Your search keyword '"Boussaha, Mekki"' showing total 5 results

1. Whole genome sequencing reveals signals of adaptive admixture in Creole cattle.

Author

Ben-Jemaa S, Adam G, Boussaha M, Bardou P, Klopp C, Mandonnet N, and Naves M

Subjects

Animals, Cattle genetics, Genomics methods, Genotype, Polymorphism, Single Nucleotide, Whole Genome Sequencing veterinary, Genome, Selection, Genetic

Abstract

The Creole cattle from Guadeloupe (GUA) are well adapted to the tropical environment. Its admixed genome likely played an important role in such adaptation. Here, we sought to detect genomic signatures of selection in the GUA genome. For this purpose, we sequenced 23 GUA individuals and combined our data with sequenced genomes of 99 animals representative of European, African and indicine groups. We detect 17,228,983 single nucleotide polymorphisms (SNPs) in the GUA genome, providing the most detailed exploration, to date, of patterns of genetic variation in this breed. We confirm the higher level of African and indicine ancestries, compared to the European ancestry and we highlight the African origin of indicine ancestry in the GUA genome. We identify five strong candidate regions showing an excess of indicine ancestry and consistently supported across the different detection methods. These regions encompass genes with adaptive roles in relation to immunity, thermotolerance and physical activity. We confirmed a previously identified horn-related gene, RXFP2, as a gene under strong selective pressure in the GUA population likely owing to human-driven (socio-cultural) pressure. Findings from this study provide insight into the genetic mechanisms associated with resilience traits in livestock., (© 2023. The Author(s).)

Published

2023

2. A Bos taurus sequencing methods benchmark for assembly, haplotyping, and variant calling.

Author

Eché C, Iampietro C, Birbes C, Dréau A, Kuchly C, Di Franco A, Klopp C, Faraut T, Djebali S, Castinel A, Zytnicki M, Denis E, Boussaha M, Grohs C, Boichard D, Gaspin C, Milan D, and Donnadieu C

Subjects

Animals, Cattle, Female, Benchmarking, Genome, Sequence Analysis, DNA, Genomics, High-Throughput Nucleotide Sequencing

Abstract

Inspired by the production of reference data sets in the Genome in a Bottle project, we sequenced one Charolais heifer with different technologies: Illumina paired-end, Oxford Nanopore, Pacific Biosciences (HiFi and CLR), 10X Genomics linked-reads, and Hi-C. In order to generate haplotypic assemblies, we also sequenced both parents with short reads. From these data, we built two haplotyped trio high quality reference genomes and a consensus assembly, using up-to-date software packages. The assemblies obtained using PacBio HiFi reaches a size of 3.2 Gb, which is significantly larger than the 2.7 Gb ARS-UCD1.2 reference. The BUSCO score of the consensus assembly reaches a completeness of 95.8%, among highly conserved mammal genes. We also identified 35,866 structural variants larger than 50 base pairs. This assembly is a contribution to the bovine pangenome for the "Charolais" breed. These datasets will prove to be useful resources enabling the community to gain additional insight on sequencing technologies for applications such as SNP, indel or structural variant calling, and de novo assembly., (© 2023. The Author(s).)

Published

2023

3. In silico identification of variations in microRNAs with a potential impact on dairy traits using whole ruminant genome SNP datasets.

Author

Bourdon C, Boussaha M, Bardou P, Sanchez MP, Le Guillou S, Tribout T, Larroque H, Boichard D, Rupp R, Le Provost F, and Tosser-Klopp G

Subjects

Animals, Computational Biology methods, Genome-Wide Association Study methods, Polymorphism, Single Nucleotide, Sequence Analysis, DNA, Genetic Variation, Genome, Genomics methods, MicroRNAs genetics, Quantitative Trait Loci, Quantitative Trait, Heritable, Ruminants genetics

Abstract

MicroRNAs are small noncoding RNAs that have important roles in the lactation process and milk biosynthesis. Some polymorphisms have been studied in various livestock species from the perspective of pathology or production traits. To target variants that could be the causal variants of dairy traits, genetic variants of microRNAs expressed in the mammary gland or present in milk and localized in dairy quantitative trait loci (QTLs) were investigated in bovine, caprine, and ovine species. In this study, a total of 59,124 (out of 28 millions), 13,427 (out of 87 millions), and 4761 (out of 38 millions) genetic variants in microRNAs expressed in the mammary gland or present in milk were identified in bovine, caprine, and ovine species, respectively. A total of 4679 of these detected bovine genetic variants are located in dairy QTLs. In caprine species, 127 genetic variants are localized in dairy QTLs. In ovine species, no genetic variant was identified in dairy QTLs. This study leads to the detection of microRNA genetic variants of interest in the context of dairy production, taking advantage of whole genome data to identify microRNA genetic variants expressed in the mammary gland and localized in dairy QTLs., (© 2021. The Author(s).)

Published

2021

4. Sequence-based GWAS and post-GWAS analyses reveal a key role of SLC37A1, ANKH, and regulatory regions on bovine milk mineral content.

Author

Sanchez MP, Rocha D, Charles M, Boussaha M, Hozé C, Brochard M, Delacroix-Buchet A, Grosperrin P, and Boichard D

Subjects

Animals, Cattle genetics, Female, Genetic Variation genetics, Genome-Wide Association Study methods, Genotype, Lactation metabolism, Lactation physiology, Membrane Transport Proteins genetics, Membrane Transport Proteins metabolism, Minerals metabolism, Phenotype, Phosphate Transport Proteins genetics, Phosphate Transport Proteins metabolism, Polymorphism, Single Nucleotide genetics, Quantitative Trait, Heritable, Lactation genetics, Milk chemistry

Abstract

The mineral composition of bovine milk plays an important role in determining its nutritional and cheese-making value. Concentrations of the main minerals predicted from mid-infrared spectra produced during milk recording, combined with cow genotypes, provide a unique opportunity to decipher the genetic determinism of these traits. The present study included 1 million test-day predictions of Ca, Mg, P, K, Na, and citrate content from 126,876 Montbéliarde cows, of which 19,586 had genotype data available. All investigated traits were highly heritable (0.50-0.58), with the exception of Na (0.32). A sequence-based genome-wide association study (GWAS) detected 50 QTL (18 affecting two to five traits) and positional candidate genes and variants, mostly located in non-coding sequences. In silico post-GWAS analyses highlighted 877 variants that could be regulatory SNPs altering transcription factor (TF) binding sites or located in non-coding RNA (mainly lncRNA). Furthermore, we found 47 positional candidate genes and 45 TFs highly expressed in mammary gland compared to 90 other bovine tissues. Among the mammary-specific genes, SLC37A1 and ANKH, encoding proteins involved in ion transport were located in the most significant QTL. This study therefore highlights a comprehensive set of functional candidate genes and variants that affect milk mineral content.

Published

2021

5. Genome-wide scan for selection signatures reveals novel insights into the adaptive capacity in local North African cattle.

Author

Ben-Jemaa S, Mastrangelo S, Lee SH, Lee JH, and Boussaha M

Subjects

Africa, Northern, Animals, Breeding methods, Gene Frequency, Genetics, Population methods, Genomics methods, Genotype, Haplotypes, Phenotype, Quantitative Trait Loci genetics, Whole Genome Sequencing methods, Adaptation, Physiological genetics, Cattle genetics, Genome-Wide Association Study methods, Polymorphism, Single Nucleotide, Selection, Genetic

Abstract

Natural-driven selection is supposed to have left detectable signatures on the genome of North African cattle which are often characterized by the fixation of genetic variants associated with traits under selection pressure and/or an outstanding genetic differentiation with other populations at particular loci. Here, we investigate the population genetic structure and we provide a first outline of potential selection signatures in North African cattle using single nucleotide polymorphism genotyping data. After comparing our data to African, European and indicine cattle populations, we identified 36 genomic regions using three extended haplotype homozygosity statistics and 92 outlier markers based on Bayescan test. The 13 outlier windows detected by at least two approaches, harboured genes (e.g. GH1, ACE, ASIC3, HSPH1, MVD, BCL2, HIGD2A, CBFA2T3) that may be involved in physiological adaptations required to cope with environmental stressors that are typical of the North African area such as infectious diseases, extended drought periods, scarce food supply, oxygen scarcity in the mountainous areas and high-intensity solar radiation. Our data also point to candidate genes involved in transcriptional regulation suggesting that regulatory elements had also a prominent role in North African cattle response to environmental constraints. Our study yields novel insights into the unique adaptive capacity in these endangered populations emphasizing the need for the use of whole genome sequence data to gain a better understanding of the underlying molecular mechanisms.

Published

2020