Your search keyword '"Reverter Antonio"' showing total 10 results

1. Analyzing Cattle Activity Patterns with Ear Tag Accelerometer Data.

Author

Hu, Shuwen, Reverter, Antonio, Arablouei, Reza, Bishop-Hurley, Greg, McNally, Jody, Alvarenga, Flavio, and Ingham, Aaron

Subjects

*ACCELEROMETERS, *ANIMAL variation, *HIGHPASS electric filters, *CATTLE breeding, *ANIMAL welfare, *CATTLE breeds

Abstract

Simple Summary: We used smart ear tags with accelerometers to characterise the 24 h activity profiles of Angus and Brahman steers in different environments. The activity metric was calculated from accelerometer data that were either unprocessed or subject to a high-pass filtering method to remove the effect of gravity. We show that the median provides a robust measure of activity profiles over each day and the benefits of filtering accelerometer data. Distinct activity patterns can be seen between the different environments, but further studies are required to understand the impacts of cattle breed, environment and management practices. In this study, we equip two breeds of cattle located in tropical and temperate climates with smart ear tags containing triaxial accelerometers to measure their activity levels across different time periods. We produce activity profiles when measured by each of four statistical features, the mean, median, standard deviation, and median absolute deviation of the Euclidean norm of either unfiltered or high-pass-filtered accelerometer readings over five-minute windows. We then aggregate the values from the 5 min windows into hourly or daily (24 h) totals to produce activity profiles for animals kept in each of the test environments. To gain a better understanding of the variation between the peak and nadir activity levels within a 24 h period, we divide each day into multiple equal-length intervals, which can range from 2 to 96 intervals. We then calculate a statistical measure, called daily differential activity (DDA), by computing the differences in feature values for each interval pair. Our findings demonstrate that patterns within the activity profile are more clearly visualised from readings that have been subject to high-pass filtering and that the median of the acceleration vector norm is the most reliable feature for characterising activity and calculating the DDA measure. The underlying causes for these differences remain elusive and is likely attributable to environmental factors, cattle breeds, or management practices. Activity profiles produced from the standard deviation (a feature routinely applied to the quantification of activity level) showed less uniformity between animals and larger variation in values overall. Assessing activity using ear tag accelerometers holds promise for monitoring animal health and welfare. However, optimal results may only be attainable when true diurnal patterns are detected and accounted for. [ABSTRACT FROM AUTHOR]

Published

2024

2. Effect of CUX1 on the Proliferation of Hu Sheep Dermal Papilla Cells and on the Wnt/β-Catenin Signaling Pathway.

Author

Zhou, Hui, Huang, Sainan, Lv, Xiaoyang, Wang, Shanhe, Cao, Xiukai, Yuan, Zehu, Getachew, Tesfaye, Mwacharo, Joram M., Haile, Aynalem, Quan, Kai, Li, Yutao, Reverter, Antonio, and Sun, Wei

Subjects

CELL communication, CELLULAR signal transduction, HOMEOBOX proteins, DNA-binding proteins, SHEEP, WNT signal transduction, CATENINS

Abstract

CUT-like homeobox 1 protein (CUX1), also called CUX, CUTL1, and CDP, is a member of the DNA-binding protein homology family. Studies have shown that CUX1 is a transcription factor that plays an important role in the growth and development of hair follicles. The aim of this study was to investigate the effect of CUX1 on the proliferation of Hu sheep dermal papilla cells (DPCs) to reveal the role of CUX1 in hair follicle growth and development. First, the coding sequence (CDS) of CUX1 was amplified by PCR, and then CUX1 was overexpressed and knocked down in DPCs. A Cell Counting Kit-8 (CCK8), 5-ethynyl-2-deoxyuridine (EdU), and cell cycle assays were used to detect the changes in the proliferation and cell cycle of DPCs. Finally, the effects of overexpression and knockdown of CUX1 in DPCs on the expression of WNT10, MMP7, C-JUN, and other key genes in the Wnt/β-catenin signaling pathway were detected by RT-qPCR. The results showed that the 2034-bp CDS of CUX1 was successfully amplified. Overexpression of CUX1 enhanced the proliferative state of DPCs, significantly increased the number of S-phase cells, and decreased the number of G0/G1-phase cells (p < 0.05). CUX1 knockdown had the opposite effects. It was found that the expression of MMP7, CCND1 (both p < 0.05), PPARD, and FOSL1 (both p < 0.01) increased significantly after overexpression of CUX1 in DPCs, while the expression of CTNNB1 (p < 0.05), C-JUN, PPARD, CCND1, and FOSL1 (all p < 0.01) decreased significantly. In conclusion, CUX1 promotes proliferation of DPCs and affects the expression of key genes of the Wnt/β-catenin signaling pathway. The present study provides a theoretical basis to elucidate the mechanism underlying hair follicle development and lambskin curl pattern formation in Hu sheep. [ABSTRACT FROM AUTHOR]

Published

2023

3. Accuracy of Imputation of Microsatellite Markers from a 50K SNP Chip in Spanish Assaf Sheep.

Author

Marina, Héctor, Suarez-Vega, Aroa, Pelayo, Rocío, Gutiérrez-Gil, Beatriz, Reverter, Antonio, Esteban-Blanco, Cristina, and Arranz, Juan José

Subjects

MICROSATELLITE repeats, SHEEP breeds, SHEEP, SINGLE nucleotide polymorphisms, ANIMAL science, SHEEP diseases, ANIMAL societies, GENETIC markers

Abstract

Simple Summary: Parentage misassignments directly affect genetic gain in traditional breeding programs. The use of genetic markers facilitates parentage verification. In sheep, microsatellite markers and single nucleotide polymorphism (SNP) markers have been proposed by the International Society of Animal Sciences (ISAG) for parentage testing. Since the implementation of genomic selection, the microsatellite information used for parental testing in previous generations is gradually being replaced by SNPs. However, parentage verifications should all be performed using the same technology. A strategy for transitioning from microsatellites to SNP markers, while avoiding extra genotyping costs, is the imputation of microsatellite alleles from SNP haplotypes. This study aims to identify the optimum approach, using a minimum number of SNPs to accurately impute microsatellite markers and developing a low-density SNP chip for parentage verification in the Assaf sheep breed. The imputation approach described here reached high accuracies using a low number of SNP markers, which supports the development of a low-density SNP chip that could avoid the problems of genotyping with both technologies, being a cost-effective method for parentage testing. This study will help sheep breeders to perform parentage verification when different genotyping platforms have been used across generations. Transitioning from traditional to new genotyping technologies requires the development of bridging methodologies to avoid extra genotyping costs. This study aims to identify the optimum number of single nucleotide polymorphisms (SNPs) necessary to accurately impute microsatellite markers to develop a low-density SNP chip for parentage verification in the Assaf sheep breed. The accuracy of microsatellite marker imputation was assessed with three metrics: genotype concordance (C), genotype dosage (length r2), and allelic dosage (allelic r2), for all imputation scenarios tested (0.5–10 Mb microsatellite flanking SNP windows). The imputation accuracy for the three metrics analyzed for all haplotype lengths tested was higher than 0.90 (C), 0.80 (length r2), and 0.75 (allelic r2), indicating strong genotype concordance. The window with 2 Mb length provides the best accuracy for the imputation procedure and the design of an affordable low-density SNP chip for parentage testing. We additionally evaluated imputation performance under two null models, naive (imputing the most common allele) and random (imputing by randomly selecting the allele), which in comparison showed weak genotype concordances (0.41 and 0.15, respectively). Therefore, we describe a precise methodology in the present article to impute multiallelic microsatellite genotypes from a low-density SNP chip in sheep and solve the problem of parentage verification when different genotyping platforms have been used across generations. [ABSTRACT FROM AUTHOR]

Published

2021

4. Genome-Wide Co-Expression Distributions as a Metric to Prioritize Genes of Functional Importance.

Author

Alexandre, Pâmela A., Hudson, Nicholas J., Lehnert, Sigrid A., Fortes, Marina R. S., Naval-Sánchez, Marina, Nguyen, Loan T., Porto-Neto, Laercio R., and Reverter, Antonio

Subjects

REGULATOR genes, GENE expression, PHYSIOLOGICAL control systems, NUCLEOTIDE sequence, RNA sequencing

Abstract

Genome-wide gene expression analysis are routinely used to gain a systems-level understanding of complex processes, including network connectivity. Network connectivity tends to be built on a small subset of extremely high co-expression signals that are deemed significant, but this overlooks the vast majority of pairwise signals. Here, we developed a computational pipeline to assign to every gene its pair-wise genome-wide co-expression distribution to one of 8 template distributions shapes varying between unimodal, bimodal, skewed, or symmetrical, representing different proportions of positive and negative correlations. We then used a hypergeometric test to determine if specific genes (regulators versus non-regulators) and properties (differentially expressed or not) are associated with a particular distribution shape. We applied our methodology to five publicly available RNA sequencing (RNA-seq) datasets from four organisms in different physiological conditions and tissues. Our results suggest that genes can be assigned consistently to pre-defined distribution shapes, regarding the enrichment of differential expression and regulatory genes, in situations involving contrasting phenotypes, time-series, or physiological baseline data. There is indeed a striking additional biological signal present in the genome-wide distribution of co-expression values which would be overlooked by currently adopted approaches. Our method can be applied to extract further information from transcriptomic data and help uncover the molecular mechanisms involved in the regulation of complex biological process and phenotypes. [ABSTRACT FROM AUTHOR]

Published

2020

5. Exploring the Regulatory Potential of Long Non-Coding RNA in Feed Efficiency of Indicine Cattle.

Author

Alexandre, Pâmela A., Reverter, Antonio, Berezin, Roberta B., Porto-Neto, Laercio R., Ribeiro, Gabriela, Santana, Miguel H. A., Ferraz, José Bento S., and Fukumasu, Heidge

Subjects

*NON-coding RNA, *LINCRNA, *CATTLE, *ZEBUS, *BEEF cattle, *ARTIFICIAL selection of animals, *HYPOTHALAMUS

Abstract

Long non-coding RNA (lncRNA) can regulate several aspects of gene expression, being associated with complex phenotypes in humans and livestock species. In taurine beef cattle, recent evidence points to the involvement of lncRNA in feed efficiency (FE), a proxy for increased productivity and sustainability. Here, we hypothesized specific regulatory roles of lncRNA in FE of indicine cattle. Using RNA-Seq data from the liver, muscle, hypothalamus, pituitary gland and adrenal gland from Nellore bulls with divergent FE, we submitted new transcripts to a series of filters to confidently predict lncRNA. Then, we identified lncRNA that were differentially expressed (DE) and/or key regulators of FE. Finally, we explored lncRNA genomic location and interactions with miRNA and mRNA to infer potential function. We were able to identify 126 relevant lncRNA for FE in Bos indicus, some with high homology to previously identified lncRNA in Bos taurus and some possible specific regulators of FE in indicine cattle. Moreover, lncRNA identified here were linked to previously described mechanisms related to FE in hypothalamus-pituitary-adrenal axis and are expected to help elucidate this complex phenotype. This study contributes to expanding the catalogue of lncRNA, particularly in indicine cattle, and identifies candidates for further studies in animal selection and management. [ABSTRACT FROM AUTHOR]

Published

2020

6. Gene Networks Driving Genetic Variation in Milk and Cheese-Making Traits of Spanish Assaf Sheep.

Author

Marina, Héctor, Reverter, Antonio, Gutiérrez-Gil, Beatriz, Alexandre, Pâmela Almeida, Porto-Neto, Laercio R., Suárez-Vega, Aroa, Li, Yutao, Esteban-Blanco, Cristina, and Arranz, Juan-José

Subjects

*GENE regulatory networks, *CHEESEMAKING, *REGULATOR genes, *MILK, *SHEEP, *SHEEP milk

Abstract

Most of the milk produced by sheep is used for the production of high-quality cheese. Consequently, traits related to milk coagulation properties and cheese yield are economically important to the Spanish dairy industry. The present study aims to identify candidate genes and their regulators related to 14 milk and cheese-making traits and to develop a low-density panel of markers that could be used to predict an individual's genetic potential for cheese-making efficiency. In this study, we performed a combination of the classical genome-wide association study (GWAS) with a stepwise regression method and a pleiotropy analysis to determine the best combination of the variants located within the confidence intervals of the potential candidate genes that may explain the greatest genetic variance for milk and cheese-making traits. Two gene networks related to milk and cheese-making traits were created using the genomic relationship matrices built through a stepwise multiple regression approach. Several co-associated genes in these networks are involved in biological processes previously found to be associated with milk synthesis and cheese-making efficiency. The methodology applied in this study enabled the selection of a co-association network comprised of 374 variants located in the surrounding of genes showing a potential influence on milk synthesis and cheese-making efficiency. [ABSTRACT FROM AUTHOR]

Published

2020

7. Identification and Annotation of Potential Function of Regulatory Antisense Long Non-Coding RNAs Related to Feed Efficiency in Bos taurus Bulls.

Author

Nolte, Wietje, Weikard, Rosemarie, Brunner, Ronald M., Albrecht, Elke, Hammon, Harald M., Reverter, Antonio, and Kühn, Christa

Subjects

LINCRNA, CATTLE, NON-coding RNA, POTENTIAL functions, ACUTE phase reaction, BULLS

Abstract

Long non-coding RNAs (lncRNAs) can influence transcriptional and translational processes in mammalian cells and are associated with various developmental, physiological and phenotypic conditions. However, they remain poorly understood and annotated in livestock species. We combined phenotypic, metabolomics and liver transcriptomic data of bulls divergent for residual feed intake (RFI) and fat accretion. Based on a project-specific transcriptome annotation for the bovine reference genome ARS-UCD.1.2 and multiple-tissue total RNA sequencing data, we predicted 3590 loci to be lncRNAs. To identify lncRNAs with potential regulatory influence on phenotype and gene expression, we applied the regulatory impact factor algorithm on a functionally prioritized set of loci (n = 4666). Applying the algorithm of partial correlation and information theory, significant and independent pairwise correlations were calculated and co-expression networks were established, including plasma metabolites correlated with lncRNAs. The network hub lncRNAs were assessed for potential cis-actions and subjected to biological pathway enrichment analyses. Our results reveal a prevalence of antisense lncRNAs positively correlated with adjacent protein-coding genes and suggest their participation in mitochondrial function, acute phase response signalling, TCA-cycle, fatty acid β-oxidation and presumably gluconeogenesis. These antisense lncRNAs indicate a stabilizing function for their cis-correlated genes and a putative regulatory role in gene expression. [ABSTRACT FROM AUTHOR]

Published

2020

8. The Efficacy of Sunitinib Treatment of Renal Cancer Cells Is Associated with the Protein PHAX In Vitro.

Author

Al-Lamki, Rafia S., Hudson, Nicholas J., Bradley, John R., Warren, Anne Y., Eisen, Tim, Welsh, Sarah J., Riddick, Antony C. P., O'Mahony, Fiach C., Turnbull, Arran, Powles, Thomas, Reverter, Antonio, Harrison, David J., and Stewart, Grant D.

Subjects

RENAL cancer, ORGAN culture, CANCER cells, TREATMENT effectiveness, RENAL cell carcinoma, BIOLOGICAL networks, CANCER cell culture

Abstract

Anti-angiogenic agents, such as the multi-tyrosine kinase inhibitor sunitinib, are key first line therapies for metastatic clear cell renal cell carcinoma (ccRCC), but their mechanism of action is not fully understood. Here, we take steps towards validating a computational prediction based on differential transcriptome network analysis that phosphorylated adapter RNA export protein (PHAX) is associated with sunitinib drug treatment. The regulatory impact factor differential network algorithm run on patient tissue samples suggests PHAX is likely an important regulator through changes in genome-wide network connectivity. Immunofluorescence staining of patient tumours showed strong localisation of PHAX to the microvasculature consistent with the anti-angiogenic effect of sunitinib. In normal kidney tissue, PHAX protein abundance was low but increased with tumour grade (G1 vs. G3/4; p < 0.01), consistent with a possible role in cancer progression. In organ culture, ccRCC cells had higher levels of PHAX protein expression than normal kidney cells, and sunitinib increased PHAX protein expression in a dose dependent manner (untreated vs. 100 µM; p < 0.05). PHAX knockdown in a ccRCC organ culture model impacted the ability of sunitinib to cause cancer cell death (p < 0.0001 untreated vs. treated), suggesting a role for PHAX in mediating the efficacy of sunitinib. [ABSTRACT FROM AUTHOR]

Published

2020

9. Gene Networks Driving Genetic Variation in Milk and Cheese-Making Traits of Spanish Assaf Sheep

Author

Marina, Héctor, Producción Animal, Marina, Héctor, Reverter, Antonio, Gutiérrez-Gil, Beatriz, Alexandre, Pâmela Almeida, Porto-Neto, Laercio R., Suárez-Vega, Aroa, Li, Yutao, Esteban-Blanco, Cristina, Arranz, Juan-José, Marina, Héctor, Producción Animal, Marina, Héctor, Reverter, Antonio, Gutiérrez-Gil, Beatriz, Alexandre, Pâmela Almeida, Porto-Neto, Laercio R., Suárez-Vega, Aroa, Li, Yutao, Esteban-Blanco, Cristina, and Arranz, Juan-José

Abstract

Most of the milk produced by sheep is used for the production of high-quality cheese. Consequently, traits related to milk coagulation properties and cheese yield are economically important to the Spanish dairy industry. The present study aims to identify candidate genes and their regulators related to 14 milk and cheese-making traits and to develop a low-density panel of markers that could be used to predict an individual’s genetic potential for cheese-making efficiency. In this study, we performed a combination of the classical genome-wide association study (GWAS) with a stepwise regression method and a pleiotropy analysis to determine the best combination of the variants located within the confidence intervals of the potential candidate genes that may explain the greatest genetic variance for milk and cheese-making traits. Two gene networks related to milk and cheese-making traits were created using the genomic relationship matrices built through a stepwise multiple regression approach. Several co-associated genes in these networks are involved in biological processes previously found to be associated with milk synthesis and cheese-making efficiency. The methodology applied in this study enabled the selection of a co-association network comprised of 374 variants located in the surrounding of genes showing a potential influence on milk synthesis and cheese-making efficiency.

10. Gene Networks Driving Genetic Variation in Milk and Cheese-Making Traits of Spanish Assaf Sheep

Author

Producción Animal, Marina, Héctor, Reverter, Antonio, Gutiérrez-Gil, Beatriz, Alexandre, Pâmela Almeida, Porto-Neto, Laercio R., Suárez-Vega, Aroa, Li, Yutao, Esteban-Blanco, Cristina, Arranz, Juan-José, Producción Animal, Marina, Héctor, Reverter, Antonio, Gutiérrez-Gil, Beatriz, Alexandre, Pâmela Almeida, Porto-Neto, Laercio R., Suárez-Vega, Aroa, Li, Yutao, Esteban-Blanco, Cristina, and Arranz, Juan-José

Abstract

Most of the milk produced by sheep is used for the production of high-quality cheese. Consequently, traits related to milk coagulation properties and cheese yield are economically important to the Spanish dairy industry. The present study aims to identify candidate genes and their regulators related to 14 milk and cheese-making traits and to develop a low-density panel of markers that could be used to predict an individual’s genetic potential for cheese-making efficiency. In this study, we performed a combination of the classical genome-wide association study (GWAS) with a stepwise regression method and a pleiotropy analysis to determine the best combination of the variants located within the confidence intervals of the potential candidate genes that may explain the greatest genetic variance for milk and cheese-making traits. Two gene networks related to milk and cheese-making traits were created using the genomic relationship matrices built through a stepwise multiple regression approach. Several co-associated genes in these networks are involved in biological processes previously found to be associated with milk synthesis and cheese-making efficiency. The methodology applied in this study enabled the selection of a co-association network comprised of 374 variants located in the surrounding of genes showing a potential influence on milk synthesis and cheese-making efficiency.