Your search keyword '"Fortes, M. R. S."' showing total 9 results

1. Adipose tissue proteomic analyses to study puberty in Brahman heifers

Author

Nguyen, L T, primary, Zacchi, L F, additional, Schulz, B L, additional, Moore, S S, additional, and Fortes, M R S, additional

Published

2018

2. Genomic inbreeding depression for climatic adaptation of tropical beef cattle1

Author

Reverter, A., primary, Porto-Neto, L. R., additional, Fortes, M. R. S., additional, Kasarapu, P., additional, de Cara, M. A. R., additional, Burrow, H. M., additional, and Lehnert, S. A., additional

Published

2017

3. Multiple-trait genomewide mapping and gene network analysis for scrotal circumference growth curves in Brahman cattle1

Author

Soares, A. C. C., primary, Guimarães, S. E. F., additional, Kelly, M. J., additional, Fortes, M. R. S., additional, e Silva, F. F., additional, Verardo, L. L., additional, Mota, R., additional, and Moore, S., additional

Published

2017

4. Global differential gene expression in the pituitary gland and the ovaries of pre- and postpubertal Brahman heifers1

Author

Nguyen, L. T., primary, Reverter, A., additional, Cánovas, A., additional, Venus, B., additional, Islas-Trejo, A., additional, Porto-Neto, L. R., additional, Lehnert, S. A., additional, Medrano, J. F., additional, Moore, S. S., additional, and Fortes, M. R. S., additional

Published

2017

5. Effect of maternal nutrition and days of gestation on pituitary gland and gonadal gene expression in cattle.

Author

Weller, M. M. D. C. A., Fortes, M. R. S., Marcondes, M. I., Rotta, P. P., Gionbeli, T. R. S., Valadares Filho, S. C., Campos, M. M., Silva, F. F., Silva, W., Moore, S., and Guimarães, S. E. F.

Subjects

*MATERNAL nutrition, *FETAL development, *GENE expression, *PREGNANCY in animals, *PITUITARY gland, *PHYSIOLOGY, *CATTLE

Abstract

This study investigated effects of maternal overnutrition on gonadal development and pituitary-gonadal gene expression in cattle fetuses at mid- and late-gestation. Twenty-seven multiparous dry cows were fed either high (ad libitum, H) or moderate (M) intake of the same diet. Twelve cows from H (n = 6) and M (n = 6) intake carrying females fetuses were euthanized at 199 and 268 d of gestation (DG; n = 3 for H or M on each DG). Fifteen cows from H (n = 6) and M intake (n = 9) carrying male fetuses were euthanized at 139, 199, and 241 DG (n = 2 for H and n = 3 for M on each DG). Fetal gonads and pituitary gland were sampled for gene expression and histological analyses. Sex-specific responses to maternal intake were observed. Primordial and total follicle numbers were lower in fetal ovaries from H than in M intake cows. These results were the reverse for preantral and antral follicles. Volumetric proportion and diameter of seminiferous cord were lower in fetal testis of H than M intake cows. The expression level of FSHB was greater in pituitary gland of the female fetus from H compared with M intake cows, irrespective of DG, whereas LHB gene expression did not differ. In males, FSHB and LHB gene expression levels were similar between maternal intake groups. Fetal ovarian expression of P450 aromatase, StAR, BMPR2, TGFBR1, GDF9, FSHR, Bax, and CASP3 genes were higher in H than in M intake cows, irrespective of DG. Fetal testicular expression of StAR, HSD17B3, IGF1, IGF2, and IGF1R genes was higher in M than in H intake cows. The differences in gene expression for steroidogenesis, folliculogenesis, and apoptosis may explain the distinct pattern of follicular growth between offspring of M and H intake cows. By contrast, the lower volumetric proportion, diameter, and length of seminiferous cord may relate to decreased gene expression in fetal testis from H intake cows. In conclusion, maternal H intake seems to affect fetal ovarian follicular growth and number of follicles, which may affect the size of ovarian reserve in their offspring. In male fetus, maternal H intake seems to disturb testicular development and may have implications on sperm production. The underlying mechanism of differential gene expression and the effect on offspring reproductive potential should be the focus of further research, especially considering larger sample size, reducing the chance for type I errors. [ABSTRACT FROM AUTHOR]

Published

2016

6. Prospecting major genes in dairy buffaloes.

Author

de Camargo, G. M. F., Aspilcueta-Borquis, R. R., Fortes, M. R. S., Porto-Neto, R., Cardoso, D. F., Santos, D. J. A., Lehnert, S. A., Reverter, A., Moore, S. S., and Tonhati, H.

Subjects

WATER buffalo, GENE expression, ANIMAL diversity, GENOMES, WATER buffalo milk yield

Abstract

Background: Asian buffaloes (Bubalus bubalis) have an important socio-economic role. The majority of the population is situated in developing countries. Due to the scarce resources in these countries, very few species-specific biotechnology tools exist and a lot of cattle-derived technologies are applied to buffaloes. However, the application of cattle genomic tools to buffaloes is not straightforward and, as results suggested, despite genome sequences similarity the genetic polymorphisms are different. Results: The first SNP chip genotyping platform designed specifically for buffaloes has recently become available. Herein, a genome-wide association study (GWAS) and gene network analysis carried out in buffaloes is presented. Target phenotypes were six milk production and four reproductive traits. GWAS identified SNP with significant associations and suggested candidate genes that were specific to each trait and also genes with pleiotropic effect, associated to multiple traits. Conclusions: Network predictions of interactions between these candidate genes may guide further molecular analyses in search of disruptive mutations, help select genes for functional experiments and evidence metabolism differences in comparison to cattle. The cattle SNP chip does not offer an optimal coverage of buffalo genome, thereafter the development of new buffalo-specific genetic technologies is warranted. An annotated reference genome would greatly facilitate genetic research, with potential impact to buffalo-based dairy production. [ABSTRACT FROM AUTHOR]

Published

2015

7. Comparison of metabolic, hematological, and peripheral blood leukocyte cytokine profiles of dairy cows and heifers during the periparturient period.

Author

Jonsson, N. N., Fortes, M. R. S., Piper, E. K., Vankan, D. M., De Cisneros, J. Prada J., and Wittek, T.

Subjects

*DAIRY cattle, *COWS, *CATTLE parturition, *CATTLE reproduction, *CYTOKINES, *HYPOCALCEMIA, *HEIFERS

Abstract

The periparturient period presents major physiological challenges for the dairy cow. It is a period that is affected by metabolic stressors, major changes in endocrine status, and altered immune function, which together result in an increased risk of disease. Immunological, hematological, and metabolic profiles from the periparturient period of heifers (primipara) were compared with those of cows (pluripara) to test the hypothesis that at the time of calving they have qualitatively different peripheral blood profiles. Blood samples were collected from 22 Holstein-Friesian animals on 3 occasions: approximately 2 wk before calving, within 24 h after calving, and approximately 2 wk after calving. Quantitative PCR was used to measure the expression of a selected set of cytokines and receptors by peripheral blood leukocytes. Additional analyses included hemoglobin concentration, red cell, platelet and white cell counts (total and differentiated), and clinical diagnostic biochemical profiles. Total leukocyte counts, neutrophils, and lymphocytes were higher in heifers than cows before calving and within 24 h after calving. Alkaline phosphatase was consistently higher in heifers than cows and several significant differences were observed between the 2 groups with regards to cytokine and cytokine-receptor mRNA expression. The results warrant further investigation from the perspective of identifying risk factors for metabolic and parturient disease in dairy cattle. [ABSTRACT FROM AUTHOR]

Published

2013

8. Real-time PCR genotyping and frequency of the myostatin F94L mutation in beef cattle breeds.

Author

Vankan, D. M., Waine, D. R., and Fortes, M. R. S.

Subjects

DNA polymerases, GENE frequency, ANIMAL carcasses, SIMMENTAL cattle, DROUGHTMASTER cattle, LIMOUSIN cattle, CHAROLAIS cattle

Abstract

This research developed two real-time PCR assays, employing high-resolution melt and allele-specific analysis to accurately genotype the F94L mutation in cattle. This mutation (g.433C>A) in the growth differentiation factor 8 or myostatin gene has recently been shown to be functionally associated with increased muscle mass and carcass yield in cattle. The F94L mutation is not, like other myostatin mutations, associated with reduced fertility and dystocia. It is therefore a candidate for introgression into other breeds to improve retail beef yield and the development of a simple and accurate test to genotype this specific mutation is warranted. Variations in the efficiency of enzyme cleavage compromised the accuracy of genotyping by published methods, potentially resulting in an overestimation of the frequency of the mutant allele. The frequency of the F94L mutation was determined by real-time PCR in 1140 animals from 15 breeds of cattle in Australia. The mutation was present in Simmental (0.8%), Piedmontese (2%), Droughtmaster (4%) and Limousin (94.2%) but not found in Salers, Angus, Poll Hereford, Hereford, Gelbvieh, Charolais, Jersey, Brahman, Holstein, Shorthorn or Maine Anjou. The low prevalence of F94L in all beef breeds except Limousin indicates the significant potential for this mutation to improve retail yield in Australian beef cattle. [ABSTRACT FROM AUTHOR]

Published

2010

9. SNP detection using RNA-sequences of candidate genes associated with puberty in cattle.

Author

Dias MM, Cánovas A, Mantilla-Rojas C, Riley DG, Luna-Nevarez P, Coleman SJ, Speidel SE, Enns RM, Islas-Trejo A, Medrano JF, Moore SS, Fortes MR, Nguyen LT, Venus B, Diaz IS, Souza FR, Fonseca LF, Baldi F, Albuquerque LG, Thomas MG, and Oliveira HN

Subjects

Animals, Base Sequence, Cattle, Female, Fertility genetics, Genome, Male, Polymorphism, Single Nucleotide, Pregnancy, RNA genetics, Selection, Genetic, Sequence Analysis, RNA methods, Sexual Maturation, Puberty genetics

Abstract

Fertility traits, such as heifer pregnancy, are economically important in cattle production systems, and are therefore, used in genetic selection programs. The aim of this study was to identify single nucleotide polymorphisms (SNPs) using RNA-sequencing (RNA-Seq) data from ovary, uterus, endometrium, pituitary gland, hypothalamus, liver, longissimus dorsi muscle, and adipose tissue in 62 candidate genes associated with heifer puberty in cattle. RNA-Seq reads were assembled to the bovine reference genome (UMD 3.1.1) and analyzed in five cattle breeds; Brangus, Brahman, Nellore, Angus, and Holstein. Two approaches used the Brangus data for SNP discovery 1) pooling all samples, and 2) within each individual sample. These approaches revealed 1157 SNPs. These were compared with those identified in the pooled samples of the other breeds. Overall, 172 SNPs within 13 genes (CPNE5, FAM19A4, FOXN4, KLF1, LOC777593, MGC157266, NEBL, NRXN3, PEPT-1, PPP3CA, SCG5, TSG101, and TSHR) were concordant in the five breeds. Using Ensembl's Variant Effector Predictor, we determined that 12% of SNPs were in exons (71% synonymous, 29% nonsynonymous), 1% were in untranslated regions (UTRs), 86% were in introns, and 1% were in intergenic regions. Since these SNPs were discovered in RNA, the variants were predicted to be within exons or UTRs. Overall, 160 novel transcripts in 42 candidate genes and five novel genes overlapping five candidate genes were observed. In conclusion, 1157 SNPs were identified in 62 candidate genes associated with puberty in Brangus cattle, of which, 172 were concordant in the five cattle breeds. Novel transcripts and genes were also identified.

Published

2017