Your search keyword '"Leibniz Institute for Farm Animal Biology"' showing total 17 results

1. Beyond Back Splicing, a Still Poorly Explored World: Non-Canonical Circular RNAs

Author

Christa Kühn, Annie Robic, Génétique Physiologie et Systèmes d'Elevage (GenPhySE ), Ecole Nationale Vétérinaire de Toulouse (ENVT), Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-Institut National Polytechnique (Toulouse) (Toulouse INP), Université Fédérale Toulouse Midi-Pyrénées-Université Fédérale Toulouse Midi-Pyrénées-École nationale supérieure agronomique de Toulouse [ENSAT]-Institut National de Recherche pour l’Agriculture, l’Alimentation et l’Environnement (INRAE), Leibniz Institute for Farm Animal Biology (FBN), and University of Rostock

Subjects

0301 basic medicine, sisRNA, lariat-derived circRNA, lcsh:QH426-470, [SDV]Life Sciences [q-bio], RNA Splicing, Computational biology, Biology, intron circle, 03 medical and health sciences, Exon, 0302 clinical medicine, Genetics, Animals, Humans, annotation of circRNAs, Back splicing, Genetics (clinical), back splicing, General function, Intron, intron lariat, RNA, Circular, lcsh:Genetics, 030104 developmental biology, Non canonical, Gene Expression Regulation, Perspective, sub-exonic circRNA, 030217 neurology & neurosurgery

Abstract

International audience; Most of the circRNAs reported to date originate from back splicing of a pre-mRNA, and these exonic circRNAs are termed canonical circRNAs. Our objective was to provide an overview of all other (non-canonical) circRNAs that do not originate from the junction of two exons and to characterize their common properties. Those generated through a failure of intron lariat debranching are the best known, even though studies on them are rare. These circRNAs retain the 2 '-5 ' bond derived from the intron lariat, and this feature probably explains the difficulties in obtaining efficient reverse transcription through the circular junction. Here, we provide an unprecedented overview of non-canonical circRNAs (lariat-derived intronic circRNAs, sub-exonic circRNAs, intron circles, tricRNAs), which all derive from non-coding sequences. As there are few data suggesting their involvement in cellular regulatory processes, we believe that it is early to propose a general function for circRNAs, even for lariat-derived circRNAs. We suggest that their small size and probably strong secondary structures could be major obstacles to their reliable detection. Nevertheless, we believe there are still several possible ways to advance our knowledge of this class of non-coding RNA.

Published

2020

2. Evaluation of Immune Status in Two Cohorts of Atlantic Salmon Raised in Different Aquaculture Systems (Case Study).

Author

Lund H, Bakke A, Boysen P, Afanasyev S, Rebl A, Manji F, Ritchie G, and Krasnov A

Subjects

Animals, Aquaculture, Gills metabolism, Humans, Seawater, Salmo salar genetics

Abstract

Assessment of immune competence of farmed Atlantic salmon is especially important during smoltification and the first several months in the sea. Recently developed tools were applied to salmon raised in a traditional flow-through facility (FT, cohort 1) and in a recirculation aquaculture system (RAS, cohort 2). Fish were sampled at four time-points: parr, smolt, and at three weeks and three months after seawater transfer (SWT); expression of 85 selected immune and stress genes, IgM transcripts (Ig-seq), and circulating antibodies were analyzed. A steady increase in gene expression was seen over time in gill and spleen in both cohorts, and especially in antiviral and inflammatory genes in the gill. Differences between the cohorts were greatest in the dorsal fin but later leveled off. Comparison with a gill reference dataset found a deviation in only three of 85 fish, suggesting a good immune status in both cohorts. Levels of both specific and nonspecific antibodies were higher in cohort 2 in smolts and in growers three weeks after SWT; however, levels evened out after three months in the sea. Ig-seq indicated association between antibody production, expansion of the largest clonotypes, and massive migration of B cells from spleen to gill in smolts. The results suggested greater agitation and higher reactivity of the immune system in RAS-produced salmon, but the difference between the cohorts leveled off over time.

Published

2022

3. Erratum: Ali et al. In Utero Fetal Weight in Pigs Is Regulated by microRNAs and Their Target Genes. Genes 2021, 12 , 1264.

Author

Ali A, Murani E, Hadlich F, Liu X, Wimmers K, and Ponsuksili S

Abstract

The authors wish to make the following correction to their paper published in Genes [...].

Published

2021

4. In Utero Fetal Weight in Pigs Is Regulated by microRNAs and Their Target Genes.

Author

Ali A, Murani E, Hadlich F, Liu X, Wimmers K, and Ponsuksili S

Subjects

Animals, Female, Fetal Development genetics, Fetal Growth Retardation physiopathology, Fetal Weight genetics, Gene Expression Regulation, Developmental genetics, High-Throughput Nucleotide Sequencing, Muscle, Skeletal embryology, Pregnancy, Swine, Transcriptome genetics, Fetal Growth Retardation genetics, MicroRNAs genetics, Muscle Development genetics, Muscle, Skeletal growth & development

Abstract

Impaired skeletal muscle growth in utero can result in reduced birth weight and poor carcass quality in pigs. Recently, we showed the role of microRNAs (miRNAs) and their target genes in prenatal skeletal muscle development and pathogenesis of intrauterine growth restriction (IUGR). In this study, we performed an integrative miRNA-mRNA transcriptomic analysis in longissimus dorsi muscle (LDM) of pig fetuses at 63 days post conception (dpc) to identify miRNAs and genes correlated to fetal weight. We found 13 miRNAs in LDM significantly correlated to fetal weight, including miR-140, miR-186, miR-101, miR-15, miR-24, miR-29, miR-449, miR-27, miR-142, miR-99, miR-181, miR-199, and miR-210. The expression of these miRNAs decreased with an increase in fetal weight. We also identified 1315 genes significantly correlated to fetal weight at 63 dpc, of which 135 genes were negatively correlated as well as identified as potential targets of the above-listed 13 miRNAs. These miRNAs and their target genes enriched pathways and biological processes important for fetal growth, development, and metabolism. These results indicate that the transcriptomic profile of skeletal muscle can be used to predict fetal weight, and miRNAs correlated to fetal weight can serve as potential biomarkers of prenatal fetal health and growth.

Published

2021

5. Genome-Wide Analysis for Early Growth-Related Traits of the Locally Adapted Egyptian Barki Sheep.

Author

Abousoliman I, Reyer H, Oster M, Murani E, Mohamed I, and Wimmers K

Subjects

Animals, Egypt, Genome-Wide Association Study, Polymorphism, Single Nucleotide, Sheep growth & development, Weaning, Sheep genetics

Abstract

Sheep play a critical role in the agricultural and livestock sector in Egypt. For sheep meat production, growth traits such as birth and weaning weights are very important and determine the supply and income of local farmers. The Barki sheep originates from the northeastern coastal zone of Africa, and due to its good adaptation to the harsh environmental conditions, it contributes significantly to the meat production in these semi-arid regions. This study aimed to use a genome-wide SNP panel to identify genomic regions that are diversified between groups of individuals of Egyptian Barki sheep with high and low growth performance traits. In this context, from a phenotyped population of 140 lambs of Barki sheep, 69 lambs were considered for a genome-wide scan with the Illumina OvineSNP50 V2 BeadChip. The selected lambs were grouped into divergent subsets with significantly different performance for birth weight and weaning weight. After quality control, 63 animals and 40,383 SNPs were used for analysis. The fixation index ( F ST ) for each SNP was calculated between the groups. The results verified genomic regions harboring some previously proposed candidate genes for traits related to body growth, i.e., EYA2 , GDF2 , GDF10 , MEF2B , SLC16A7 , TBX15 , TFAP2B , and TNNC2 . Moreover, novel candidate genes were proposed with known functional implications on growth processes such as CPXM2 and LRIG3 . Subsequent association analysis showed significant effects of the considered SNPs on birth and weaning weights. Results highlight the genetic diversity associated with performance traits and thus the potential to improve growth traits in the Barki sheep breed.

Published

2021

6. Genomic Structure of the Porcine CYP19 Locus and Expression of the CYP19A3 Paralog.

Author

Vanselow J, Conley AJ, Corbin CJ, and Berger T

Subjects

Animals, Female, Male, Aromatase genetics, Aryl Hydrocarbon Hydroxylases genetics, Gene Expression Regulation, Enzymologic, Genome, Genomics methods, Promoter Regions, Genetic, Swine genetics

Abstract

Proper, tissue-specific regulation of CYP19 , the gene encoding aromatase, the key enzyme of estrogen synthesis, is essential for reproductive processes. Here, we analyzed transcriptional regulation of the porcine CYP19 in female and male gonads and brain by 5'RACE and RT-PCR and comprehensively mapped the pig CYP19 locus by in silico analysis. Our data revealed that the complete locus, including three paralogous copies, CYP19A1 , CYP19A2 and CYP19A3 , spans approximately 330 kb of the porcine chromosome 1. The locus also harbors the first exon of the Gliomedin gene ( GLDN ) in reverse orientation. Only transcripts of the CYP19A3 paralog were substantially expressed in gonads and hypothalamus. We identified CYP19A3 -associated untranslated exons approximately 160 kb and 50 kb distal from the first codon. The 5´ untranslated regions of transcripts were derived from either a proximal or from one of these distal untranslated exons. Transcripts including only untranslated exons could be amplified from testis, thus suggesting long non-coding transcripts. The data revealed an additional layer of complexity in the regulation of the porcine CYP19 locus. Tissue-specific expression is not only achieved by tissue- and stage-specific expression of the three different CYP19 paralogs, but also by directing the expression of CYP19A3 from different, proximal and distal promoter regions.

Published

2021

7. PUFA Treatment Affects C2C12 Myocyte Differentiation, Myogenesis Related Genes and Energy Metabolism.

Author

Risha MA, Siengdee P, Dannenberger D, Wimmers K, and Ponsuksili S

Subjects

Animals, Arachidonic Acid metabolism, Arachidonic Acid pharmacology, Cell Differentiation genetics, Cell Line, Cell Proliferation drug effects, Docosahexaenoic Acids metabolism, Docosahexaenoic Acids pharmacology, Energy Metabolism drug effects, Gene Expression Regulation, Developmental drug effects, Humans, Mice, Muscle Cells drug effects, Muscle Development drug effects, Myogenin biosynthesis, Wnt Signaling Pathway drug effects, Cell Differentiation drug effects, Fatty Acids, Unsaturated pharmacology, Muscle Development genetics, Myogenic Regulatory Factor 5 genetics, Myogenin genetics

Abstract

Polyunsaturated fatty acids (PUFAs) are the main components of cell membrane affecting its fluidity, signaling processes and play a vital role in muscle cell development. The effects of docosahexaenoic acid (DHA) on myogenesis are well known, while the effects of arachidonic acid (AA) are largely unclear. The purpose of this study is to evaluate the effect of two PUFAs (DHA and AA) on cell fate during myogenic processes, Wnt signaling and energy metabolism by using the C2C12 cells. The cells were treated with different concentrations of AA or DHA for 48 h during the differentiation period. PUFA treatment increased mRNA level of myogenic factor 5 ( Myf5 ), which is involved in early stage of myoblast proliferation. Additionally, PUFA treatment prevented myoblast differentiation, indicated by decreased myotube fusion index and differentiation index in parallel with reduced mRNA levels of myogenin ( MyoG ). After PUFA withdrawal, some changes in cell morphology and myosin heavy chain mRNA levels were still observed. Expression of genes associated with Wnt signaling pathway, and energy metabolism changed in PUFA treatment in a dose and time dependent manner. Our data suggests that PUFAs affect the transition of C2C12 cells from proliferation to differentiation phase by prolonging proliferation and preventing differentiation.

Published

2021

8. Multigene Expression Assay for Assessment of the Immune Status of Atlantic Salmon.

Author

Krasnov A, Afanasyev S, Nylund S, and Rebl A

Subjects

Adaptive Immunity immunology, Animals, Gills immunology, Immunity, Innate immunology, Multifactorial Inheritance genetics, Polymerase Chain Reaction methods, Transcriptome genetics, Adaptive Immunity genetics, Gene Expression Profiling methods, Immunity, Innate genetics, Salmo salar genetics, Salmo salar immunology

Abstract

We report the development of a multigene gene expression assay on the BioMark HD platform for the evaluation of immune competence (ImCom) in farmed Atlantic salmon. The first version of the assay included 92 genes selected on the basis of transcriptome analyses in 54 trials that challenged the immune system; annotations were taken into account to represent the key pathways of innate and adaptive immunity. ImCom was tested on samples collected from seven independent projects. Fish were reared from the start feeding to eight months in the sea at eight units in different parts of Norway. Several tissues were analyzed. Linear discriminant analysis (LDA) showed that no more than 10 genes were required to separate groups, and a set of 46 immune genes was sufficient for any task. The second version of the assay was tested in the gills of two groups of high-performing healthy smolts and in groups with intermediate and high mortality rates (IM and HM, respectively). A set of 645 gill samples from clinically healthy Atlantic salmon was used as a reference. The IM group showed general suppression of immunity. All HM group salmon were above the threshold by the squared deviation from the reference. This group showed marked upregulation of genes involved in acute stress and inflammation: mmp-9, mmp-13, hsp70, il-1b, lect2 , and cathelicidin . Further work will clarify the boundaries of the norm and explore various cases of impaired immunity.

Published

2020

9. Beyond Back Splicing, a Still Poorly Explored World: Non-Canonical Circular RNAs.

Author

Robic A and Kühn C

Subjects

Animals, Humans, RNA, Circular genetics, Gene Expression Regulation, RNA Splicing, RNA, Circular metabolism

Abstract

Most of the circRNAs reported to date originate from back splicing of a pre-mRNA, and these exonic circRNAs are termed canonical circRNAs. Our objective was to provide an overview of all other (non-canonical) circRNAs that do not originate from the junction of two exons and to characterize their common properties. Those generated through a failure of intron lariat debranching are the best known, even though studies on them are rare. These circRNAs retain the 2'-5' bond derived from the intron lariat, and this feature probably explains the difficulties in obtaining efficient reverse transcription through the circular junction. Here, we provide an unprecedented overview of non-canonical circRNAs (lariat-derived intronic circRNAs, sub-exonic circRNAs, intron circles, tricRNAs), which all derive from non-coding sequences. As there are few data suggesting their involvement in cellular regulatory processes, we believe that it is early to propose a general function for circRNAs, even for lariat-derived circRNAs. We suggest that their small size and probably strong secondary structures could be major obstacles to their reliable detection. Nevertheless, we believe there are still several possible ways to advance our knowledge of this class of non-coding RNA.

Published

2020

10. Omics Application in Animal Science-A Special Emphasis on Stress Response and Damaging Behaviour in Pigs.

Author

Kasper C, Ribeiro D, Almeida AM, Larzul C, Liaubet L, and Murani E

Subjects

Animals, Animals, Domestic, Behavior, Animal, Biomarkers, Breeding, Genetic Association Studies, Systems Biology, Genomics methods, Metabolomics methods, Proteomics methods, Stress, Physiological genetics, Swine genetics, Swine metabolism

Abstract

Increasing stress resilience of livestock is important for ethical and profitable meat and dairy production. Susceptibility to stress can entail damaging behaviours, a common problem in pig production. Breeding animals with increased stress resilience is difficult for various reasons. First, studies on neuroendocrine and behavioural stress responses in farm animals are scarce, as it is difficult to record adequate phenotypes under field conditions. Second, damaging behaviours and stress susceptibility are complex traits, and their biology is not yet well understood. Dissecting complex traits into biologically better defined, heritable and easily measurable proxy traits and developing biomarkers will facilitate recording these traits in large numbers. High-throughput molecular technologies ("omics") study the entirety of molecules and their interactions in a single analysis step. They can help to decipher the contributions of different physiological systems and identify candidate molecules that are representative of different physiological pathways. Here, we provide a general overview of different omics approaches and we give examples of how these techniques could be applied to discover biomarkers. We discuss the genetic dissection of the stress response by different omics techniques and we provide examples and outline potential applications of omics tools to understand and prevent outbreaks of damaging behaviours.

Published

2020

11. Comparative Analysis of the Transcriptome and Distribution of Putative SNPs in Two Rainbow Trout ( Oncorhynchus mykiss ) Breeding Strains by Using Next-Generation Sequencing.

Author

de Los Ríos-Pérez L, Brunner RM, Hadlich F, Rebl A, Kühn C, Wittenburg D, Goldammer T, and Verleih M

Subjects

Animals, Molecular Sequence Annotation, Oncorhynchus mykiss classification, Oncorhynchus mykiss growth & development, Species Specificity, Gene Regulatory Networks, Genetic Markers, High-Throughput Nucleotide Sequencing methods, Oncorhynchus mykiss genetics, Polymorphism, Single Nucleotide, Transcriptome

Abstract

Selective breeding can significantly improve the establishment of sustainable and profitable aquaculture fish farming. For rainbow trout ( Oncorhynchus mykiss ), one of the main aquaculture coldwater species in Europe, a variety of selected hatchery strains are commercially available. In this study, we investigated the genetic variation between the local Born strain, selected for survival, and the commercially available Silver Steelhead strain, selected for growth. We sequenced the transcriptome of six tissues (gills, head kidney, heart, liver, spleen, and white muscle) from eight healthy individuals per strain, using RNA-seq technology to identify strain-specific gene-expression patterns and single nucleotide polymorphisms (SNPs). In total, 1760 annotated genes were differentially expressed across all tissues. Pathway analysis assigned them to different gene networks. We also identified a set of SNPs, which are heterozygous for one of the two breeding strains: 1229 of which represent polymorphisms over all tissues and individuals. Our data indicate a strong genetic differentiation between Born and Silver Steelhead trout, despite the relatively short time of evolutionary separation of the two breeding strains. The results most likely reflect their specifically adapted genotypes and might contribute to the understanding of differences regarding their robustness toward high stress and pathogenic challenge described in former studies.

Published

2020

12. Indication of Premelanosome Protein (PMEL) Expression Outside of Pigmented Bovine Skin Suggests Functions Beyond Eumelanogenesis.

Author

Knaust J, Weikard R, Albrecht E, Brunner RM, Günther J, and Kühn C

Subjects

Alleles, Animals, Cattle, Gene Expression Regulation genetics, Humans, Melanins biosynthesis, Melanocytes metabolism, Mutation genetics, Phenotype, Exome Sequencing, Melanins genetics, Melanosomes genetics, Skin Pigmentation genetics, gp100 Melanoma Antigen genetics

Abstract

The premelanosome protein (PMEL) is important for fibril formation within melanosomes during vertebrate melanogenesis. Fibrils form a matrix for pigment deposition within pigmented tissues such as skin and hair. PMEL mutations are known to modulate eumelanic pigmentation in vertebrates. However, in bovines, PMEL mutations were also found to alter pheomelanic pigmentation resulting in coat color dilution. Furthermore, epistatic effects of a mutated PMEL allele were detected in the phenotypic expression of the bovine hair defect "rat-tail syndrome" (RTS) characterized by charcoal coat color and hair deformation. Reports about PMEL gene expression in non-pigmented tissues raised the hypothesis that there may be unknown functions of the PMEL protein beyond eumelanin deposition to PMEL fibrils. In our study, we analysed the PMEL protein expression in pigmented skin and non-pigmented bovine tissues (non-pigmented skin, thyroid gland, rumen, liver, kidney, and adrenal gland cortex). We found that a processed form of the bovine PMEL protein is expressed in pigmented as well as in non-pigmented tissues, which is in line with gene expression data from targeted RT-PCR and whole transcriptome RNAseq analysis. The PMEL protein is located in membranes and within the cytosol of epithelial cells. Based on our data from bovine tissues, we concluded that at least in cattle PMEL potentially has additional, yet unexplored functions, which might contribute to effects of PMEL mutations on pheomelanin coat color dilution and charcoal coat color in RTS animals. However, indication of PMEL protein in unpigmented cells and tissues will require further confirmation in the future, because there have been no confirmed reports before, which had detected bovine PMEL protein with specific antibodies either in pigmented or unpigmented tissue.

Published

2020

13. Differentially Expressed miRNA-Gene Targets Related to Intramuscular Fat in Musculus Longissimus Dorsi of Charolais × Holstein F 2 -Crossbred Bulls.

Author

Mir BA, Reyer H, Komolka K, Ponsuksili S, Kühn C, and Maak S

Subjects

Animals, Cattle, Gene Expression Regulation genetics, Male, Meat, MicroRNAs classification, Adipogenesis genetics, Computational Biology, Lipid Metabolism genetics, MicroRNAs genetics

Abstract

Intramuscular fat (IMF) is a meat quality indicator associated with taste and juiciness. IMF deposition, influenced by genetic and non-genetic factors, occurs through a transcriptionally coordinated process of adipogenesis. MicroRNAs (miRNAs) are transcriptional regulators of vital biological processes, including lipid metabolism and adipogenesis. However, in bovines, limited data on miRNA profiling and association with divergent intramuscular fat content, regulated exclusively by genetic parameters, have been reported. Here, a microarray experiment was performed to identify and characterize the miRNA expression pattern in the Musculus longissimus dorsi of F 2 -cross (Charolais × German Holstein) bulls with high and low IMF. A total of 38 differentially expressed miRNAs (DE miRNAs), including 33 upregulated and 5 downregulated (corrected p -value ≤ 0.05, FC ≥ ±1.2), were reported. Among DE miRNAs, the upregulated miRNAs miR-105a/b, miR-695, miR-1193, miR-1284, miR-1287-5p, miR-3128, miR-3178, miR-3910, miR-4443, miR-4445 and miR-4745, and the downregulated miRNAs miR-877-5p, miR-4487 and miR-4706 were identified as novel fat deposition regulators. DE miRNAs were further analyzed, along with previously identified differentially expressed genes (DEGs) from the same samples and predicted target genes, using multiple bioinformatic approaches, including target prediction tools and co-expression networks, as well as Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) enrichment. We identified DE miRNAs and their gene targets associated with bovine intramuscular adipogenesis, and we provide a basis for further functional investigations.

Published

2020

14. Coat Color Roan Shows Association with KIT Variants and No Evidence of Lethality in Icelandic Horses.

Author

Voß K, Tetens J, Thaller G, and Becker D

Subjects

Animals, Breeding, Color, Genes, Lethal genetics, Horse Diseases pathology, Mutation genetics, Phenotype, Hair Color genetics, Horse Diseases genetics, Horses genetics, Proto-Oncogene Proteins c-kit genetics

Abstract

Roan (Rn) horses show a typical seasonal change of color. Their body is covered with colored and white hair. We performed a descriptive statistical analysis of breeding records of Icelandic horses to challenge the hypothesis of roan being lethal in utero under homozygous condition. The roan to non-roan ratio of foals from roan × roan matings revealed homozygous roan Icelandic horses to be viable. Even though roan is known to be inherited in a dominant mode and epistatic to other coat colors, the causative mutation is still unknown. Nevertheless, an association between roan phenotype and the KIT gene was shown for different horse breeds. In the present study, we identified KIT variants by Sanger sequencing, and show that KIT is also associated with roan in the Icelandic horse breed.

Published

2020

15. Gene Profiling in the Adipose Fin of Salmonid Fishes Supports its Function as a Flow Sensor.

Author

Koll R, Martorell Ribera J, Brunner RM, Rebl A, and Goldammer T

Subjects

Adiposity genetics, Adiposity physiology, Animal Fins metabolism, Animal Welfare, Animals, Liver, Mechanoreceptors physiology, Oncorhynchus mykiss metabolism, Salmonidae genetics, Salmonidae physiology, Skin, Transcriptome genetics, Animal Fins physiology, Oncorhynchus mykiss genetics

Abstract

In stock enhancement and sea-ranching procedures, the adipose fin of hundreds of millions of salmonids is removed for marking purposes annually. However, recent studies proved the significance of the adipose fin as a flow sensor and attraction feature. In the present study, we profiled the specific expression of 20 neuron- and glial cell-marker genes in the adipose fin and seven other tissues (including dorsal and pectoral fin, brain, skin, muscle, head kidney, and liver) of the salmonid species rainbow trout Oncorhynchus mykiss and maraena whitefish Coregonus Moreover, we measured the transcript abundance of genes coding for 15 mechanoreceptive channel proteins from a variety of mechanoreceptors known in vertebrates. The overall expression patterns indicate the presence of the entire repertoire of neurons, glial cells and receptor proteins on the RNA level. This quantification suggests that the adipose fin contains considerable amounts of small nerve fibers with unmyelinated or slightly myelinated axons and most likely mechanoreceptive potential. The findings are consistent for both rainbow trout and maraena whitefish and support a previous hypothesis about the innervation and potential flow sensory function of the adipose fin. Moreover, our data suggest that the resection of the adipose fin has a stronger impact on the welfare of salmonid fish than previously assumed.maraena . Moreover, we measured the transcript abundance of genes coding for 15 mechanoreceptive channel proteins from a variety of mechanoreceptors known in vertebrates. The overall expression patterns indicate the presence of the entire repertoire of neurons, glial cells and receptor proteins on the RNA level. This quantification suggests that the adipose fin contains considerable amounts of small nerve fibers with unmyelinated or slightly myelinated axons and most likely mechanoreceptive potential. The findings are consistent for both rainbow trout and maraena whitefish and support a previous hypothesis about the innervation and potential flow sensory function of the adipose fin. Moreover, our data suggest that the resection of the adipose fin has a stronger impact on the welfare of salmonid fish than previously assumed., Competing Interests: The authors declare no conflict of interest.

Published

2019

16. The First Highly Contiguous Genome Assembly of Pikeperch ( Sander lucioperca ), an Emerging Aquaculture Species in Europe.

Author

Nguinkal JA, Brunner RM, Verleih M, Rebl A, de Los Ríos-Pérez L, Schäfer N, Hadlich F, Stüeken M, Wittenburg D, and Goldammer T

Subjects

Animals, Fish Proteins genetics, Molecular Sequence Annotation, Perches classification, Phylogeny, Whole Genome Sequencing, Genome, Perches genetics

Abstract

The pikeperch ( Sander lucioperca ) is a fresh and brackish water Percid fish natively inhabiting the northern hemisphere. This species is emerging as a promising candidate for intensive aquaculture production in Europe. Specific traits like cannibalism, growth rate and meat quality require genomics based understanding, for an optimal husbandry and domestication process. Still, the aquaculture community is lacking an annotated genome sequence to facilitate genome-wide studies on pikeperch. Here, we report the first highly contiguous draft genome assembly of Sander lucioperca . In total, 413 and 66 giga base pairs of DNA sequencing raw data were generated with the Illumina platform and PacBio Sequel System, respectively. The PacBio data were assembled into a final assembly size of ~900 Mb covering 89% of the 1,014 Mb estimated genome size. The draft genome consisted of 1966 contigs ordered into 1,313 scaffolds. The contig and scaffold N50 lengths are 3.0 Mb and 4.9 Mb, respectively. The identified repetitive structures accounted for 39% of the genome. We utilized homologies to other ray-finned fishes, and ab initio gene prediction methods to predict 21,249 protein-coding genes in the Sander lucioperca genome, of which 88% were functionally annotated by either sequence homology or protein domains and signatures search. The assembled genome spans 97.6% and 96.3% of Vertebrate and Actinopterygii single-copy orthologs, respectively. The outstanding mapping rate (99.9%) of genomic PE-reads on the assembly suggests an accurate and nearly complete genome reconstruction. This draft genome sequence is the first genomic resource for this promising aquaculture species. It will provide an impetus for genomic-based breeding studies targeting phenotypic and performance traits of captive pikeperch.

Published

2019

17. Breed, Diet, and Interaction Effects on Adipose Tissue Transcriptome in Iberian and Duroc Pigs Fed Different Energy Sources.

Author

Benítez R, Trakooljul N, Núñez Y, Isabel B, Murani E, De Mercado E, Gómez-Izquierdo E, García-Casco J, López-Bote C, Wimmers K, and Óvilo C

Subjects

Animals, Dietary Carbohydrates metabolism, Nutrigenomics, Sunflower Oil metabolism, Swine growth & development, Swine metabolism, Adipose Tissue metabolism, Diet veterinary, Hybridization, Genetic, Swine genetics, Transcriptome

Abstract

In this study, we analyzed the effects of breed, diet energy source, and their interaction on adipose tissue transcriptome in growing Iberian and Duroc pigs. The study comprised 29 Iberian and 19 Duroc males, which were kept under identical management conditions except the nutritional treatment. Two isoenergetic diets were used with 6% high oleic sunflower oil (HO) or carbohydrates (CH) as energy sources. All animals were slaughtered after 47 days of treatment at an average live weight of 51.2 kg. Twelve animals from each breed (six fed each diet) were employed for ham subcutaneous adipose tissue RNA-Seq analysis. The data analysis was performed using two different bioinformatic pipelines. We detected 837 and 1456 differentially expressed genes (DEGs) according to breed, depending on the pipeline. Due to the strong effect of breed on transcriptome, the effect of the diet was separately evaluated in the two breeds. We identified 207 and 57 DEGs depending on diet in Iberian and Duroc pigs, respectively. A joint analysis of both effects allowed the detection of some breed-diet interactions on transcriptome, which were inferred from RNA-Seq and quantitative PCR data. The functional analysis showed the enrichment of functions related to growth and tissue development, inflammatory response, immune cell trafficking, and carbohydrate and lipid metabolism, and allowed the identification of potential regulators. The results indicate different effects of diet on adipose tissue gene expression between breeds, affecting relevant biological pathways.

Published

2019