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2. Single-Step Genome Editing of Small Ruminant Embryos by Electroporation

Author

Mahdi, Ahmed K, Medrano, Juan F, and Ross, Pablo J

Subjects
Biochemistry and Cell Biology, Biological Sciences, Medicinal and Biomolecular Chemistry, Chemical Sciences, Microbiology, Genetics, Animals, CRISPR-Cas Systems, Electroporation, Gene Editing, Goats, Ruminants, Sheep, Zygote, RNA, Small Untranslated, genome editing, CRISPR-Cas9, electroporation, single step, small ruminants, Other Chemical Sciences, Other Biological Sciences, Chemical Physics, Biochemistry and cell biology, Medicinal and biomolecular chemistry
Abstract

We investigated the possibility of single-step genome editing in small ruminants by CRISPR-Cas9 zygote electroporation. We targeted SOCS2 and PDX1 in sheep embryos and OTX2 in goat embryos, utilizing a dual sgRNA approach. Gene editing efficiency was compared between microinjection and three different electroporation settings performed at four different times of embryo development. Electroporation of sheep zygotes 6 h after fertilization with settings that included short high-voltage (poring) and long low-voltage (transfer) pulses was efficient at producing SOCS2 knock-out blastocysts. The mutation rate after CRISPR/Cas9 electroporation was 95.6% ± 8%, including 95.4% ± 9% biallelic mutations; which compared favorably to 82.3% ± 8% and 25% ± 10%, respectively, when using microinjection. We also successfully disrupted the PDX1 gene in sheep and the OTX2 gene in goat embryos. The biallelic mutation rate was 81 ± 5% for PDX1 and 85% ± 6% for OTX2. In conclusion, using single-step CRISPR-Cas9 zygote electroporation, we successfully introduced biallelic deletions in the genome of small ruminant embryos.

Published
2022

3. Functional annotations of three domestic animal genomes provide vital resources for comparative and agricultural research.

Author

Kern, Colin, Wang, Ying, Xu, Xiaoqin, Pan, Zhangyuan, Halstead, Michelle, Chanthavixay, Ganrea, Saelao, Perot, Waters, Susan, Xiang, Ruidong, Chamberlain, Amanda, Korf, Ian, Delany, Mary E, Cheng, Hans H, Medrano, Juan F, Van Eenennaam, Alison L, Tuggle, Chris K, Ernst, Catherine, Flicek, Paul, Quon, Gerald, Ross, Pablo, and Zhou, Huaijun

Subjects
Animals, Animals, Domestic, Chickens, Cattle, Swine, Mice, Transcription Factors, Phylogeny, Organ Specificity, Gene Expression Regulation, Epigenesis, Genetic, Amino Acid Motifs, Regulatory Sequences, Nucleic Acid, Polymorphism, Single Nucleotide, Genome, Enhancer Elements, Genetic, Genome-Wide Association Study, Epigenomics, Chromatin Immunoprecipitation Sequencing
Abstract

Gene regulatory elements are central drivers of phenotypic variation and thus of critical importance towards understanding the genetics of complex traits. The Functional Annotation of Animal Genomes consortium was formed to collaboratively annotate the functional elements in animal genomes, starting with domesticated animals. Here we present an expansive collection of datasets from eight diverse tissues in three important agricultural species: chicken (Gallus gallus), pig (Sus scrofa), and cattle (Bos taurus). Comparative analysis of these datasets and those from the human and mouse Encyclopedia of DNA Elements projects reveal that a core set of regulatory elements are functionally conserved independent of divergence between species, and that tissue-specific transcription factor occupancy at regulatory elements and their predicted target genes are also conserved. These datasets represent a unique opportunity for the emerging field of comparative epigenomics, as well as the agricultural research community, including species that are globally important food resources.

Published
2021

4. Large-Scale Multiplexing Permits Full-Length Transcriptome Annotation of 32 Bovine Tissues From a Single Nanopore Flow Cell

Author

Halstead, Michelle M, Islas-Trejo, Alma, Goszczynski, Daniel E, Medrano, Juan F, Zhou, Huaijun, and Ross, Pablo J

Subjects
Human Genome, Biotechnology, Genetics, Generic health relevance, transcriptome, annotation, cattle, tissue-specific, alternative splicyng, long-read sequencing, full-length transcript, Clinical Sciences, Law
Abstract

A comprehensive annotation of transcript isoforms in domesticated species is lacking. Especially considering that transcriptome complexity and splicing patterns are not well-conserved between species, this presents a substantial obstacle to genomic selection programs that seek to improve production, disease resistance, and reproduction. Recent advances in long-read sequencing technology have made it possible to directly extrapolate the structure of full-length transcripts without the need for transcript reconstruction. In this study, we demonstrate the power of long-read sequencing for transcriptome annotation by coupling Oxford Nanopore Technology (ONT) with large-scale multiplexing of 93 samples, comprising 32 tissues collected from adult male and female Hereford cattle. More than 30 million uniquely mapping full-length reads were obtained from a single ONT flow cell, and used to identify and characterize the expression dynamics of 99,044 transcript isoforms at 31,824 loci. Of these predicted transcripts, 21% exactly matched a reference transcript, and 61% were novel isoforms of reference genes, substantially increasing the ratio of transcript variants per gene, and suggesting that the complexity of the bovine transcriptome is comparable to that in humans. Over 7,000 transcript isoforms were extremely tissue-specific, and 61% of these were attributed to testis, which exhibited the most complex transcriptome of all interrogated tissues. Despite profiling over 30 tissues, transcription was only detected at about 60% of reference loci. Consequently, additional studies will be necessary to continue characterizing the bovine transcriptome in additional cell types, developmental stages, and physiological conditions. However, by here demonstrating the power of ONT sequencing coupled with large-scale multiplexing, the task of exhaustively annotating the bovine transcriptome - or any mammalian transcriptome - appears significantly more feasible.

Published
2021

5. A comparative analysis of chromatin accessibility in cattle, pig, and mouse tissues

Author

Halstead, Michelle M, Kern, Colin, Saelao, Perot, Wang, Ying, Chanthavixay, Ganrea, Medrano, Juan F, Van Eenennaam, Alison L, Korf, Ian, Tuggle, Christopher K, Ernst, Catherine W, Zhou, Huaijun, and Ross, Pablo J

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Animals, Cattle, Chromatin, Chromatin Immunoprecipitation Sequencing, Genome, Male, Mice, Molecular Sequence Annotation, Promoter Regions, Genetic, Regulatory Sequences, Nucleic Acid, Swine, Chromatin accessibility, Functional annotation, Pig, Comparative epigenomics, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences
Abstract

BackgroundAlthough considerable progress has been made towards annotating the noncoding portion of the human and mouse genomes, regulatory elements in other species, such as livestock, remain poorly characterized. This lack of functional annotation poses a substantial roadblock to agricultural research and diminishes the value of these species as model organisms. As active regulatory elements are typically characterized by chromatin accessibility, we implemented the Assay for Transposase Accessible Chromatin (ATAC-seq) to annotate and characterize regulatory elements in pigs and cattle, given a set of eight adult tissues.ResultsOverall, 306,304 and 273,594 active regulatory elements were identified in pig and cattle, respectively. 71,478 porcine and 47,454 bovine regulatory elements were highly tissue-specific and were correspondingly enriched for binding motifs of known tissue-specific transcription factors. However, in every tissue the most prevalent accessible motif corresponded to the insulator CTCF, suggesting pervasive involvement in 3-D chromatin organization. Taking advantage of a similar dataset in mouse, open chromatin in pig, cattle, and mice were compared, revealing that the conservation of regulatory elements, in terms of sequence identity and accessibility, was consistent with evolutionary distance; whereas pig and cattle shared about 20% of accessible sites, mice and ungulates only had about 10% of accessible sites in common. Furthermore, conservation of accessibility was more prevalent at promoters than at intergenic regions.ConclusionsThe lack of conserved accessibility at distal elements is consistent with rapid evolution of enhancers, and further emphasizes the need to annotate regulatory elements in individual species, rather than inferring elements based on homology. This atlas of chromatin accessibility in cattle and pig constitutes a substantial step towards annotating livestock genomes and dissecting the regulatory link between genome and phenome.

Published
2020

6. De novo assembly of the cattle reference genome with single-molecule sequencing.

Author

Rosen, Benjamin D, Bickhart, Derek M, Schnabel, Robert D, Koren, Sergey, Elsik, Christine G, Tseng, Elizabeth, Rowan, Troy N, Low, Wai Y, Zimin, Aleksey, Couldrey, Christine, Hall, Richard, Li, Wenli, Rhie, Arang, Ghurye, Jay, McKay, Stephanie D, Thibaud-Nissen, Françoise, Hoffman, Jinna, Murdoch, Brenda M, Snelling, Warren M, McDaneld, Tara G, Hammond, John A, Schwartz, John C, Nandolo, Wilson, Hagen, Darren E, Dreischer, Christian, Schultheiss, Sebastian J, Schroeder, Steven G, Phillippy, Adam M, Cole, John B, Van Tassell, Curtis P, Liu, George, Smith, Timothy PL, and Medrano, Juan F

Subjects
Animals, Cattle, Sequence Analysis, DNA, Breeding, Genomics, Polymorphism, Genetic, Genome, Reference Standards, RNA-Seq, Hereford, bovine genome, cattle, reference assembly, Human Genome, Biotechnology, Genetics
Abstract

BackgroundMajor advances in selection progress for cattle have been made following the introduction of genomic tools over the past 10-12 years. These tools depend upon the Bos taurus reference genome (UMD3.1.1), which was created using now-outdated technologies and is hindered by a variety of deficiencies and inaccuracies.ResultsWe present the new reference genome for cattle, ARS-UCD1.2, based on the same animal as the original to facilitate transfer and interpretation of results obtained from the earlier version, but applying a combination of modern technologies in a de novo assembly to increase continuity, accuracy, and completeness. The assembly includes 2.7 Gb and is >250× more continuous than the original assembly, with contig N50 >25 Mb and L50 of 32. We also greatly expanded supporting RNA-based data for annotation that identifies 30,396 total genes (21,039 protein coding). The new reference assembly is accessible in annotated form for public use.ConclusionsWe demonstrate that improved continuity of assembled sequence warrants the adoption of ARS-UCD1.2 as the new cattle reference genome and that increased assembly accuracy will benefit future research on this species.

Published
2020

7. Deducing signaling pathways from parallel actions of arsenite and antimonite in human epidermal keratinocytes.

Author

Phillips, Marjorie A, Cánovas, Angela, Rea, Miguel A, Islas-Trejo, Alma, Medrano, Juan F, Durbin-Johnson, Blythe, Rocke, David M, and Rice, Robert H

Subjects
Epidermis, Keratinocytes, Humans, Arsenites, Antimony, Adrenal Cortex Hormones, Ephrins, Transcription Factors, RNA, Messenger, Colony-Forming Units Assay, Gene Expression Profiling, Signal Transduction, Oncostatin M, Cancer, Skin
Abstract

Inorganic arsenic oxides have been identified as carcinogens in several human tissues, including epidermis. Due to the chemical similarity between trivalent inorganic arsenic (arsenite) and antimony (antimonite), we hypothesized that common intracellular targets lead to similarities in cellular responses. Indeed, transcriptional and proteomic profiling revealed remarkable similarities in differentially expressed genes and proteins resulting from exposure of cultured human epidermal keratinocytes to arsenite and antimonite in contrast to comparisons of arsenite with other metal compounds. These data were analyzed to predict upstream regulators and affected signaling pathways following arsenite and antimonite treatments. A majority of the top findings in each category were identical after treatment with either compound. Inspection of the predicted upstream regulators led to previously unsuspected roles for oncostatin M, corticosteroids and ephrins in mediating cellular response. The influence of these predicted mediators was then experimentally verified. Together with predictions of transcription factor effects more generally, the analysis has led to model signaling networks largely accounting for arsenite and antimonite action. The striking parallels between responses to arsenite and antimonite indicate the skin carcinogenic risk of exposure to antimonite merits close scrutiny.

Published
2020

8. Transcriptomic Profiles of Monocyte-Derived Macrophages in Response to Escherichia coli is Associated with the Host Genetics.

Author

Emam, Mehdi, Cánovas, Angela, Islas-Trejo, Alma D, Fonseca, Pablo AS, Medrano, Juan F, and Mallard, Bonnie

Subjects
Macrophages, Animals, Cattle, Escherichia coli, Nitric Oxide, Transcription Factors, RNA, Messenger, Genomics, Phagocytosis, Macrophage Activation, Phenotype, Polymorphism, Genetic, Time Factors, Nitric Oxide Synthase Type II, Transcriptome
Abstract

Reactive Nitrogen Species (RNS) are a group of bactericidal molecules produced by macrophages in response to pathogens in a process called oxidative burst. Nitric oxide (NO-) is a member of RNS produced from arginine by inducible Nitric Oxide Synthase (iNOS) enzyme. The activity of iNOS and production of NO- by macrophages following stimulation is one of the indicators of macrophage polarization towards M1/proinflammatory. Production of NO- by bovine monocyte-derived macrophage (MDM) and mouse peritoneal macrophages has been shown to be strongly associated with host genetic with the heritability of 0.776 in bovine MDM and 0.8 in mouse peritoneal macrophages. However, the mechanism of genetic regulation of macrophage response has remained less explored. In the current study, the transcriptome of bovine MDMs was compared between two extreme phenotypes that had been classified as high and low responder based on NO- production. The results showed that 179 and 392 genes were differentially expressed (DE) between high and low responder groups at 3 and 18 hours after exposure to Escherichia coli, respectively. A set of 11 Transcription Factors (TFs) (STAT1, IRF7, SPI1, STAT4, IRF1, HIF1A, FOXO3, REL, NFAT5, HIC1, and IRF4) at 3 hours and a set of 13 TFs (STAT1, IRF1, HIF1A, STAT4, ATF4, TP63, EGR1, CDKN2A, RBL1, E2F1, PRDM1, GATA3, and IRF4) at 18 hours after exposure to E. coli were identified to be differentially regulated between the high and low responder phenotypes. These TFs were found to be divided into two clusters of inflammatory- and hypoxia-related TFs. Functional analysis revealed that some key canonical pathways such as phagocytosis, chemotaxis, antigen presentation, and cell-to-cell signalling are enriched among the over-expressed genes by high responder phenotype. Based on the results of this study, it was inferred that the functional characteristics of bovine MDMs are associated with NO-based classification. Since NO- production is strongly associated with host genetics, this study for the first time shows the distinct proinflammatory profiles of macrophages are controlled by the natural genetic polymorphism in an outbred population. In addition, the results suggest that genetics can be considered as a new dimension in the current model of macrophage polarization which is currently described by the combination of stimulants, only.

Published
2020

9. Non-Coding RNA Sequencing of Equine Endometrium During Maternal Recognition of Pregnancy.

Author

Klohonatz, Kristin M, Coleman, Stephen J, Cameron, Ashley D, Hess, Ann M, Reed, Kailee J, Canovas, Angela, Medrano, Juan F, Islas-Trejo, Alma D, Kalbfleisch, Ted, Bouma, Gerrit J, and Bruemmer, Jason E

Subjects
Endometrium, Animals, Horses, RNA, Untranslated, Pregnancy, Pregnancy, Animal, Female, Transcriptome, embryo, endometrium, equine, maternal recognition of pregnancy, non-coding RNA, pregnancy, Animal, RNA, Untranslated, Genetics
Abstract

Maternal recognition of pregnancy (MRP) in the mare is not well defined. In a non-pregnant mare, prostaglandin F2α (PGF) is released on day 14 post-ovulation (PO) to cause luteal regression, resulting in loss of progesterone production. Equine MRP occurs prior to day 14 to halt PGF production. Studies have failed to identify a gene candidate for MRP, so attention has turned to small, non-coding RNAs. The objective of this study was to evaluate small RNA (

Published
2019

10. Coding RNA Sequencing of Equine Endometrium during Maternal Recognition of Pregnancy.

Author

Klohonatz, Kristin M, Coleman, Stephen J, Islas-Trejo, Alma D, Medrano, Juan F, Hess, Ann M, Kalbfleisch, Ted, Thomas, Milton G, Bouma, Gerrit J, and Bruemmer, Jason E

Subjects
Endometrium, Animals, Horses, Sequence Analysis, RNA, Pregnancy, Pregnancy, Animal, Female, Transcriptome, equine, maternal recognition of pregnancy, pregnancy, transcriptome, Animal, Sequence Analysis, RNA, Genetics
Abstract

Equine maternal recognition of pregnancy (MRP) is a process whose signal remains unknown. During MRP the conceptus and endometrium communicate to attenuate prostaglandin F2α (PGF) secretion, sparing the corpus luteum and maintaining progesterone production. Recognition of a mobile conceptus by the endometrium is critical by days 14-16 post-ovulation (PO), when endometrium produces PGF, initiating luteolysis. The objective of this study was to evaluate endometrial gene expression changes based upon pregnancy status via RNA sequencing. This experiment utilized a cross-over design with each mare serving as both a pregnant and non-mated control on days nine, 11, and 13 PO (n = 3/status/day). Mares were randomly assigned to collection day and pregnancy confirmed by terminal uterine lavage at the time of endometrial biopsy. Total RNA was isolated and libraries prepared using Illumina TruSeq RNA sample preparation kit. Reads were mapped and annotated using HISAT2 and Stringtie. Expression values were evaluated with DESEQ2 (P ≤ 0.05 indicated significance). On day nine, 11, and 13 there were 1435, 1435 and 916 significant transcripts, respectively. Multiple genes with splice variants had different expression patterns within the same day. These are the first data to evaluate the endometrial transcriptome during MRP on days nine, 11, and 13.

Published
2019

11. Genome-wide identification of tissue-specific long non-coding RNA in three farm animal species

Author

Kern, Colin, Wang, Ying, Chitwood, James, Korf, Ian, Delany, Mary, Cheng, Hans, Medrano, Juan F, Van Eenennaam, Alison L, Ernst, Catherine, Ross, Pablo, and Zhou, Huaijun

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Biotechnology, Generic health relevance, Animals, Animals, Domestic, Cattle, Chickens, Gene Expression Profiling, Gene Expression Regulation, Genome, High-Throughput Nucleotide Sequencing, Male, Molecular Sequence Annotation, Organ Specificity, RNA, Long Noncoding, Swine, Long non-coding RNAs, Gene regulation, Epigenetics, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences
Abstract

BackgroundNumerous long non-coding RNAs (lncRNAs) have been identified and their roles in gene regulation in humans, mice, and other model organisms studied; however, far less research has been focused on lncRNAs in farm animal species. While previous studies in chickens, cattle, and pigs identified lncRNAs in specific developmental stages or differentially expressed under specific conditions in a limited number of tissues, more comprehensive identification of lncRNAs in these species is needed. The goal of the FAANG Consortium (Functional Annotation of Animal Genomes) is to functionally annotate animal genomes, including the annotation of lncRNAs. As one of the FAANG pilot projects, lncRNAs were identified across eight tissues in two adult male biological replicates from chickens, cattle, and pigs.ResultsComprehensive lncRNA annotations for the chicken, cattle, and pig genomes were generated by utilizing RNA-seq from eight tissue types from two biological replicates per species at the adult developmental stage. A total of 9393 lncRNAs in chickens, 7235 lncRNAs in cattle, and 14,429 lncRNAs in pigs were identified. Including novel isoforms and lncRNAs from novel loci, 5288 novel lncRNAs were identified in chickens, 3732 in cattle, and 4870 in pigs. These transcripts match previously known patterns of lncRNAs, such as generally lower expression levels than mRNAs and higher tissue specificity. An analysis of lncRNA conservation across species identified a set of conserved lncRNAs with potential functions associated with chromatin structure and gene regulation. Tissue-specific lncRNAs were identified. Genes proximal to tissue-specific lncRNAs were enriched for GO terms associated with the tissue of origin, such as leukocyte activation in spleen.ConclusionsLncRNAs were identified in three important farm animal species using eight tissues from adult individuals. About half of the identified lncRNAs were not previously reported in the NCBI annotations for these species. While lncRNAs are less conserved than protein-coding genes, a set of positionally conserved lncRNAs were identified among chickens, cattle, and pigs with potential functions related to chromatin structure and gene regulation. Tissue-specific lncRNAs have potential regulatory functions on genes enriched for tissue-specific GO terms. Future work will include epigenetic data from ChIP-seq experiments to further refine these annotations.

Published
2018

12. STAT6, PBX2, and PBRM1 Emerge as Predicted Regulators of 452 Differentially Expressed Genes Associated With Puberty in Brahman Heifers

Author

Nguyen, Loan T, Reverter, Antonio, Cánovas, Angela, Venus, Bronwyn, Anderson, Stephen T, Islas-Trejo, Alma, Dias, Marina M, Crawford, Natalie F, Lehnert, Sigrid A, Medrano, Juan F, Thomas, Milt G, Moore, Stephen S, and Fortes, Marina RS

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Biotechnology, Liver Disease, Digestive Diseases, Aetiology, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Underpinning research, Reproductive health and childbirth, Bos indicus, puberty, gene expression, RNA sequencing, gene network, liver, Clinical Sciences, Law
Abstract

The liver plays a central role in metabolism and produces important hormones. Hepatic estrogen receptors and the release of insulin-like growth factor 1 (IGF1) are critical links between liver function and the reproductive system. However, the role of liver in pubertal development is not fully understood. To explore this question, we applied transcriptomic analyses to liver samples of pre- and post-pubertal Brahman heifers and identified differentially expressed (DE) genes and genes encoding transcription factors (TFs). Differential expression of genes suggests potential biological mechanisms and pathways linking liver function to puberty. The analyses identified 452 DE genes and 82 TF with significant contribution to differential gene expression by using a regulatory impact factor metric. Brain-derived neurotrophic factor was observed as the most down-regulated gene (P = 0.003) in post-pubertal heifers and we propose this gene influences pubertal development in Brahman heifers. Additionally, co-expression network analysis provided evidence for three TF as key regulators of liver function during pubertal development: the signal transducer and activator of transcription 6, PBX homeobox 2, and polybromo 1. Pathway enrichment analysis identified transforming growth factor-beta and Wnt signaling pathways as significant annotation terms for the list of DE genes and TF in the co-expression network. Molecular information regarding genes and pathways described in this work are important to further our understanding of puberty onset in Brahman heifers.

Published
2018

13. Combining multi-OMICs information to identify key-regulator genes for pleiotropic effect on fertility and production traits in beef cattle.

Author

Fonseca, Pablo Augusto de Souza, Id-Lahoucine, Samir, Reverter, Antonio, Medrano, Juan F, Fortes, Marina S, Casellas, Joaquim, Miglior, Filippo, Brito, Luiz, Carvalho, Maria Raquel S, Schenkel, Flávio S, Nguyen, Loan T, Porto-Neto, Laercio R, Thomas, Milton G, and Cánovas, Angela

Subjects
Thyroid Gland, Animals, Cattle, Microfilament Proteins, Muscle Proteins, Proto-Oncogene Proteins c-myc, PPAR gamma, Breeding, Proteomics, Gene Expression Regulation, Reproduction, Fertility, Quantitative Trait, Heritable, Quantitative Trait Loci, Meat, Databases, Genetic, Female, Male, Gene Regulatory Networks, Selection, Genetic, Data Mining, Genetic Pleiotropy, Molecular Sequence Annotation, Gene Ontology, Glycogen Synthase Kinase 3 beta, Databases, Genetic, Quantitative Trait, Heritable, Selection, General Science & Technology
Abstract

The identification of biological processes related to the regulation of complex traits is a difficult task. Commonly, complex traits are regulated through a multitude of genes contributing each to a small part of the total genetic variance. Additionally, some loci can simultaneously regulate several complex traits, a phenomenon defined as pleiotropy. The lack of understanding on the biological processes responsible for the regulation of these traits results in the decrease of selection efficiency and the selection of undesirable hitchhiking effects. The identification of pleiotropic key-regulator genes can assist in developing important tools for investigating biological processes underlying complex traits. A multi-breed and multi-OMICs approach was applied to study the pleiotropic effects of key-regulator genes using three independent beef cattle populations evaluated for fertility traits. A pleiotropic map for 32 traits related to growth, feed efficiency, carcass and meat quality, and reproduction was used to identify genes shared among the different populations and breeds in pleiotropic regions. Furthermore, data-mining analyses were performed using the Cattle QTL database (CattleQTLdb) to identify the QTL category annotated in the regions around the genes shared among breeds. This approach allowed the identification of a main gene network (composed of 38 genes) shared among breeds. This gene network was significantly associated with thyroid activity, among other biological processes, and displayed a high regulatory potential. In addition, it was possible to identify genes with pleiotropic effects related to crucial biological processes that regulate economically relevant traits associated with fertility, production and health, such as MYC, PPARG, GSK3B, TG and IYD genes. These genes will be further investigated to better understand the biological processes involved in the expression of complex traits and assist in the identification of functional variants associated with undesirable phenotypes, such as decreased fertility, poor feed efficiency and negative energetic balance.

Published
2018

14. Combining multi-OMICs information to identify key-regulator genes for pleiotropic effect on fertility and production traits in beef cattle

Author

de Souza Fonseca, Pablo Augusto, Id-Lahoucine, Samir, Reverter, Antonio, Medrano, Juan F, Fortes, Marina S, Casellas, Joaquim, Miglior, Filippo, Brito, Luiz, Carvalho, Maria Raquel S, Schenkel, Flávio S, Nguyen, Loan T, Porto-Neto, Laercio R, Thomas, Milton G, and Cánovas, Angela

Subjects
Agricultural, Veterinary and Food Sciences, Animal Production, Genetics, Biological Sciences, Generic health relevance, Animals, Breeding, Cattle, Data Mining, Databases, Genetic, Female, Fertility, Gene Expression Regulation, Gene Ontology, Gene Regulatory Networks, Genetic Pleiotropy, Glycogen Synthase Kinase 3 beta, Male, Meat, Microfilament Proteins, Molecular Sequence Annotation, Muscle Proteins, PPAR gamma, Proteomics, Proto-Oncogene Proteins c-myc, Quantitative Trait Loci, Quantitative Trait, Heritable, Reproduction, Selection, Genetic, Thyroid Gland, General Science & Technology
Abstract

The identification of biological processes related to the regulation of complex traits is a difficult task. Commonly, complex traits are regulated through a multitude of genes contributing each to a small part of the total genetic variance. Additionally, some loci can simultaneously regulate several complex traits, a phenomenon defined as pleiotropy. The lack of understanding on the biological processes responsible for the regulation of these traits results in the decrease of selection efficiency and the selection of undesirable hitchhiking effects. The identification of pleiotropic key-regulator genes can assist in developing important tools for investigating biological processes underlying complex traits. A multi-breed and multi-OMICs approach was applied to study the pleiotropic effects of key-regulator genes using three independent beef cattle populations evaluated for fertility traits. A pleiotropic map for 32 traits related to growth, feed efficiency, carcass and meat quality, and reproduction was used to identify genes shared among the different populations and breeds in pleiotropic regions. Furthermore, data-mining analyses were performed using the Cattle QTL database (CattleQTLdb) to identify the QTL category annotated in the regions around the genes shared among breeds. This approach allowed the identification of a main gene network (composed of 38 genes) shared among breeds. This gene network was significantly associated with thyroid activity, among other biological processes, and displayed a high regulatory potential. In addition, it was possible to identify genes with pleiotropic effects related to crucial biological processes that regulate economically relevant traits associated with fertility, production and health, such as MYC, PPARG, GSK3B, TG and IYD genes. These genes will be further investigated to better understand the biological processes involved in the expression of complex traits and assist in the identification of functional variants associated with undesirable phenotypes, such as decreased fertility, poor feed efficiency and negative energetic balance.

Published
2018

15. Individual signatures and environmental factors shape skin microbiota in healthy dogs

Author

Cuscó, Anna, Belanger, Janelle M, Gershony, Liza, Islas-Trejo, Alma, Levy, Kerinne, Medrano, Juan F, Sánchez, Armand, Oberbauer, Anita M, and Francino, Olga

Subjects
Pediatric, 2.2 Factors relating to the physical environment, Aetiology, Animals, Bacillus, Bacteria, Biological Variation, Population, Dogs, Environment, Female, Gammaproteobacteria, Male, Microbiota, RNA, Ribosomal, 16S, Sequence Analysis, DNA, Skin, Canine, Microbiome, Dog, Season, Skin site, Pinna, 16S, Ecology, Microbiology, Medical Microbiology
Abstract

BackgroundThe individual, together with its environment, has been reported as the main force driving composition and structure of skin microbiota in healthy dogs. Therefore, one of the major concerns when analyzing canine skin microbiota is the likely influence of the environment. Despite the dense fur covering, certain skin diseases exhibit differential prevalence among skin sites, dog breeds, and individuals.ResultsWe have characterized the normal variability of dog skin microbiota in a well-controlled cohort of a large number of Golden-Labrador Retriever crossed dogs (N = 35) with similar ages, related genetic background, and a shared environment. We found that the individual drives the skin microbiota composition and structure followed by the skin site. The main bacterial classes inhabiting dog skin in this cohort are Gammaproteobacteria and Bacilli. We also detected bacteria associated to the environment on different dog skin sites that could be reflecting the different degrees of exposure of each skin site and each dog. Network analyses elucidated bacterial interactions within and between skin sites, especially in the chin, abdomen, axilla, and perianal region, with the highly shared interactions probably representing an anatomical, behavioral, or environmental component. When analyzing each skin site independently to assess host-specific factors, we found that temporality (season of birth and time spent in the kennel) affected all the skin sites and specially the inner pinna. The most abundant taxon driving this difference was Sphingomonas. We also found taxonomic differences among male and female dogs on the abdomen, axilla, and back.ConclusionsWe observed a large inter-individual variability and differences among skin sites. Host-specific variables, such as temporality or sex, were also shaping skin microbiota of healthy dogs, even in an environmental homogenous cohort.

Published
2017

17. The evolution of the natural killer complex; a comparison between mammals using new high-quality genome assemblies and targeted annotation

Author

Schwartz, John C, Gibson, Mark S, Heimeier, Dorothea, Koren, Sergey, Phillippy, Adam M, Bickhart, Derek M, Smith, Timothy PL, Medrano, Juan F, and Hammond, John A

Subjects
Biomedical and Clinical Sciences, Immunology, Biotechnology, Vaccine Related, Genetics, 1.1 Normal biological development and functioning, Underpinning research, Generic health relevance, Animals, Evolution, Molecular, Genome, Humans, Killer Cells, Natural, Lectins, C-Type, Mammals, Molecular Sequence Annotation, Phylogeny, Polymorphism, Genetic, Receptors, Natural Killer Cell, Selection, Genetic, Sequence Analysis, DNA, Natural killer cells, C-type lectin, Natural killer complex, Leukocyte receptor complex, KLRA, KLRC
Abstract

Natural killer (NK) cells are a diverse population of lymphocytes with a range of biological roles including essential immune functions. NK cell diversity is in part created by the differential expression of cell surface receptors which modulate activation and function, including multiple subfamilies of C-type lectin receptors encoded within the NK complex (NKC). Little is known about the gene content of the NKC beyond rodent and primate lineages, other than it appears to be extremely variable between mammalian groups. We compared the NKC structure between mammalian species using new high-quality draft genome assemblies for cattle and goat; re-annotated sheep, pig, and horse genome assemblies; and the published human, rat, and mouse lemur NKC. The major NKC genes are largely in the equivalent positions in all eight species, with significant independent expansions and deletions between species, allowing us to propose a model for NKC evolution during mammalian radiation. The ruminant species, cattle and goats, have independently evolved a second KLRC locus flanked by KLRA and KLRJ, and a novel KLRH-like gene has acquired an activating tail. This novel gene has duplicated several times within cattle, while other activating receptor genes have been selectively disrupted. Targeted genome enrichment in cattle identified varying levels of allelic polymorphism between the NKC genes concentrated in the predicted extracellular ligand-binding domains. This novel recombination and allelic polymorphism is consistent with NKC evolution under balancing selection, suggesting that this diversity influences individual immune responses and may impact on differential outcomes of pathogen infection and vaccination.

Published
2017

18. Genetic Dissection of a QTL Affecting Bone Geometry.

Author

Sabik, Olivia L, Medrano, Juan F, and Farber, Charles R

Subjects
Femur, Animals, Mice, Inbred C57BL, Humans, Body Height, Organ Size, Chromosome Mapping, Gene Expression Regulation, Lod Score, Polymorphism, Single Nucleotide, Alleles, Quantitative Trait Loci, Female, Male, Genome-Wide Association Study, QTL fine-mapping, allele-specific expression, bone geometry, bone strength, quantitative trait loci, Mice, Inbred C57BL, Polymorphism, Single Nucleotide, Genetics
Abstract

Parameters of bone geometry such as width, length, and cross-sectional area are major determinants of bone strength. Although these traits are highly heritable, few genes influencing bone geometry have been identified. Here, we dissect a major quantitative trait locus (QTL) influencing femur size. This QTL was originally identified in an F2 cross between the C57BL/6J-hg/hg (HG) and CAST/EiJ strains and was referred to as femur length in high growth mice 2 (Feml2). Feml2 was located on chromosome (Chr.) 9 at ∼20 cM. Here, we show that the HG.CAST-(D9Mit249-D9Mit133)/Ucd congenic strain captures Feml2 In an F2 congenic cross, we fine-mapped the location of Feml2 to an ∼6 Mbp region extending from 57.3 to 63.3 Mbp on Chr. 9. We have identified candidates by mining the complete genome sequence of CAST/EiJ and through allele-specific expression (ASE) analysis of growth plates in C57BL/6J × CAST/EiJ F1 hybrids. Interestingly, we also find that the refined location of Feml2 overlaps a cluster of six independent genome-wide associations for human height. This work provides the foundation for the identification of novel genes affecting bone geometry.

Published
2017

19. Genome Report: Identification and Validation of Antigenic Proteins from Pajaroellobacter abortibovis Using De Novo Genome Sequence Assembly and Reverse Vaccinology.

Author

Welly, Bryan T, Miller, Michael R, Stott, Jeffrey L, Blanchard, Myra T, Islas-Trejo, Alma D, O'Rourke, Sean M, Young, Amy E, Medrano, Juan F, and Van Eenennaam, Alison L

Subjects
Animals, Cattle, Mice, Mice, SCID, Deltaproteobacteria, Myxococcales, Abortion, Veterinary, Antigens, Bacterial, Vaccination, Phylogeny, Pregnancy, Genome, Bacterial, California, Female, High-Throughput Nucleotide Sequencing, Ornithodoros coriaceus, Pajaroellobacter abortibovis, epizootic bovine abortion, recombinant vaccine, reverse vaccinology, SCID, Abortion, Veterinary, Antigens, Bacterial, Genome, Genetics
Abstract

Epizootic bovine abortion (EBA), or "foothill abortion," is the leading cause of beef cattle abortion in California and has also been reported in Nevada and Oregon. In the 1970s, the soft-shelled tick Ornithodoros coriaceus, or "pajaroello tick," was confirmed as the disease-transmitting vector. In 2005, a novel Deltaproteobacterium was discovered as the etiologic agent of EBA (aoEBA), recently named Pajaroellobacter abortibovis This organism cannot be grown in culture using traditional microbiological techniques; it can only be grown in experimentally-infected severe combined immunodeficient (SCID) mice. The objectives of this study were to perform a de novo genome assembly for P. abortibovis and identify and validate potential antigenic proteins as candidates for future recombinant vaccine development. DNA and RNA were extracted from spleen tissue collected from experimentally-infected SCID mice following exposure to P. abortibovis This combination of mouse and bacterial DNA was sequenced and aligned to the mouse genome. Mouse sequences were subtracted from the sequence pool and the remaining sequences were de novo assembled at 50x coverage into a 1.82 Mbp complete closed circular Deltaproteobacterial genome containing 2250 putative protein-coding sequences. Phylogenetic analysis of P. abortibovis predicts that this bacterium is most closely related to the organisms of the order Myxococcales, referred to as Myxobacteria. In silico prediction of vaccine candidates was performed using a reverse vaccinology approach resulting in the identification and ranking of the top 10 candidate proteins that are likely to be antigenic. Immunologic testing of these candidate proteins confirmed antigenicity of seven of the nine expressed protein candidates using serum from P. abortibovis immunized mice.

Published
2017

20. Wilson Disease: Epigenetic effects of choline supplementation on phenotype and clinical course in a mouse model

Author

Medici, Valentina, Kieffer, Dorothy A, Shibata, Noreene M, Chima, Harpreet, Kim, Kyoungmi, Canovas, Angela, Medrano, Juan F, Islas-Trejo, Alma D, Kharbanda, Kusum K, Olson, Kristin, Su, Ruijun J, Islam, Mohammad S, Syed, Raisa, Keen, Carl L, Miller, Amy Y, Rutledge, John C, Halsted, Charles H, and LaSalle, Janine M

Subjects
Biological Sciences, Genetics, Neurosciences, Neurodegenerative, Prevention, Nutrition, Brain Disorders, Chronic Liver Disease and Cirrhosis, Liver Disease, Digestive Diseases, 2.1 Biological and endogenous factors, Aetiology, Reproductive health and childbirth, Animals, Choline, Copper, DNA Methylation, Dietary Supplements, Disease Models, Animal, Epigenomics, Female, Gene Expression Regulation, Hepatolenticular Degeneration, Humans, Liver, Methionine, Mice, Oxidative Phosphorylation, Penicillamine, Pregnancy, Transcriptome, choline, mitochondria, oxidative phosphorylation, toxic-milk mouse, Wilson Disease, Biochemistry and Cell Biology, Medical Biochemistry and Metabolomics, Developmental Biology, Biochemistry and cell biology
Abstract

Wilson disease (WD), a genetic disorder affecting copper transport, is characterized by hepatic and neurological manifestations with variable and often unpredictable presentation. Global DNA methylation in liver was previously modified by dietary choline in tx-j mice, a spontaneous mutant model of WD. We therefore hypothesized that the WD phenotype and hepatic gene expression of tx-j offspring could be modified by maternal methyl supplementation during pregnancy. In an initial experiment, female tx-j mice or wild type mice were fed control or choline-supplemented diets 2 weeks prior to mating through embryonic day 17. Transcriptomic analysis (RNA-seq) on embryonic livers revealed tx-j-specific differences in genes related to oxidative phosphorylation, mitochondrial dysfunction, and the neurological disorders Huntington's disease and Alzheimer disease. Maternal choline supplementation restored the transcript levels of a subset of genes to wild type levels. In a separate experiment, a group of tx-j offspring continued to receive choline-supplemented or control diets, with or without the copper chelator penicillamine (PCA) for 12 weeks until 24 weeks of age. Combined choline supplementation and PCA treatment of 24-week-old tx-j mice was associated with increased liver transcript levels of methionine metabolism and oxidative phosphorylation-related genes. Sex differences in gene expression within each treatment group were also observed. These results demonstrate that the transcriptional changes in oxidative phosphorylation and methionine metabolism genes in WD that originate during fetal life are, in part, prevented by prenatal maternal choline supplementation, a finding with potential relevance to preventive treatments of WD.

Published
2016

22. The Anti-Müllerian Hormone as Endocrine and Molecular Marker Associated with Reproductive Performance in Holstein Dairy Cows Exposed to Heat Stress

Author

Contreras-Méndez, Luis A., primary, Medrano, Juan F., additional, Thomas, Milton G., additional, Enns, R. Mark, additional, Speidel, Scott E., additional, Luna-Nevárez, Guillermo, additional, López-Castro, Pedro A., additional, Rivera-Acuña, Fernando, additional, and Luna-Nevárez, Pablo, additional

Published
2024
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23. Metabolic Reprogramming Regulates the Proliferative and Inflammatory Phenotype of Adventitial Fibroblasts in Pulmonary Hypertension Through the Transcriptional Corepressor C-Terminal Binding Protein-1

Author

Li, Min, Riddle, Suzette, Zhang, Hui, D'Alessandro, Angelo, Flockton, Amanda, Serkova, Natalie J, Hansen, Kirk C, Moldovan, Radu, McKeon, B Alexandre, Frid, Maria, Kumar, Sushil, Li, Hong, Liu, Hongbing, Caánovas, Angela, Medrano, Juan F, Thomas, Milton G, Iloska, Dijana, Plecitá-Hlavatá, Lydie, Ježek, Petr, Pullamsetti, Soni, Fini, Mehdi A, El Kasmi, Karim C, Zhang, QingHong, and Stenmark, Kurt R

Subjects
Genetics, Rare Diseases, Lung, Biotechnology, 2.1 Biological and endogenous factors, Aetiology, Adventitia, Alcohol Oxidoreductases, Animals, Cells, Cultured, DNA-Binding Proteins, Familial Primary Pulmonary Hypertension, Fibroblasts, Humans, Hypertension, Pulmonary, Mice, Phenotype, cell proliferation, fibroblasts, glycolysis, hypertension, pulmonary, metabolism, hypertension, pulmonary, Cardiorespiratory Medicine and Haematology, Clinical Sciences, Public Health and Health Services, Cardiovascular System & Hematology
Abstract

BackgroundChanges in metabolism have been suggested to contribute to the aberrant phenotype of vascular wall cells, including fibroblasts, in pulmonary hypertension (PH). Here, we test the hypothesis that metabolic reprogramming to aerobic glycolysis is a critical adaptation of fibroblasts in the hypertensive vessel wall that drives proliferative and proinflammatory activation through a mechanism involving increased activity of the NADH-sensitive transcriptional corepressor C-terminal binding protein 1 (CtBP1).MethodsRNA sequencing, quantitative polymerase chain reaction,13C-nuclear magnetic resonance, fluorescence-lifetime imaging, mass spectrometry-based metabolomics, and tracing experiments with U-13C-glucose were used to assess glycolytic reprogramming and to measure the NADH/NAD+ ratio in bovine and human adventitial fibroblasts and mouse lung tissues. Immunohistochemistry was used to assess CtBP1 expression in the whole-lung tissues. CtBP1 siRNA and the pharmacological inhibitor 4-methylthio-2-oxobutyric acid (MTOB) were used to abrogate CtBP1 activity in cells and hypoxic mice.ResultsWe found that adventitial fibroblasts from calves with severe hypoxia-induced PH and humans with idiopathic pulmonary arterial hypertension (PH-Fibs) displayed aerobic glycolysis when cultured under normoxia, accompanied by increased free NADH and NADH/NAD+ ratios. Expression of the NADH sensor CtBP1 was increased in vivo and in vitro in fibroblasts within the pulmonary adventitia of humans with idiopathic pulmonary arterial hypertension and animals with PH and cultured PH-Fibs, respectively. Decreasing NADH pharmacologically with MTOB or genetically blocking CtBP1 with siRNA upregulated the cyclin-dependent genes (p15 and p21) and proapoptotic regulators (NOXA and PERP), attenuated proliferation, corrected the glycolytic reprogramming phenotype of PH-Fibs, and augmented transcription of the anti-inflammatory gene HMOX1. Chromatin immunoprecipitation analysis demonstrated that CtBP1 directly binds the HMOX1 promoter. Treatment of hypoxic mice with MTOB decreased glycolysis and expression of inflammatory genes, attenuated proliferation, and suppressed macrophage numbers and remodeling in the distal pulmonary vasculature.ConclusionsCtBP1 is a critical factor linking changes in cell metabolism to cell phenotype in hypoxic and other forms of PH and a therapeutic target.

Published
2016

24. Parallel responses of human epidermal keratinocytes to inorganic SbIII and AsIII

Author

Phillips, Marjorie A, Cánovas, Angela, Wu, Pei-Wen, Islas-Trejo, Alma, Medrano, Juan F, and Rice, Robert H

Subjects
Environmental Sciences, Genetics, Underpinning research, 2.1 Biological and endogenous factors, 1.1 Normal biological development and functioning, Aetiology, Chemical Sciences, Earth Sciences, Chemical sciences, Earth sciences, Environmental sciences
Abstract

SbIII and AsIII are known to exhibit similar chemical properties, but the degree of similarity in their effects on biological systems merits further exploration. Present work compares the responses of human epidermal keratinocytes, a known target cell type for arsenite-induced carcinogenicity, to these metalloids after treatment for a week at environmentally relevant concentrations. Previous work with these cells has shown that arsenite and antimonite have parallel effects in suppressing differentiation, altering levels of several critical enzymes and maintaining colony forming ability. More globally, protein profiling now reveals parallels in SbIII and AsIII effects. The more sensitive technique of transcriptional profiling also shows considerable parallels. Thus, gene expression changes were almost entirely in the same directions for the two treatments, although the degree of change was sometimes significantly different. Inspection of the changes revealed that RYR1 and LRIG1 were among the genes strongly suppressed, consistent with reduced calcium-dependent differentiation and maintenance of EGF-dependent proliferative potential. Moreover, levels of miRNAs in the cells were altered in parallel, with nearly 90% of the 198 most highly expressed ones being suppressed. Among these was miR-203, which is known to decrease proliferative potential. Finally, both SbIII and AsIII were seen to attenuate bone morphogenetic protein 6 induction of dual specificity phosphatases 2 and 14, consistent with maintaining epidermal growth factor receptor signaling. These findings raise the question whether SbIII, like AsIII, could act as a human skin carcinogen.

Published
2016

25. Developmental Stage, Muscle and Genetic Type Modify Muscle Transcriptome in Pigs: Effects on Gene Expression and Regulatory Factors Involved in Growth and Metabolism

Author

Ayuso, Miriam, Fernández, Almudena, Núñez, Yolanda, Benítez, Rita, Isabel, Beatriz, Fernández, Ana I, Rey, Ana I, González-Bulnes, Antonio, Medrano, Juan F, Cánovas, Ángela, López-Bote, Clemente J, and Óvilo, Cristina

Subjects
Agricultural, Veterinary and Food Sciences, Biological Sciences, Genetics, Zoology, Animal Production, Pediatric, Biotechnology, Perinatal Period - Conditions Originating in Perinatal Period, 2.1 Biological and endogenous factors, Aetiology, Animals, Female, Gene Expression, Muscle, Skeletal, Swine, Transcriptome, General Science & Technology
Abstract

Iberian pig production includes purebred (IB) and Duroc-crossbred (IBxDU) pigs, which show important differences in growth, fattening and tissue composition. This experiment was conducted to investigate the effects of genetic type and muscle (Longissimus dorsi (LD) vs Biceps femoris (BF)) on gene expression and transcriptional regulation at two developmental stages. Nine IB and 10 IBxDU piglets were slaughtered at birth, and seven IB and 10 IBxDU at four months of age (growing period). Carcass traits and LD intramuscular fat (IMF) content were measured. Muscle transcriptome was analyzed on LD samples with RNA-Seq technology. Carcasses were smaller in IB than in IBxDU neonates (p < 0.001), while growing IB pigs showed greater IMF content (p < 0.05). Gene expression was affected (p < 0.01 and Fold change > 1.5) by the developmental stage (5,812 genes), muscle type (135 genes), and genetic type (261 genes at birth and 113 at growth). Newborns transcriptome reflected a highly proliferative developmental stage, while older pigs showed upregulation of catabolic and muscle functioning processes. Regarding the genetic type effect, IBxDU newborns showed enrichment of gene pathways involved in muscle growth, in agreement with the higher prenatal growth observed in these pigs. However, IB growing pigs showed enrichment of pathways involved in protein deposition and cellular growth, supporting the compensatory gain experienced by IB pigs during this period. Moreover, newborn and growing IB pigs showed more active glucose and lipid metabolism than IBxDU pigs. Moreover, LD muscle seems to have more active muscular and cell growth, while BF points towards lipid metabolism and fat deposition. Several regulators controlling transcriptome changes in both genotypes were identified across muscles and ages (SIM1, PVALB, MEFs, TCF7L2 or FOXO1), being strong candidate genes to drive expression and thus, phenotypic differences between IB and IBxDU pigs. Many of the identified regulators were known to be involved in muscle and adipose tissues development, but others not previously associated with pig muscle growth were also identified, as PVALB, KLF1 or IRF2. The present study discloses potential molecular mechanisms underlying phenotypic differences observed between IB and IBxDU pigs and highlights candidate genes implicated in these molecular mechanisms.

Published
2016

26. What's in your next-generation sequence data? An exploration of unmapped DNA and RNA sequence reads from the bovine reference individual.

Author

Whitacre, Lynsey K, Tizioto, Polyana C, Kim, JaeWoo, Sonstegard, Tad S, Schroeder, Steven G, Alexander, Leeson J, Medrano, Juan F, Schnabel, Robert D, Taylor, Jeremy F, and Decker, Jared E

Subjects
Animals, Cattle, DNA, RNA, Sequence Analysis, DNA, Algorithms, High-Throughput Nucleotide Sequencing, DNA sequencing, RNA sequencing, Unmapped reads, Sequence Analysis, Biological Sciences, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics
Abstract

BackgroundNext-generation sequencing projects commonly commence by aligning reads to a reference genome assembly. While improvements in alignment algorithms and computational hardware have greatly enhanced the efficiency and accuracy of alignments, a significant percentage of reads often remain unmapped.ResultsWe generated de novo assemblies of unmapped reads from the DNA and RNA sequencing of the Bos taurus reference individual and identified the closest matching sequence to each contig by alignment to the NCBI non-redundant nucleotide database using BLAST. As expected, many of these contigs represent vertebrate sequence that is absent, incomplete, or misassembled in the UMD3.1 reference assembly. However, numerous additional contigs represent invertebrate species. Most prominent were several species of Spirurid nematodes and a blood-borne parasite, Babesia bigemina. These species are either not present in the US or are not known to infect taurine cattle and the reference animal appears to have been host to unsequenced sister species.ConclusionsWe demonstrate the importance of exploring unmapped reads to ascertain sequences that are either absent or misassembled in the reference assembly and for detecting sequences indicative of parasitic or commensal organisms.

Published
2015

27. Overlapping mouse subcongenic strains successfully separate two linked body fat QTL on distal MMU 2

Author

Gularte-Mérida, Rodrigo, Farber, Charles R, Verdugo, Ricardo A, Islas–Trejo, Alma, Famula, Thomas R, Warden, Craig H, and Medrano, Juan F

Subjects
Genetics, Adipose Tissue, Animals, Binding Sites, Body Weight, Brain, Chromosome Mapping, Chromosomes, Female, Genetic Linkage, Genotype, Male, Mice, Mice, Inbred C57BL, MicroRNAs, Phenotype, Promoter Regions, Genetic, Quantitative Trait Loci, Transcription Factors, Biological Sciences, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics
Abstract

BackgroundMouse chromosome 2 is linked to growth and body fat phenotypes in many mouse crosses. With the goal to identify the underlying genes regulating growth and body fat on mouse chromosome 2, we developed five overlapping subcongenic strains that contained CAST/EiJ donor regions in a C57BL/6J (hg/hg) background (hg is a spontaneous deletion of 500 Kb on mouse chromosome 10). To fine map QTL on distal mouse chromosome 2 a total of 1,712 F2 mice from the five subcongenic strains, plus 278 F2 mice from the HG2D founder congenic strain were phenotyped and analyzed. Interval mapping (IM) and composite IM (CIM) were performed on body weight and body fat traits on a combination of SNP and microsatellite markers, which generated a high-density genotyping panel.ResultsPhenotypic analysis and interval mapping of total fat mass identified two QTL on distal mouse chromosome 2. One QTL between 150 and 161 Mb, Fatq2a, and the second between 173.3 and 175.6 Mb, Fatq2b. The two QTL reside in different congenic strains with significant total fat differences between homozygous cast/cast and b6/b6 littermates. Both of these QTL were previously identified only as a single QTL affecting body fat, Fatq2. Furthermore, through a novel approach referred here as replicated CIM, Fatq2b was mapped to the Gnas imprinted locus.ConclusionsThe integration of subcongenic strains, high-density genotyping, and CIM succesfully partitioned two previously linked QTL 20 Mb apart, and the strongest QTL, Fatq2b, was fine mapped to a ~2.3 Mb region interval encompassing the Gnas imprinted locus.

Published
2015

28. A clone-free, single molecule map of the domestic cow (Bos taurus) genome

Author

Zhou, Shiguo, Goldstein, Steve, Place, Michael, Bechner, Michael, Patino, Diego, Potamousis, Konstantinos, Ravindran, Prabu, Pape, Louise, Rincon, Gonzalo, Hernandez-Ortiz, Juan, Medrano, Juan F, and Schwartz, David C

Subjects
Biological Sciences, Bioinformatics and Computational Biology, Genetics, Human Genome, Generic health relevance, Animals, Cattle, Chromosome Mapping, Computational Biology, Datasets as Topic, Gene Order, Genome, Genomics, Information and Computing Sciences, Medical and Health Sciences, Bioinformatics, Biological sciences, Biomedical and clinical sciences
Abstract

BackgroundThe cattle (Bos taurus) genome was originally selected for sequencing due to its economic importance and unique biology as a model organism for understanding other ruminants, or mammals. Currently, there are two cattle genome sequence assemblies (UMD3.1 and Btau4.6) from groups using dissimilar assembly algorithms, which were complemented by genetic and physical map resources. However, past comparisons between these assemblies revealed substantial differences. Consequently, such discordances have engendered ambiguities when using reference sequence data, impacting genomic studies in cattle and motivating construction of a new optical map resource--BtOM1.0--to guide comparisons and improvements to the current sequence builds. Accordingly, our comprehensive comparisons of BtOM1.0 against the UMD3.1 and Btau4.6 sequence builds tabulate large-to-immediate scale discordances requiring mediation.ResultsThe optical map, BtOM1.0, spanning the B. taurus genome (Hereford breed, L1 Dominette 01449) was assembled from an optical map dataset consisting of 2,973,315 (439 X; raw dataset size before assembly) single molecule optical maps (Rmaps; 1 Rmap = 1 restriction mapped DNA molecule) generated by the Optical Mapping System. The BamHI map spans 2,575.30 Mb and comprises 78 optical contigs assembled by a combination of iterative (using the reference sequence: UMD3.1) and de novo assembly techniques. BtOM1.0 is a high-resolution physical map featuring an average restriction fragment size of 8.91 Kb. Comparisons of BtOM1.0 vs. UMD3.1, or Btau4.6, revealed that Btau4.6 presented far more discordances (7,463) vs. UMD3.1 (4,754). Overall, we found that Btau4.6 presented almost double the number of discordances than UMD3.1 across most of the 6 categories of sequence vs. map discrepancies, which are: COMPLEX (misassembly), DELs (extraneous sequences), INSs (missing sequences), ITs (Inverted/Translocated sequences), ECs (extra restriction cuts) and MCs (missing restriction cuts).ConclusionAlignments of UMD3.1 and Btau4.6 to BtOM1.0 reveal discordances commensurate with previous reports, and affirm the NCBI's current designation of UMD3.1 sequence assembly as the "reference assembly" and the Btau4.6 as the "alternate assembly." The cattle genome optical map, BtOM1.0, when used as a comprehensive and largely independent guide, will greatly assist improvements to existing sequence builds, and later serve as an accurate physical scaffold for studies concerning the comparative genomics of cattle breeds.

Published
2015

29. Peptidomic analysis of healthy and subclinically mastitic bovine milk.

Author

Guerrero, Andres, Dallas, David C, Contreras, Stephanie, Bhandari, Aashish, Cánovas, Angela, Islas-Trejo, Alma, Medrano, Juan F, Parker, Evan A, Wang, Meng, Hettinga, Kasper, Chee, Sabrina, German, J Bruce, Barile, Daniela, and Lebrilla, Carlito B

Subjects
Biochemistry and Cell Biology, Food Sciences, Dairy & Animal Science
Abstract

A variety of proteases release hundreds of endogenous peptide fragments from intact bovine milk proteins. Mass spectrometry-based peptidomics allows for high throughput sequence assignment of a large number of these peptides. Mastitis is known to result in increased protease activity in the mammary gland. Therefore, we hypothesized that subclinically mastitic milks would contain higher concentrations of released peptides. In this work, milks were sampled from three cows and, for each, one healthy and one subclinically mastitic teat were sampled for milk. Peptides were analyzed by nano-liquid chromatography quadrupole time of flight tandem mass spectrometry and identified with database searching. In total, 682 peptides were identified. The total number of released peptides increased 146% from healthy to subclinically mastitic milks (p < 0.05), and the total abundance of released peptides also increased significantly (p < 0.05). Bioinformatic analysis of enzyme cleavage revealed increases in activity of cathepsin D and elastase (p < 0.05) with subclinical mastitis.

Published
2015

30. Comparative Analysis of Muscle Transcriptome between Pig Genotypes Identifies Genes and Regulatory Mechanisms Associated to Growth, Fatness and Metabolism.

Author

Ayuso, Miriam, Fernández, Almudena, Núñez, Yolanda, Benítez, Rita, Isabel, Beatriz, Barragán, Carmen, Fernández, Ana Isabel, Rey, Ana Isabel, Medrano, Juan F, Cánovas, Ángela, González-Bulnes, Antonio, López-Bote, Clemente, and Ovilo, Cristina

Subjects
Muscle, Skeletal, Animals, Swine, Muscle Proteins, Species Specificity, Genotype, Adiposity, Transcriptome, Muscle, Skeletal, General Science & Technology
Abstract

Iberian ham production includes both purebred (IB) and Duroc-crossbred (IBxDU) Iberian pigs, which show important differences in meat quality and production traits, such as muscle growth and fatness. This experiment was conducted to investigate gene expression differences, transcriptional regulation and genetic polymorphisms that could be associated with the observed phenotypic differences between IB and IBxDU pigs. Nine IB and 10 IBxDU pigs were slaughtered at birth. Morphometric measures and blood samples were obtained and samples from Biceps femoris muscle were employed for compositional and transcriptome analysis by RNA-Seq technology. Phenotypic differences were evident at this early age, including greater body size and weight in IBxDU and greater Biceps femoris intramuscular fat and plasma cholesterol content in IB newborns. We detected 149 differentially expressed genes between IB and IBxDU neonates (p < 0.01 and Fold-Change > 1. 5). Several were related to adipose and muscle tissues development (DLK1, FGF21 or UBC). The functional interpretation of the transcriptomic differences revealed enrichment of functions and pathways related to lipid metabolism in IB and to cellular and muscle growth in IBxDU pigs. Protein catabolism, cholesterol biosynthesis and immune system were functions enriched in both genotypes. We identified transcription factors potentially affecting the observed gene expression differences. Some of them have known functions on adipogenesis (CEBPA, EGRs), lipid metabolism (PPARGC1B) and myogenesis (FOXOs, MEF2D, MYOD1), which suggest a key role in the meat quality differences existing between IB and IBxDU hams. We also identified several polymorphisms showing differential segregation between IB and IBxDU pigs. Among them, non-synonymous variants were detected in several transcription factors as PPARGC1B and TRIM63 genes, which could be associated to altered gene function. Taken together, these results provide information about candidate genes, metabolic pathways and genetic polymorphisms potentially involved in phenotypic differences between IB and IBxDU pigs associated to meat quality and production traits.

Published
2015

32. Predicting the Important Enzymes in Human Breast Milk Digestion

Author

Khaldi, Nora, Vijayakumar, Vaishnavi, Dallas, David C, Guerrero, Andrés, Wickramasinghe, Saumya, Smilowitz, Jennifer T, Medrano, Juan F, Lebrilla, Carlito B, Shields, Denis C, and German, J Bruce

Subjects
Agricultural, Veterinary and Food Sciences, Engineering, Chemical Sciences, Breast Cancer, Cancer, Aging, 1.1 Normal biological development and functioning, Underpinning research, Digestion, Enzymes, Gene Expression Profiling, Humans, Mass Spectrometry, Milk, Human, hydrolysate, human milk digestion, milk, nutrition, proteolytic enzymes, bioactive peptide, Agricultural and Veterinary Sciences, Food Science, Agricultural, veterinary and food sciences, Chemical sciences
Abstract

Human milk is known to contain several proteases, but little is known about whether these enzymes are active, which proteins they cleave, and their relative contribution to milk protein digestion in vivo. This study analyzed the mass spectrometry-identified protein fragments found in pooled human milk by comparing their cleavage sites with the enzyme specificity patterns of an array of enzymes. The results indicate that several enzymes are actively taking part in the digestion of human milk proteins within the mammary gland, including plasmin and/or trypsin, elastase, cathepsin D, pepsin, chymotrypsin, a glutamyl endopeptidase-like enzyme, and proline endopeptidase. Two proteins were most affected by enzyme hydrolysis: β-casein and polymeric immunoglobulin receptor. In contrast, other highly abundant milk proteins such as α-lactalbumin and lactoferrin appear to have undergone no proteolytic cleavage. A peptide sequence containing a known antimicrobial peptide is released in breast milk by elastase and cathepsin D.

Published
2014

33. Comparison of five different RNA sources to examine the lactating bovine mammary gland transcriptome using RNA-Sequencing.

Author

Cánovas, Angela, Rincón, Gonzalo, Bevilacqua, Claudia, Islas-Trejo, Alma, Brenaut, Pauline, Hovey, Russell C, Boutinaud, Marion, Morgenthaler, Caroline, VanKlompenberg, Monica K, Martin, Patrice, and Medrano, Juan F

Subjects
Mammary Glands, Animal, Milk, Animals, Cattle, Transcription Factors, RNA, Sequence Analysis, RNA, Base Sequence, Lactation, Algorithms, Molecular Sequence Data, Transcriptome, Mammary Glands, Animal, Sequence Analysis
Abstract

The objective of this study was to examine five different sources of RNA, namely mammary gland tissue (MGT), milk somatic cells (SC), laser microdissected mammary epithelial cells (LCMEC), milk fat globules (MFG) and antibody-captured milk mammary epithelial cells (mMEC) to analyze the bovine mammary gland transcriptome using RNA-Sequencing. Our results provide a comparison between different sampling methods (invasive and non-invasive) to define the transcriptome of mammary gland tissue and milk cells. This information will be of value to investigators in choosing the most appropriate sampling method for different research applications to study specific physiological states during lactation. One of the simplest procedures to study the transcriptome associated with milk appears to be the isolation of total RNA directly from SC or MFG released into milk during lactation. Our results indicate that the SC and MFG transcriptome are representative of MGT and LCMEC and can be used as effective and alternative samples to study mammary gland expression without the need to perform a tissue biopsy.

Published
2014

34. Genomic variation and population structure detected by single nucleotide polymorphism arrays in Corriedale, Merino and Creole sheep

Author

Grasso, Andrés N, Goldberg, Virginia, Navajas, Elly A, Iriarte, Wanda, Gimeno, Diego, Aguilar, Ignacio, Medrano, Juan F, Rincón, Gonzalo, and Ciappesoni, Gabriel

Subjects
Biological Sciences, Ecology, Genetics, Aging, allele frequencies breed composition, fixation index, Ovine SNP50, population stratification, principal component analysis, Genetics & Heredity, Plant Biology & Botany
Abstract

THE AIM OF THIS STUDY WAS TO INVESTIGATE THE GENETIC DIVERSITY WITHIN AND AMONG THREE BREEDS OF SHEEP: Corriedale, Merino and Creole. Sheep from the three breeds (Merino n = 110, Corriedale n = 108 and Creole n = 10) were genotyped using the Illumina Ovine SNP50 beadchip(®). Genetic diversity was evaluated by comparing the minor allele frequency (MAF) among breeds. Population structure and genetic differentiation were assessed using STRUCTURE software, principal component analysis (PCA) and fixation index (FST). Fixed markers (MAF = 0) that were different among breeds were identified as specific breed markers. Using a subset of 18,181 single nucleotide polymorphisms (SNPs), PCA and STUCTURE analysis were able to explain population stratification within breeds. Merino and Corriedale divergent lines showed high levels of polymorphism (89.4% and 86% of polymorphic SNPs, respectively) and moderate genetic differentiation (FST = 0.08) between them. In contrast, Creole had only 69% polymorphic SNPs and showed greater genetic differentiation from the other two breeds (FST = 0.17 for both breeds). Hence, a subset of molecular markers present in the OvineSNP50 is informative enough for breed assignment and population structure analysis of commercial and Creole breeds.

Published
2014

35. Zebrafish as animal model for aquaculture nutrition research

Author

Ulloa, Pilar E, Medrano, Juan F, and Feijoo, Carmen G

Subjects
Genetics, Nutrition, Biotechnology, Life Below Water, aquaculture nutrition, diet evaluation, nutritional genomics, nutritional immunity, zebrafish, Clinical Sciences, Law
Abstract

The aquaculture industry continues to promote the diversification of ingredients used in aquafeed in order to achieve a more sustainable aquaculture production system. The evaluation of large numbers of diets in aquaculture species is costly and requires time-consuming trials in some species. In contrast, zebrafish (Danio rerio) can solve these drawbacks as an experimental model, and represents an ideal organism to carry out preliminary evaluation of diets. In addition, zebrafish has a sequenced genome allowing the efficient utilization of new technologies, such as RNA-sequencing and genotyping platforms to study the molecular mechanisms that underlie the organism's response to nutrients. Also, biotechnological tools like transgenic lines with fluorescently labeled neutrophils that allow the evaluation of the immune response in vivo, are readily available in this species. Thus, zebrafish provides an attractive platform for testing many ingredients to select those with the highest potential of success in aquaculture. In this perspective article aspects related to diet evaluation in which zebrafish can make important contributions to nutritional genomics and nutritional immunity are discussed.

Published
2014

36. Bayesian analysis of additive epistasis arising from new mutations in mice

Author

CASELLAS, JOAQUIM, GIANOLA, DANIEL, and MEDRANO, JUAN F

Subjects
Biological Sciences, Genetics, 2.1 Biological and endogenous factors, Aetiology, Animals, Bayes Theorem, Body Weight, Epistasis, Genetic, Genetic Heterogeneity, Linear Models, Mice, Mice, Inbred C57BL, Mutation, Pedigree, Phenotype, Evolutionary Biology
Abstract

The continuous uploading of polygenic additive mutational variability has been reported in several studies in laboratory species with an inbred genetic background. These studies have focused on the direct contribution of new mutations without considering the possibility of epistatic effects derived from the interaction of new mutations with pre-existing polymorphisms. In this work we focused on this main topic and analysed the statistical and biological relevance of the epistatic variance for 9 week body weight in two populations of inbred mice. We developed a new linear mixed model parameterization where founder-related additive genetic variability, additive mutational variability and the interaction terms between both sources of variation were accounted for under a Bayesian design and without requiring the inversion of a matrix of epistatic genetic covariances. The analyses focused on a six-generations data set from C57BL/6J mice (n = 3736) and a five-generations data set from C57BL/6J(hg/hg) mice (n = 2843). The deviance information criterion (DIC) clearly favoured the model accounting for epistatic variability with reductions larger than 50 DIC units in both populations. Modal estimates for founder related, mutational and epistatic heritabilities were 0·068, 0·011 and 0·095 in C57BL/6J and 0·060, 0·010 and 0·113 in C57BL/6J(hg/hg), ruling out any doubt about the biological relevance of epistasis originating from new mutations in mice. These results contribute new insights on the relevance of epistasis in the genetic architecture of mammals and serve as an important component of an additional source of genetic heterogeneity for inbred strains of laboratory mice.

Published
2014

37. Multi-tissue omics analyses reveal molecular regulatory networks for puberty in composite beef cattle.

Author

Cánovas, Angela, Reverter, Antonio, DeAtley, Kasey L, Ashley, Ryan L, Colgrave, Michelle L, Fortes, Marina RS, Islas-Trejo, Alma, Lehnert, Sigrid, Porto-Neto, Laercio, Rincón, Gonzalo, Silver, Gail A, Snelling, Warren M, Medrano, Juan F, and Thomas, Milton G

Subjects
Animals, Cattle, Gene Expression Regulation, Developmental, Fertility, Pregnancy, Sexual Maturation, Female, Male, Gene Regulatory Networks, Genome-Wide Association Study, Transcriptome, Gene Expression Regulation, Developmental, General Science & Technology
Abstract

Puberty is a complex physiological event by which animals mature into an adult capable of sexual reproduction. In order to enhance our understanding of the genes and regulatory pathways and networks involved in puberty, we characterized the transcriptome of five reproductive tissues (i.e. hypothalamus, pituitary gland, ovary, uterus, and endometrium) as well as tissues known to be relevant to growth and metabolism needed to achieve puberty (i.e., longissimus dorsi muscle, adipose, and liver). These tissues were collected from pre- and post-pubertal Brangus heifers (3/8 Brahman; Bos indicus x 5/8 Angus; Bos taurus) derived from a population of cattle used to identify quantitative trait loci associated with fertility traits (i.e., age of first observed corpus luteum (ACL), first service conception (FSC), and heifer pregnancy (HPG)). In order to exploit the power of complementary omics analyses, pre- and post-puberty co-expression gene networks were constructed by combining the results from genome-wide association studies (GWAS), RNA-Seq, and bovine transcription factors. Eight tissues among pre-pubertal and post-pubertal Brangus heifers revealed 1,515 differentially expressed and 943 tissue-specific genes within the 17,832 genes confirmed by RNA-Seq analysis. The hypothalamus experienced the most notable up-regulation of genes via puberty (i.e., 204 out of 275 genes). Combining the results of GWAS and RNA-Seq, we identified 25 loci containing a single nucleotide polymorphism (SNP) associated with ACL, FSC, and (or) HPG. Seventeen of these SNP were within a gene and 13 of the genes were expressed in uterus or endometrium. Multi-tissue omics analyses revealed 2,450 co-expressed genes relative to puberty. The pre-pubertal network had 372,861 connections whereas the post-pubertal network had 328,357 connections. A sub-network from this process revealed key transcriptional regulators (i.e., PITX2, FOXA1, DACH2, PROP1, SIX6, etc.). Results from these multi-tissue omics analyses improve understanding of the number of genes and their complex interactions for puberty in cattle.

Published
2014

38. High-resolution mapping of a genetic locus regulating preferential carbohydrate intake, total kilocalories, and food volume on mouse chromosome 17.

Author

Gularte-Mérida, Rodrigo, DiCarlo, Lisa M, Robertson, Ginger, Simon, Jacob, Johnson, William D, Kappen, Claudia, Medrano, Juan F, and Richards, Brenda K

Subjects
Chromosomes, Mammalian, Animals, Mice, Chromosome Mapping, Energy Intake, Polymorphism, Single Nucleotide, Quantitative Trait Loci, Genome, Carbohydrate Metabolism, Genetic Loci, Genetic Linkage, Chromosomes, Mammalian, Polymorphism, Single Nucleotide, General Science & Technology
Abstract

The specific genes regulating the quantitative variation in macronutrient preference and food intake are virtually unknown. We fine mapped a previously identified mouse chromosome 17 region harboring quantitative trait loci (QTL) with large effects on preferential macronutrient intake-carbohydrate (Mnic1), total kilcalories (Kcal2), and total food volume (Tfv1) using interval-specific strains. These loci were isolated in the [C57BL/6J.CAST/EiJ-17.1-(D17Mit19-D17Mit50); B6.CAST-17.1] strain, possessing a ∼ 40.1 Mb region of CAST DNA on the B6 genome. In a macronutrient selection paradigm, the B6.CAST-17.1 subcongenic mice eat 30% more calories from the carbohydrate-rich diet, ∼ 10% more total calories, and ∼ 9% more total food volume per body weight. In the current study, a cross between carbohydrate-preferring B6.CAST-17.1 and fat-preferring, inbred B6 mice was used to generate a subcongenic-derived F2 mapping population; genotypes were determined using a high-density, custom SNP panel. Genetic linkage analysis substantially reduced the 95% confidence interval for Mnic1 (encompassing Kcal2 and Tfv1) from 40.1 to 29.5 Mb and more precisely established its boundaries. Notably, no genetic linkage for self-selected fat intake was detected, underscoring the carbohydrate-specific effect of this locus. A second key finding was the separation of two energy balance QTLs: Mnic1/Kcal2/Tfv1 for food intake and a newly discovered locus regulating short term body weight gain. The Mnic1/Kcal2/Tfv1 QTL was further de-limited to 19.0 Mb, based on the absence of nutrient intake phenotypes in subcongenic HQ17IIa mice. Analyses of available sequence data and gene ontologies, along with comprehensive expression profiling in the hypothalamus of non-recombinant, cast/cast and b6/b6 F2 controls, focused our attention on candidates within the QTL interval. Zfp811, Zfp870, and Btnl6 showed differential expression and also contain stop codons, but have no known biology related to food intake regulation. The genes Decr2, Ppard and Agapt1 are more appealing candidates because of their involvement in lipid metabolism and down-regulation in carbohydrate-preferring animals.

Published
2014

39. Sequencing the transcriptome of milk production: milk trumps mammary tissue

Author

Lemay, Danielle G, Hovey, Russell C, Hartono, Stella R, Hinde, Katie, Smilowitz, Jennifer T, Ventimiglia, Frank, Schmidt, Kimberli A, Lee, Joyce WS, Islas-Trejo, Alma, Silva, Pedro, Korf, Ian, Medrano, Juan F, Barry, Peter A, and German, J

Abstract

Abstract Background Studies of normal human mammary gland development and function have mostly relied on cell culture, limited surgical specimens, and rodent models. Although RNA extracted from human milk has been used to assay the mammary transcriptome non-invasively, this assay has not been adequately validated in primates. Thus, the objectives of the current study were to assess the suitability of lactating rhesus macaques as a model for lactating humans and to determine whether RNA extracted from milk fractions is representative of RNA extracted from mammary tissue for the purpose of studying the transcriptome of milk-producing cells. Results We confirmed that macaque milk contains cytoplasmic crescents and that ample high-quality RNA can be obtained for sequencing. Using RNA sequencing, RNA extracted from macaque milk fat and milk cell fractions more accurately represented RNA from mammary epithelial cells (cells that produce milk) than did RNA from whole mammary tissue. Mammary epithelium-specific transcripts were more abundant in macaque milk fat, whereas adipose or stroma-specific transcripts were more abundant in mammary tissue. Functional analyses confirmed the validity of milk as a source of RNA from milk-producing mammary epithelial cells. Conclusions RNA extracted from the milk fat during lactation accurately portrayed the RNA profile of milk-producing mammary epithelial cells in a non-human primate. However, this sample type clearly requires protocols that minimize RNA degradation. Overall, we validated the use of RNA extracted from human and macaque milk and provided evidence to support the use of lactating macaques as a model for human lactation.

Published
2013

40. RNA-seq analysis of single bovine blastocysts

Author

Chitwood, James L, Rincon, Gonzalo, Kaiser, German G, Medrano, Juan F, and Ross, Pablo J

Abstract

Abstract Background Use of RNA-Seq presents unique benefits in terms of gene expression analysis because of its wide dynamic range and ability to identify functional sequence variants. This technology provides the opportunity to assay the developing embryo, but the paucity of biological material available from individual embryos has made this a challenging prospect. Results We report here the first application of RNA-Seq for the analysis of individual blastocyst gene expression, SNP detection, and characterization of allele specific expression (ASE). RNA was extracted from single bovine blastocysts (n = 5), amplified, and analyzed using high-throughput sequencing. Approximately 38 million sequencing reads were generated per embryo and 9,489 known bovine genes were found to be expressed, with a high correlation of expression levels between samples (r > 0.97). Transcriptomic data was analyzed to identify SNP in expressed genes, and individual SNP were examined to characterize allele specific expression. Expressed biallelic SNP variants with allelic imbalances were observed in 473 SNP, where one allele represented between 65-95% of a variant’s transcripts. Conclusions This study represents the first application of RNA-seq technology in single bovine embryos allowing a representation of the embryonic transcriptome and the analysis of transcript sequence variation to describe specific allele expression.

Published
2013

41. Single nucleotide polymorphisms in CETP, SLC46A1, SLC19A1, CD36, BCMO1, APOA5, and ABCA1 are significant predictors of plasma HDL in healthy adults

Author

Clifford, Andrew J, Rincon, Gonzalo, Owens, Janel E, Medrano, Juan F, Moshfegh, Alanna J, Baer, David J, and Novotny, Janet A

Abstract

Abstract Background In a marker-trait association study we estimated the statistical significance of 65 single nucleotide polymorphisms (SNP) in 23 candidate genes on HDL levels of two independent Caucasian populations. Each population consisted of men and women and their HDL levels were adjusted for gender and body weight. We used a linear regression model. Selected genes corresponded to folate metabolism, vitamins B-12, A, and E, and cholesterol pathways or lipid metabolism. Methods Extracted DNA from both the Sacramento and Beltsville populations was analyzed using an allele discrimination assay with a MALDI-TOF mass spectrometry platform. The adjusted phenotype, y, was HDL levels adjusted for gender and body weight only statistical analyses were performed using the genotype association and regression modules from the SNP Variation Suite v7. Results Statistically significant SNP (where P values were adjusted for false discovery rate) included: CETP (rs7499892 and rs5882); SLC46A1 (rs37514694; rs739439); SLC19A1 (rs3788199); CD36 (rs3211956); BCMO1 (rs6564851), APOA5 (rs662799), and ABCA1 (rs4149267). Many prior association trends of the SNP with HDL were replicated in our cross-validation study. Significantly, the association of SNP in folate transporters (SLC46A1 rs37514694 and rs739439; SLC19A1 rs3788199) with HDL was identified in our study. Conclusions Given recent literature on the role of niacin in the biogenesis of HDL, focus on status and metabolism of B-vitamins and metabolites of eccentric cleavage of β-carotene with lipid metabolism is exciting for future study.

Published
2013

42. Transcriptional profiling of bovine milk using RNAsequencing

Author

Wickramasinghe, Saumya, Rincon, Gonzalo, Islas-Trejo, Alma, and Medrano, Juan F

Abstract

Abstract Background Cow milk is a complex bioactive fluid consumed by humans beyond infancy. Even though the chemical and physical properties of cow milk are well characterized, very limited research has been done on characterizing the milk transcriptome. This study performs a comprehensive expression profiling of genes expressed in milk somatic cells of transition (day 15), peak (day 90) and late (day 250) lactation Holstein cows by RNA sequencing. Milk samples were collected from Holstein cows at 15, 90 and 250 days of lactation, and RNA was extracted from the pelleted milk cells. Gene expression analysis was conducted by Illumina RNA sequencing. Sequence reads were assembled and analyzed in CLC Genomics Workbench. Gene Ontology (GO) and pathway analysis were performed using the Blast2GO program and GeneGo application of MetaCore program. Results A total of 16,892 genes were expressed in transition lactation, 19,094 genes were expressed in peak lactation and 18,070 genes were expressed in late lactation. Regardless of the lactation stage approximately 9,000 genes showed ubiquitous expression. Genes encoding caseins, whey proteins and enzymes in lactose synthesis pathway showed higher expression in early lactation. The majority of genes in the fat metabolism pathway had high expression in transition and peak lactation milk. Most of the genes encoding for endogenous proteases and enzymes in ubiquitin-proteasome pathway showed higher expression along the course of lactation. Conclusions This is the first study to describe the comprehensive bovine milk transcriptome in Holstein cows. The results revealed that 69% of NCBI Btau 4.0 annotated genes are expressed in bovine milk somatic cells. Most of the genes were ubiquitously expressed in all three stages of lactation. However, a fraction of the milk transcriptome has genes devoted to specific functions unique to the lactation stage. This indicates the ability of milk somatic cells to adapt to different molecular functions according to the biological need of the animal. This study provides a valuable insight into the biology of lactation in the cow, as well as many avenues for future research on the bovine lactome.

Published
2012

43. Comparison of buccal and blood-derived canine DNA, either native or whole genome amplified, for array-based genome-wide association studies.

Author

Rincon, Gonzalo, Tengvall, Katarina, Belanger, Janelle M, Lagoutte, Laetitia, Medrano, Juan F, André, Catherine, Thomas, Anne, Lawley, Cynthia, Hansen, Mark ST, Lindblad-Toh, Kerstin, and Oberbauer, Anita M

Abstract

Abstract Background The availability of array-based genotyping platforms for single nucleotide polymorphisms (SNPs) for the canine genome has expanded the opportunities to undertake genome-wide association (GWA) studies to identify the genetic basis for Mendelian and complex traits. Whole blood as the source of high quality DNA is undisputed but often proves impractical for collection of the large numbers of samples necessary to discover the loci underlying complex traits. Further, many countries prohibit the collection of blood from dogs unless medically necessary thereby restricting access to critical control samples from healthy dogs. Alternate sources of DNA, typically from buccal cytobrush extractions, while convenient, have been suggested to have low yield and perform poorly in GWA. Yet buccal cytobrushes provide a cost-effective means of collecting DNA, are readily accepted by dog owners, and represent a large resource base in many canine genetics laboratories. To increase the DNA quantities, whole genome amplification (WGA) can be performed. Thus, the present study assessed the utility of buccal-derived DNA as well as whole genome amplification in comparison to blood samples for use on the most recent iteration of the canine HD SNP array (Illumina). Findings In both buccal and blood samples, whether whole genome amplified or not, 97% of the samples had SNP call rates in excess of 80% indicating that the vast majority of the SNPs would be suitable to perform association studies regardless of the DNA source. Similarly, there were no significant differences in marker intensity measurements between buccal and blood samples for copy number variations (CNV) analysis. Conclusions All DNA samples assayed, buccal or blood, native or whole genome amplified, are appropriate for use in array-based genome-wide association studies. The concordance between subsets of dogs for which both buccal and blood samples, or those samples whole genome amplified, was shown to average >99%. Thus, the two DNA sources were comparable in the generation of SNP genotypes and intensity values to estimate structural variation indicating the utility for the use of buccal cytobrush samples and the reliability of whole genome amplification for genome-wide association and CNV studies.

Published
2011

44. Transcriptome profiling of bovine milk oligosaccharide metabolism genes using RNA-sequencing.

Author

Wickramasinghe, Saumya, Hua, Serenus, Rincon, Gonzalo, Islas-Trejo, Alma, German, J Bruce, Lebrilla, Carlito B, and Medrano, Juan F

Subjects
Milk, Animals, Mammals, Cattle, N-Acetylneuraminic Acid, Fucose, Oligosaccharides, Gene Expression Profiling, Sequence Analysis, RNA, Gene Expression Regulation, Glycosylation, Lactation, Female, Metabolic Networks and Pathways, Molecular Sequence Annotation, Sequence Analysis, RNA, General Science & Technology
Abstract

This study examines the genes coding for enzymes involved in bovine milk oligosaccharide metabolism by comparing the oligosaccharide profiles with the expressions of glycosylation-related genes. Fresh milk samples (n = 32) were collected from four Holstein and Jersey cows at days 1, 15, 90 and 250 of lactation and free milk oligosaccharide profiles were analyzed. RNA was extracted from milk somatic cells at days 15 and 250 of lactation (n = 12) and gene expression analysis was conducted by RNA-Sequencing. A list was created of 121 glycosylation-related genes involved in oligosaccharide metabolism pathways in bovine by analyzing the oligosaccharide profiles and performing an extensive literature search. No significant differences were observed in either oligosaccharide profiles or expressions of glycosylation-related genes between Holstein and Jersey cows. The highest concentrations of free oligosaccharides were observed in the colostrum samples and a sharp decrease was observed in the concentration of free oligosaccharides on day 15, followed by progressive decrease on days 90 and 250. Ninety-two glycosylation-related genes were expressed in milk somatic cells. Most of these genes exhibited higher expression in day 250 samples indicating increases in net glycosylation-related metabolism in spite of decreases in free milk oligosaccharides in late lactation milk. Even though fucosylated free oligosaccharides were not identified, gene expression indicated the likely presence of fucosylated oligosaccharides in bovine milk. Fucosidase genes were expressed in milk and a possible explanation for not detecting fucosylated free oligosaccharides is the degradation of large fucosylated free oligosaccharides by the fucosidases. Detailed characterization of enzymes encoded by the 92 glycosylation-related genes identified in this study will provide the basic knowledge for metabolic network analysis of oligosaccharides in mammalian milk. These candidate genes will guide the design of a targeted breeding strategy to optimize the content of beneficial oligosaccharides in bovine milk.

Published
2011

45. Characterization of bacteria in biopsies of colon and stools by high throughput sequencing of the V2 region of bacterial 16S rRNA gene in human.

Author

Momozawa, Yukihide, Deffontaine, Valérie, Louis, Edouard, and Medrano, Juan F

Subjects
Colon, Feces, Humans, Bacteria, DNA, Bacterial, RNA, Bacterial, RNA, Ribosomal, 16S, Biopsy, Reproducibility of Results, Polymerase Chain Reaction, Sequence Analysis, RNA, Organ Specificity, Adult, Middle Aged, Female, Male, High-Throughput Nucleotide Sequencing, DNA, Bacterial, RNA, Ribosomal, 16S, Sequence Analysis, General Science & Technology
Abstract

BackgroundThe characterization of the human intestinal microflora and their interactions with the host have been identified as key components in the study of intestinal disorders such as inflammatory bowel diseases. High-throughput sequencing has enabled culture-independent studies to deeply analyze bacteria in the gut. It is possible with this technology to systematically analyze links between microbes and the genetic constitution of the host, such as DNA polymorphisms and methylation, and gene expression.Methods and findingsIn this study the V2 region of the bacterial 16S ribosomal RNA (rRNA) gene using 454 pyrosequencing from seven anatomic regions of human colon and two types of stool specimens were analyzed. The study examined the number of reads needed to ascertain differences between samples, the effect of DNA extraction procedures and PCR reproducibility, and differences between biopsies and stools in order to design a large scale systematic analysis of gut microbes. It was shown (1) that sequence coverage lower than 1,000 reads influenced quantitative and qualitative differences between samples measured by UniFrac distances. Distances between samples became stable after 1,000 reads. (2) Difference of extracted bacteria was observed between the two DNA extraction methods. In particular, Firmicutes Bacilli were not extracted well by one method. (3) Quantitative and qualitative difference in bacteria from ileum to rectum colon were not observed, but there was a significant positive trend between distances within colon and quantitative differences. Between sample type, biopsies or stools, quantitative and qualitative differences were observed.ConclusionsResults of human colonic bacteria analyzed using high-throughput sequencing were highly dependent on the experimental design, especially the number of sequence reads, DNA extraction method, and sample type.

Published
2011

46. SNP discovery in the bovine milk transcriptome using RNA-Seq technology

Author

Cánovas, Angela, Rincon, Gonzalo, Islas-Trejo, Alma, Wickramasinghe, Saumya, and Medrano, Juan F.

Subjects
Life Sciences, Zoology, Anatomy, Cell Biology
Abstract

High-throughput sequencing of RNA (RNA-Seq) was developed primarily to analyze global gene expression in different tissues. However, it also is an efficient way to discover coding SNPs. The objective of this study was to perform a SNP discovery analysis in the milk transcriptome using RNA-Seq. Seven milk samples from Holstein cows were analyzed by sequencing cDNAs using the Illumina Genome Analyzer system. We detected 19,175 genes expressed in milk samples corresponding to approximately 70% of the total number of genes analyzed. The SNP detection analysis revealed 100,734 SNPs in Holstein samples, and a large number of those corresponded to differences between the Holstein breed and the Hereford bovine genome assembly Btau4.0. The number of polymorphic SNPs within Holstein cows was 33,045. The accuracy of RNA-Seq SNP discovery was tested by comparing SNPs detected in a set of 42 candidate genes expressed in milk that had been resequenced earlier using Sanger sequencing technology. Seventy of 86 SNPs were detected using both RNA-Seq and Sanger sequencing technologies. The KASPar Genotyping System was used to validate unique SNPs found by RNA-Seq but not observed by Sanger technology. Our results confirm that analyzing the transcriptome using RNA-Seq technology is an efficient and cost-effective method to identify SNPs in transcribed regions. This study creates guidelines to maximize the accuracy of SNP discovery and prevention of false-positive SNP detection, and provides more than 33,000 SNPs located in coding regions of genes expressed during lactation that can be used to develop genotyping platforms to perform marker-trait association studies in Holstein cattle.

Published
2010

47. Conserved role of unc-79 in ethanol responses in lightweight mutant mice.

Author

Speca, David J, Chihara, Daisuke, Ashique, Amir M, Bowers, M Scott, Pierce-Shimomura, Jonathan T, Lee, Jungsoo, Rabbee, Nusrat, Speed, Terence P, Gularte, Rodrigo J, Chitwood, James, Medrano, Juan F, Liao, Mark, Sonner, James M, Eger, Edmond I, Peterson, Andrew S, and McIntire, Steven L

Subjects
Animals, Mice, Inbred C57BL, Mice, Caenorhabditis elegans, Body Weight, Ethanol, Ion Channels, Caenorhabditis elegans Proteins, Nerve Tissue Proteins, Motor Activity, Mutation, Female, Male, Inbred C57BL, Genetics, Developmental Biology
Abstract

The mechanisms by which ethanol and inhaled anesthetics influence the nervous system are poorly understood. Here we describe the positional cloning and characterization of a new mouse mutation isolated in an N-ethyl-N-nitrosourea (ENU) forward mutagenesis screen for animals with enhanced locomotor activity. This allele, Lightweight (Lwt), disrupts the homolog of the Caenorhabditis elegans (C. elegans) unc-79 gene. While Lwt/Lwt homozygotes are perinatal lethal, Lightweight heterozygotes are dramatically hypersensitive to acute ethanol exposure. Experiments in C. elegans demonstrate a conserved hypersensitivity to ethanol in unc-79 mutants and extend this observation to the related unc-80 mutant and nca-1;nca-2 double mutants. Lightweight heterozygotes also exhibit an altered response to the anesthetic isoflurane, reminiscent of unc-79 invertebrate mutant phenotypes. Consistent with our initial mapping results, Lightweight heterozygotes are mildly hyperactive when exposed to a novel environment and are smaller than wild-type animals. In addition, Lightweight heterozygotes exhibit increased food consumption yet have a leaner body composition. Interestingly, Lightweight heterozygotes voluntarily consume more ethanol than wild-type littermates. The acute hypersensitivity to and increased voluntary consumption of ethanol observed in Lightweight heterozygous mice in combination with the observed hypersensitivity to ethanol in C. elegans unc-79, unc-80, and nca-1;nca-2 double mutants suggests a novel conserved pathway that might influence alcohol-related behaviors in humans.

Published
2010

48. Serious limitations of the QTL/Microarray approach for QTL gene discovery

Author

Verdugo, Ricardo A, Farber, Charles R, Warden, Craig H, and Medrano, Juan F

Abstract

Abstract Background It has been proposed that the use of gene expression microarrays in nonrecombinant parental or congenic strains can accelerate the process of isolating individual genes underlying quantitative trait loci (QTL). However, the effectiveness of this approach has not been assessed. Results Thirty-seven studies that have implemented the QTL/microarray approach in rodents were reviewed. About 30% of studies showed enrichment for QTL candidates, mostly in comparisons between congenic and background strains. Three studies led to the identification of an underlying QTL gene. To complement the literature results, a microarray experiment was performed using three mouse congenic strains isolating the effects of at least 25 biometric QTL. Results show that genes in the congenic donor regions were preferentially selected. However, within donor regions, the distribution of differentially expressed genes was homogeneous once gene density was accounted for. Genes within identical-by-descent (IBD) regions were less likely to be differentially expressed in chromosome 2, but not in chromosomes 11 and 17. Furthermore, expression of QTL regulated in cis (cis eQTL) showed higher expression in the background genotype, which was partially explained by the presence of single nucleotide polymorphisms (SNP). Conclusions The literature shows limited successes from the QTL/microarray approach to identify QTL genes. Our own results from microarray profiling of three congenic strains revealed a strong tendency to select cis-eQTL over trans-eQTL. IBD regions had little effect on rate of differential expression, and we provide several reasons why IBD should not be used to discard eQTL candidates. In addition, mismatch probes produced false cis-eQTL that could not be completely removed with the current strains genotypes and low probe density microarrays. The reviewed studies did not account for lack of coverage from the platforms used and therefore removed genes that were not tested. Together, our results explain the tendency to report QTL candidates as differentially expressed and indicate that the utility of the QTL/microarray as currently implemented is limited. Alternatives are proposed that make use of microarray data from multiple experiments to overcome the outlined limitations.

Published
2010

49. Evidence of maternal QTL affecting growth and obesity in adult mice

Author

Casellas, Joaquim, Farber, Charles R., Gularte, Rodrigo J., Haus, Kari A., Warden, Craig H., and Medrano, Juan F.

Subjects
Life Sciences, Zoology, Anatomy, Cell Biology
Abstract

Most quantitative trait loci (QTL) studies fail to account for the effect that the maternal genotype may have on an individual’s phenotypes, even though maternal effect QTL have been shown to account for considerable variation in growth and obesity traits in mouse models. Moreover, the fetal programming theory suggests that maternal effects influence an offspring’s adult fitness, although the genetic nature of fetal programming remains unclear. Within this context, our study focused on mapping genomic regions associated with maternal effect QTL by analyzing the phenotypes of chromosomes 2 and 7 subcongenic mice from genetically distinct dams. We analyzed 12 chromosome 2 subcongenic strains that spanned from 70 to 180 Mb with CAST/EiJ donor regions on the background of C57BL/6 J, and 14 chromosome 7 subcongenic strains that spanned from 81 to 111 Mb with BALB/cByJ donor regions on C57BL/6ByJ background. Maternal QTL analyses were performed on the basis of overlapping donor regions between subcongenic strains. We identified several highly significant (P

Published
2009

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