier A, Calenge F, Pascal G, and Zerjal T
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- Animals, Female, Animal Feed analysis, Diet veterinary, Eating, Animal Nutritional Physiological Phenomena, Chickens metabolism, Gastrointestinal Microbiome
- Abstract
The gut microbiota is known to play an important role in energy harvest and is likely to affect feed efficiency. In this study, we used 16S metabarcoding sequencing to analyse the caecal microbiota of laying hens from feed-efficient and non-efficient lines obtained by divergent selection for residual feed intake. The two lines were fed either a commercial wheat-soybean based diet (CTR) or a low-energy, high-fibre corn-sunflower diet (LE). The analysis revealed a significant line x diet interaction, highlighting distinct differences in microbial community composition between the two lines when hens were fed the CTR diet, and more muted differences when hens were fed the LE diet. Our results are consistent with the hypothesis that a richer and more diverse microbiota may play a role in enhancing feed efficiency, albeit in a diet-dependent manner. The taxonomic differences observed in the microbial composition seem to correlate with alterations in starch and fibre digestion as well as in the production of short-chain fatty acids. As a result, we hypothesise that efficient hens are able to optimise nutrient absorption through the activity of fibrolytic bacteria such as Alistipes or Anaerosporobacter, which, via their production of propionate, influence various aspects of host metabolism., (© 2024. The Author(s).)
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- 2024
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27. Comparative analysis of the caecal tonsil transcriptome in two chicken lines experimentally infected with Salmonella Enteritidis.
- Author
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Cazals A, Rau A, Estellé J, Bruneau N, Coville JL, Menanteau P, Rossignol MN, Jardet D, Bevilacqua C, Bed'Hom B, Velge P, and Calenge F
- Subjects
- Animals, Chickens genetics, Chickens microbiology, Humans, Palatine Tonsil, Salmonella enteritidis genetics, Transcriptome, Poultry Diseases microbiology, Salmonella Infections, Animal microbiology
- Abstract
Managing Salmonella enterica Enteritidis (SE) carriage in chicken is necessary to ensure human food safety and enhance the economic, social and environmental sustainability of chicken breeding. Salmonella can contaminate poultry products, causing human foodborne disease and economic losses for farmers. Both genetic selection for a decreased carriage and gut microbiota modulation strategies could reduce Salmonella propagation in farms. Two-hundred and twenty animals from the White Leghorn inbred lines N and 61 were raised together on floor, infected by SE at 7 days of age, transferred into isolators to prevent oro-fecal recontamination and euthanized at 12 days post-infection. Caecal content DNA was used to measure individual Salmonella counts (ISC) by droplet digital PCR. A RNA sequencing approach was used to measure gene expression levels in caecal tonsils after infection of 48 chicks with low or high ISC. The analysis between lines identified 7516 differentially expressed genes (DEGs) corresponding to 62 enriched Gene Ontology (GO) Biological Processes (BP) terms. A comparison between low and high carriers allowed us to identify 97 DEGs and 23 enriched GO BP terms within line 61, and 1034 DEGs and 288 enriched GO BP terms within line N. Among these genes, we identified several candidate genes based on their putative functions, including FUT2 or MUC4, which could be involved in the control of SE infection, maybe through interactions with commensal bacteria. Altogether, we were able to identify several genes and pathways associated with differences in SE carriage level. These results are discussed in relation to individual caecal microbiota compositions, obtained for the same animals in a previous study, which may interact with host gene expression levels for the control of the caecal SE load., Competing Interests: The authors have declared that no competing interests exist.
- Published
- 2022
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28. Caecal microbiota composition of experimental inbred MHC-B lines infected with IBV differs according to genetics and vaccination.
- Author
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Borey M, Bed'Hom B, Bruneau N, Estellé J, Larsen F, Blanc F, der Laan MP, Dalgaard T, and Calenge F
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- Animals, Chickens, RNA, Ribosomal, 16S genetics, Receptors, Antigen, T-Cell, Vaccination veterinary, Coronavirus Infections prevention & control, Coronavirus Infections veterinary, Infectious bronchitis virus, Microbiota, Poultry Diseases genetics, Poultry Diseases prevention & control, Viral Vaccines
- Abstract
Interactions between the gut microbiota and the immune system may be involved in vaccine and infection responses. In the present study, we studied the interactions between caecal microbiota composition and parameters describing the immune response in six experimental inbred chicken lines harboring different MHC haplotypes. Animals were challenge-infected with the infectious bronchitis virus (IBV), and half of them were previously vaccinated against this pathogen. We explored to what extent the gut microbiota composition and the genetic line could be related to the immune response, evaluated through flow cytometry. To do so, we characterized the caecal bacterial communities with a 16S rRNA gene amplicon sequencing approach performed one week after the IBV infectious challenge. We observed significant effects of both the vaccination and the genetic line on the microbiota after the challenge infection with IBV, with a lower bacterial richness in vaccinated chickens. We also observed dissimilar caecal community profiles among the different lines, and between the vaccinated and non-vaccinated animals. The effect of vaccination was similar in all the lines, with a reduced abundance of OTU from the Ruminococcacea UCG-014 and Faecalibacterium genera, and an increased abundance of OTU from the Eisenbergiella genus. The main association between the caecal microbiota and the immune phenotypes involved TCR
ϒδ expression on TCRϒδ + T cells. This phenotype was negatively associated with OTU from the Escherichia-Shigella genus that were also less abundant in the lines with the highest responses to the vaccine. We proved that the caecal microbiota composition is associated with the IBV vaccine response level in inbred chicken lines, and that the TCRϒδ + T cells (judged by TCRϒδ expression) may be an important component involved in this interaction, especially with bacteria from the Escherichia-Shigella genus. We hypothesized that bacteria from the Escherichia-Shigella genus increased the systemic level of bacterial lipid antigens, which subsequently mitigated poultry γδ T cells., (© 2022. The Author(s).)- Published
- 2022
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29. Differences in caecal microbiota composition and Salmonella carriage between experimentally infected inbred lines of chickens.
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Cazals A, Estellé J, Bruneau N, Coville JL, Menanteau P, Rossignol MN, Jardet D, Bevilacqua C, Rau A, Bed'Hom B, Velge P, and Calenge F
- Subjects
- Animals, Chickens genetics, Humans, RNA, Ribosomal, 16S genetics, Salmonella enteritidis genetics, Microbiota, Salmonella Infections, Animal genetics
- Abstract
Background: Salmonella Enteritidis (SE) is one of the major causes of human foodborne intoxication resulting from consumption of contaminated poultry products. Genetic selection of animals that are more resistant to Salmonella carriage and modulation of the gut microbiota are two promising ways to decrease individual Salmonella carriage. The aims of this study were to identify the main genetic and microbial factors that control the level of Salmonella carriage in chickens (Gallus gallus) under controlled experimental conditions. Two-hundred and forty animals from the White Leghorn inbred lines N and 6
1 were infected by SE at 7 days of age. After infection, animals were kept in isolators to reduce recontamination of birds by Salmonella. Caecal contents were sampled at 12 days post-infection and used for DNA extraction. Microbiota DNA was used to measure individual counts of SE by digital PCR and to determine the bacterial taxonomic composition, using a 16S rRNA gene high-throughput sequencing approach., Results: Our results confirmed that the N line is more resistant to Salmonella carriage than the 61 line, and that intra-line variability is higher for the 61 line. Furthermore, the 16S analysis showed strong significant differences in microbiota taxonomic composition between the two lines. Among the 617 operational taxonomic units (OTU) observed, more than 390 were differentially abundant between the two lines. Furthermore, within the 61 line, we found a difference in the microbiota taxonomic composition between the high and low Salmonella carriers, with 39 differentially abundant OTU. Using metagenome functional prediction based on 16S data, several metabolic pathways that are potentially associated to microbiota taxonomic differences (e.g. short chain fatty acids pathways) were identified between high and low carriers., Conclusions: Overall, our findings demonstrate that the caecal microbiota composition differs between genetic lines of chickens. This could be one of the reasons why the investigated lines differed in Salmonella carriage levels under experimental infection conditions., (© 2022. The Author(s).)- Published
- 2022
- Full Text
- View/download PDF
30. Broilers divergently selected for digestibility differ for their digestive microbial ecosystems.
- Author
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Borey M, Estellé J, Caidi A, Bruneau N, Coville JL, Hennequet-Antier C, Mignon-Grasteau S, and Calenge F
- Subjects
- Animal Feed, Animal Nutritional Physiological Phenomena, Animals, Biodiversity, Chickens genetics, Chickens growth & development, Digestion genetics, Digestion physiology, Female, Gastrointestinal Microbiome physiology, Host Microbial Interactions genetics, Host Microbial Interactions physiology, Intestines anatomy & histology, Intestines microbiology, Intestines physiology, Male, Phylogeny, RNA, Ribosomal, 16S genetics, Selection, Genetic, Chickens microbiology, Gastrointestinal Microbiome genetics
- Abstract
Improving the digestive efficiency of broiler chickens (Gallus gallus) could reduce organic waste, increase the use of alternative feed not used for human consumption and reduce the impact of feed in production costs. By selecting chicken lines divergently for their digestive efficiency, we showed previously that digestive efficiency is under genetic control and that the two resulting divergent lines, D+ (high digestive efficiency or "digestibility +") and D- (low digestive efficiency or "digestibility -"), also differ for the abundance of specific bacteria in their caeca. Here we perform a more extensive census of the bacteria present in the digestive microbiota of 60 chickens selected for their low apparent metabolizable energy corrected for nitrogen balance (AMEn-) or high (AMEn+) digestive efficiency in a [D+ x D-] F8 progeny of 200 individuals. We sequenced the 16S rRNA genes of the ileal, jejunal and caecal microbiotas, and compared the compositions and predicted functions of microbiotas from the different intestinal segments for 20 AMEn+ and 19 AMEn- birds. The intestinal segment of origin was the main factor structuring the samples. The caecal microbiota was the most impacted by the differences in digestive efficiency, with 41 bacterial species with abundances differing between highly and poorly efficient birds. Furthermore, we predicted that the caecal microbiota of efficient birds might be enriched in genes contributing to the degradation of short chain fatty acids (SCFA) from non-starch polysaccharides. These results confirm the impact of the genetic selection led on digestibility on the caecal microbiota taxonomic composition. They open the way toward the identification of specific, causal genes of the host controlling variations in the abundances of bacterial taxons., Competing Interests: The authors have declared that no competing interests exist.
- Published
- 2020
- Full Text
- View/download PDF
31. Relationships between digestive efficiency and metabolomic profiles of serum and intestinal contents in chickens.
- Author
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Beauclercq S, Nadal-Desbarats L, Hennequet-Antier C, Gabriel I, Tesseraud S, Calenge F, Le Bihan-Duval E, and Mignon-Grasteau S
- Subjects
- Animals, Chickens, Magnetic Resonance Spectroscopy, Animal Feed analysis, Animal Nutritional Physiological Phenomena, Digestion, Gastrointestinal Contents chemistry, Metabolome, Serum chemistry
- Abstract
The increasing cost of conventional feedstuffs has bolstered interest in genetic selection for digestive efficiency (DE), a component of feed efficiency, assessed by apparent metabolisable energy corrected to zero nitrogen retention (AMEn). However, its measurement is time-consuming and constraining, and its relationship with metabolic efficiency poorly understood. To simplify selection for this trait, we searched for indirect metabolic biomarkers through an analysis of the serum metabolome using nuclear magnetic resonance (
1 H NMR). A partial least squares (PLS) model including six amino acids and two derivatives from butyrate predicted 59% of AMEn variability. Moreover, to increase our knowledge of the molecular mechanisms controlling DE, we investigated1 H NMR metabolomes of ileal, caecal, and serum contents by fitting canonical sparse PLS. This analysis revealed strong associations between metabolites and DE. Models based on the ileal, caecal, and serum metabolome respectively explained 77%, 78%, and 74% of the variability of AMEn and its constitutive components (utilisation of starch, lipids, and nitrogen). In our conditions, the metabolites presenting the strongest associations with AMEn were proline in the serum, fumarate in the ileum and glucose in caeca. This study shows that serum metabolomics offers new opportunities to predict chicken DE.- Published
- 2018
- Full Text
- View/download PDF
32. Detection of QTL controlling digestive efficiency and anatomy of the digestive tract in chicken fed a wheat-based diet.
- Author
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Tran TS, Narcy A, Carré B, Gabriel I, Rideau N, Gilbert H, Demeure O, Bed'Hom B, Chantry-Darmon C, Boscher MY, Bastianelli D, Sellier N, Chabault M, Calenge F, Le Bihan-Duval E, Beaumont C, and Mignon-Grasteau S
- Subjects
- Animal Nutritional Physiological Phenomena, Animals, Body Weight, Chickens anatomy & histology, Chickens physiology, Female, Gastrointestinal Tract anatomy & histology, Gastrointestinal Tract physiology, Genome, Male, Triticum metabolism, Animal Feed, Chickens genetics, Quantitative Trait Loci
- Abstract
Background: Improving digestive efficiency is a major goal in poultry production, to reduce production costs, make possible the use of alternative feedstuffs and decrease the volume of manure produced. Since measuring digestive efficiency is difficult, identifying molecular markers associated with genes controlling this trait would be a valuable tool for selection. Detection of QTL (quantitative trait loci) was undertaken on 820 meat-type chickens in a F2 cross between D- and D+ lines divergently selected on low or high AMEn (apparent metabolizable energy value of diet corrected to 0 nitrogen balance) measured at three weeks in animals fed a low-quality diet. Birds were measured for 13 traits characterizing digestive efficiency (AMEn, coefficients of digestive utilization of starch, lipids, proteins and dry matter (CDUS, CDUL, CDUP, CDUDM)), anatomy of the digestive tract (relative weights of the proventriculus, gizzard and intestine and proventriculus plus gizzard (RPW, RGW, RIW, RPGW), relative length and density of the intestine (RIL, ID), ratio of proventriculus and gizzard to intestine weight (PG/I); and body weight at 23 days of age. Animals were genotyped for 6000 SNPs (single nucleotide polymorphisms) distributed on 28 autosomes, the Z chromosome and one unassigned linkage group., Results: Nine QTL for digestive efficiency traits, 11 QTL for anatomy-related traits and two QTL for body weight at 23 days of age were detected. On chromosome 20, two significant QTL at the genome level co-localized for CDUS and CDUDM, i.e. two traits that are highly correlated genetically. Moreover, on chromosome 16, chromosome-wide QTL for AMEn, CDUS, CDUDM and CDUP, on chromosomes 23 and 26, chromosome-wide QTL for CDUS, on chromosomes 16 and 26, co-localized QTL for digestive efficiency and the ratio of intestine length to body weight and on chromosome 27 a chromosome-wide QTL for CDUDM were identified., Conclusions: This study identified several regions of the chicken genome involved in the control of digestive efficiency. Further studies are necessary to identify the underlying genes and to validate these in commercial populations and breeding environments.
- Published
- 2014
- Full Text
- View/download PDF
33. Leaf fructose content is controlled by the vacuolar transporter SWEET17 in Arabidopsis.
- Author
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Chardon F, Bedu M, Calenge F, Klemens PA, Spinner L, Clement G, Chietera G, Léran S, Ferrand M, Lacombe B, Loudet O, Dinant S, Bellini C, Neuhaus HE, Daniel-Vedele F, and Krapp A
- Subjects
- Animals, Carbohydrate Metabolism, Cloning, Molecular, Plant Leaves metabolism, Polymerase Chain Reaction, Quantitative Trait Loci, Sequence Analysis, DNA, Stress, Physiological, Xenopus, Arabidopsis genetics, Arabidopsis metabolism, Arabidopsis Proteins genetics, Arabidopsis Proteins metabolism, Fructose metabolism, Membrane Transport Proteins genetics, Membrane Transport Proteins metabolism
- Abstract
In higher plants, soluble sugars are mainly present as sucrose, glucose, and fructose. Sugar allocation is based on both source-to-sink transport and intracellular transport between the different organelles and depends on actual plant requirements. Under abiotic stress conditions, such as nitrogen limitation, carbohydrates accumulate in plant cells. Despite an increasing number of genetic studies, the genetic architecture determining carbohydrate composition is poorly known. Using a quantitative genetics approach, we determined that the carrier protein SWEET17 is a major factor controlling fructose content in Arabidopsis leaves. We observed that when SWEET17 expression is reduced, either by induced or natural variation, fructose accumulates in leaves, suggesting an enhanced storage capacity. Subcellular localization of SWEET17-GFP to the tonoplast and functional expression in Xenopus oocytes showed that SWEET17 is the first vacuolar fructose transporter to be characterized in plants. Physiological studies in planta provide evidence that SWEET17 acts to export fructose out of the vacuole. Overall, our results suggest that natural variation in leaf fructose levels is controlled by the vacuolar fructose transporter SWEET17. SWEET17 is highly conserved across the plant kingdom; thus, these findings offer future possibilities to modify carbohydrate partitioning in crops., (Copyright © 2013 Elsevier Ltd. All rights reserved.)
- Published
- 2013
- Full Text
- View/download PDF
34. Toward integrative genomics study of genetic resistance to Salmonella and Campylobacter intestinal colonization in fowl.
- Author
-
Calenge F and Beaumont C
- Abstract
Salmonella enterica serotypes Enteritidis and Typhimurium and Campylobacter jejuni are responsible for most cases of food poisoning in Europe. These bacteria do not cause severe disease symptoms in chicken, but they are easily propagated by symptomless chicken carriers which cannot be easily isolated. This animal tolerance is detrimental to food safety. In this particular case, increasing animal's resistance is not sufficient, since some animals considered as resistant are able to carry bacteria during several weeks without displaying disease symptoms. We review studies aimed at evaluating the resistance of chicken to Salmonella and Campylobacter intestinal colonization, either a few days or several weeks after infection. While studies of the genetic control of Campylobacter colonization are only beginning, mostly due to technical difficulties in infection protocols, genetic studies of Salmonella colonization have been conducted for now more than 20 years. They have initially reported an estimation of the genetic parameters associated with resistance to Salmonella colonization and are now aimed at identifying the genomic regions controlling variation of this trait in experimental lines and commercial populations. With the advent of high-throughput genomics, we are closer than ever to identify the true genes controlling resistance to Enterobacteria colonization in chicken. The comparison of genes involved in early resistance to intestinal colonization with genes controlling resistance to bacteria persistence several weeks after infection (i.e., carrier-state) should soon highlight the differences between the molecular mechanisms underlying those two distinct phenotypes. It will also be highly interesting to compare the genes or genomic regions controlling Campylobacter and Salmonella, in order to evaluate the feasibility of a selection conducted on both bacteria simultaneously.
- Published
- 2012
- Full Text
- View/download PDF
35. Genomic selection for carrier-state resistance in chicken commercial lines.
- Author
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Calenge F, Legarra A, and Beaumont C
- Abstract
Background: Salmonella propagation by apparently healthy chicken and subsequent food security concerns could be decreased by the selection and use of chicken lines more resistant to carrier-state. In the present study we applied the first steps of the genomic selection methodology to assess the interest of including genetic markers for the genetic evaluation of hen lines infected with Salmonella Enteritidis., Methods: We studied commercial laying hen lines divergently selected for resistance to Salmonella carrier-state at two different ages. A total of 600 animals were typed with 1536 SNP markers and artificially infected with S. Enteritidis. Phenotypes were collected four weeks (young animals) or five weeks (adults) later. Two types of variance component analyses, including or not including SNP data, were performed and compared. All variance components were estimated by Bayesian methods and Gibbs sampling., Results: The comparison of both genetic analyses shows that SNP are efficient in capturing genetic variation, although none of them captures a large affect on the traits studied. Average accuracies do not change between analyses, showing that using SNP data does not really increase information., Conclusions: These preliminary results show that genomic selection for Salmonella carrier-state resistance in laying hens is promising, although a denser SNP coverage of the genome on a higher number of animals is needed to assess its feasibility and efficiency compared to classical pedigree evaluation.
- Published
- 2011
- Full Text
- View/download PDF
36. New QTL for resistance to Salmonella carrier-state identified on fowl microchromosomes.
- Author
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Calenge F, Vignal A, Demars J, Fève K, Menanteau P, Velge P, and Beaumont C
- Subjects
- Animals, Carrier State microbiology, Polymorphism, Single Nucleotide, Carrier State veterinary, Chickens genetics, Chickens microbiology, Poultry Diseases genetics, Poultry Diseases microbiology, Quantitative Trait Loci, Salmonella Infections, Animal genetics
- Abstract
Chicken's ability to carry Salmonella without displaying disease symptoms leads to an invisible propagation of Salmonella in poultry stocks. Using chicken lines more resistant to carrier state could improve both animal health and food safety. Previous studies identified several QTL for resistance to carrier state. To improve genome coverage and QTL detection power we produced a new set of 480 informative SNP markers and genotyped a larger number of animals. Ten additional microchromosomes could be covered when compared with previous studies. These new data led to the identification of 18 QTL significant at the chromosome-wide level. The only QTL significant at the genome-wide level were identified on microchromosomes 14 and 22 and have never been identified previously. Using a higher number of animals improved the power and the precision of QTL detection. Some of the QTL newly identified are located close to candidate genes or microsatellite markers previously identified for their involvement in the genetic control of resistance to Salmonella, which confirms their interest for selection purposes.
- Published
- 2011
- Full Text
- View/download PDF
37. Genetic control of resistance to salmonellosis and to Salmonella carrier-state in fowl: a review.
- Author
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Calenge F, Kaiser P, Vignal A, and Beaumont C
- Subjects
- Animals, Birds, Carrier State immunology, Cation Transport Proteins, Chromosomes, Eggs, Gene Expression Regulation, Meat, Poultry genetics, Poultry immunology, Salmonella immunology, Salmonella Infections, Animal immunology, Carrier State microbiology, Chickens genetics, Chickens immunology, Chickens microbiology, Quantitative Trait Loci, Salmonella genetics, Salmonella Infections, Animal genetics
- Abstract
Salmonellosis is a frequent disease in poultry stocks, caused by several serotypes of the bacterial species Salmonella enterica and sometimes transmitted to humans through the consumption of contaminated meat or eggs. Symptom-free carriers of the bacteria contribute greatly to the propagation of the disease in poultry stocks. So far, several candidate genes and quantitative trait loci (QTL) for resistance to carrier state or to acute disease have been identified using artificial infection of S. enterica serovar Enteritidis or S. enterica serovar Typhimurium strains in diverse genetic backgrounds, with several different infection procedures and phenotypic assessment protocols. This diversity in experimental conditions has led to a complex sum of results, but allows a more complete description of the disease. Comparisons among studies show that genes controlling resistance to Salmonella differ according to the chicken line studied, the trait assessed and the chicken's age. The loci identified are located on 25 of the 38 chicken autosomal chromosomes. Some of these loci are clustered in several genomic regions, indicating the possibility of a common genetic control for different models. In particular, the genomic regions carrying the candidate genes TLR4 and SLC11A1, the Major Histocompatibility Complex (MHC) and the QTL SAL1 are interesting for more in-depth studies. This article reviews the main Salmonella infection models and chicken lines studied under a historical perspective and then the candidate genes and QTL identified so far.
- Published
- 2010
- Full Text
- View/download PDF
38. Genome-wide Medicago truncatula small RNA analysis revealed novel microRNAs and isoforms differentially regulated in roots and nodules.
- Author
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Lelandais-Brière C, Naya L, Sallet E, Calenge F, Frugier F, Hartmann C, Gouzy J, and Crespi M
- Subjects
- Chromosome Mapping, Comparative Genomic Hybridization, Gene Expression Profiling, Gene Expression Regulation, Plant, Meristem genetics, Plant Roots genetics, RNA Processing, Post-Transcriptional, Sequence Analysis, RNA, Genome, Plant, Medicago truncatula genetics, MicroRNAs genetics, RNA, Plant genetics, Root Nodules, Plant genetics
- Abstract
Posttranscriptional regulation of a variety of mRNAs by small 21- to 24-nucleotide RNAs, notably the microRNAs (miRNAs), is emerging as a novel developmental mechanism. In legumes like the model Medicago truncatula, roots are able to develop a de novo meristem through the symbiotic interaction with nitrogen-fixing rhizobia. We used deep sequencing of small RNAs from root apexes and nodules of M. truncatula to identify 100 novel candidate miRNAs encoded by 265 hairpin precursors. New atypical precursor classes producing only specific 21- and 24-nucleotide small RNAs were found. Statistical analysis on sequencing reads abundance revealed specific miRNA isoforms in a same family showing contrasting expression patterns between nodules and root apexes. The differentially expressed conserved and nonconserved miRNAs may target a large variety of mRNAs. In root nodules, which show diverse cell types ranging from a persistent meristem to a fully differentiated central region, we discovered miRNAs spatially enriched in nodule meristematic tissues, vascular bundles, and bacterial infection zones using in situ hybridization. Spatial regulation of miRNAs may determine specialization of regulatory RNA networks in plant differentiation processes, such as root nodule formation.
- Published
- 2009
- Full Text
- View/download PDF
39. Natural variation for sulfate content in Arabidopsis thaliana is highly controlled by APR2.
- Author
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Loudet O, Saliba-Colombani V, Camilleri C, Calenge F, Gaudon V, Koprivova A, North KA, Kopriva S, and Daniel-Vedele F
- Subjects
- Arabidopsis Proteins physiology, Isoenzymes chemistry, Isoenzymes genetics, Isoenzymes physiology, Oxidation-Reduction, Oxidoreductases Acting on Sulfur Group Donors genetics, Quantitative Trait Loci, Arabidopsis enzymology, Arabidopsis genetics, Arabidopsis Proteins chemistry, Arabidopsis Proteins genetics, Genetic Variation, Oxidoreductases Acting on Sulfur Group Donors chemistry, Oxidoreductases Acting on Sulfur Group Donors physiology, Sulfates metabolism
- Abstract
Most agronomic traits of importance, whether physiological (such as nutrient use efficiency) or developmental (such as flowering time), are controlled simultaneously by multiple genes and their interactions with the environment. Here, we show that variation in sulfate content between wild Arabidopsis thaliana accessions Bay-0 and Shahdara is controlled by a major quantitative trait locus that results in a strong interaction with nitrogen availability in the soil. Combining genetic and biochemical results and using a candidate gene approach, we have cloned the underlying gene, showing how a single-amino acid substitution in a key enzyme of the assimilatory sulfate reduction pathway, adenosine 5'-phosphosulfate reductase, is responsible for a decrease in enzyme activity, leading to sulfate accumulation in the plant. This work illustrates the potential of natural variation as a source of new alleles of known genes, which can aid in the study of gene function and metabolic pathway regulation. Our new insights on sulfate assimilation may have an impact on sulfur fertilizer use and stress defense improvement.
- Published
- 2007
- Full Text
- View/download PDF
40. Natural variation for carbohydrate content in Arabidopsis. Interaction with complex traits dissected by quantitative genetics.
- Author
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Calenge F, Saliba-Colombani V, Mahieu S, Loudet O, Daniel-Vedele F, and Krapp A
- Subjects
- Arabidopsis genetics, Chromosome Mapping, Crosses, Genetic, Fructose metabolism, Genes, Plant, Glucose metabolism, Nitrogen metabolism, Starch metabolism, Sucrose metabolism, Arabidopsis metabolism, Carbohydrate Metabolism, Polymorphism, Genetic, Quantitative Trait Loci
- Abstract
Besides being a metabolic fuel, carbohydrates play important roles in plant growth and development, in stress responses, and as signal molecules. We exploited natural variation in Arabidopsis (Arabidopsis thaliana) to decipher the genetic architecture determining carbohydrate content. A quantitative trait locus (QTL) approach in the Bay-0 x Shahdara progeny grown in two contrasting nitrogen environments led to the identification of 39 QTLs for starch, glucose, fructose, and sucrose contents representing at least 14 distinct polymorphic loci. A major QTL for fructose content (FR3.4) and a QTL for starch content (ST3.4) were confirmed in heterogeneous inbred families. Several genes associated with carbon (C) metabolism colocalize with the identified QTL. QTLs for senescence-related traits, and for flowering time, water status, and nitrogen-related traits, previously detected with the same genetic material, colocalize with C-related QTLs. These colocalizations reflect the complex interactions of C metabolism with other physiological processes. QTL fine-mapping and cloning could thus lead soon to the identification of genes potentially involved in the control of different connected physiological processes.
- Published
- 2006
- Full Text
- View/download PDF
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