Teses em Ciência Animal (Doutorado) - PPGCAN/Castanhal
URI Permanente para esta coleçãohttps://repositorio.ufpa.br/handle/2011/4665
O Doutorado em Ciência Animal teve início em 2008, com início da primeira turma em 2009 junto à CAPES/MEC e funciona no Programa de Pós-Graduação em Ciência Animal (PPGCAN) do Campus Universitário de Castanhal (CCAST) da Universidade Federal do Pará (UFPA), Empresa Brasileira de Pesquisa Agropecuária (EMBRAPA) e Universidade Federal Rural da Amazônia (UFRA).
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Navegando Teses em Ciência Animal (Doutorado) - PPGCAN/Castanhal por Orientadores "RIBEIRO, Haroldo Francisco Lobato"
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Item Acesso aberto (Open Access) Avaliação da dinâmica folicular, atividade ovariana e involução uterina durante o pós-parto de búfalas (Bubalus bubalis) criadas em condições tropicais(Universidade Federal do Pará, 2015-08-11) SILVA, Aluizio Otavio Almeida da; RIBEIRO, Haroldo Francisco Lobato; http://lattes.cnpq.br/1614582293203770In this experiment aimed to monitor the follicular dynamics and ovarian activity of buffalo females in the postpartum period through ultrasound exams, investigating whether some events related to ovarian activity in the Postpartum Period (PPP), and uterine involution, since the 7th day calved until the second post-partum estrus. ten were used (10) crossbred females between Murrah and Mediterranean breeds with eutócicas parities and no history of reproductive problems, managed in semi extensive system, with availability of water and mineral supplementation ad libitum. It was found the presence of follicular growth patterns of two waves (2 OCF) and three waves (3OCF) at a ratio of 40% and 60%, respectively. The 1st and 2nd postpartum estrus demonstrated to 37,00+13,12 and 58,83+14,56 days postpartum for 2OCF animals, 45,00 + 15,19 and 66,00 + 23.02 days postpartum for animal 3OCF. The estrous intervals were 21,00+2,44 and 21,83+2,56 days for animals 2OCF and 3OCF respectively. Follicular emergency occurred at an average of 1,02+0,34 and 7.25+0,50 days cycle for the first and second waveform, respectively, of animals and 2OCF 0,93+0,35; 6,6+1,36 and 10,83+1,94 days cycle for the first, second and third wave, respectively, for the animal 3OCF. The pre ovulatory follicular diameter was 13,08±2,6 and 11,45+0,35 mm for the 1st and 2nd postpartum estrus of 2 OCF animals and 13,24+2,41 and 12,74+1,10 mm for the 1st and 2nd postpartum estrus of 3OCF animals. The uterine involution occurred at an average of 29,00+1,48 days, (P <0.001), diameter of the post gravid uterine horn (DPGUH) around 18,84+0,33 mm. The rate of uterine involution was 0,97+0,21 mm/day, (P <0,001). There was a high correlation between the PPP and CUPG, represented by r = -0,8179 (P<0,0001), being possible to establish a linear regression between the two parameters, represented by the equation Y = 40,8809 + (-0,8214.X) (P<0,0001).Item Acesso aberto (Open Access) Polimorfismos na região promotora, Éxon I e Éxon II do gene do receptor da melatonina associados às características reprodutivas em búfalas na Amazônia(Universidade Federal do Pará, 2015-06-18) BARBOSA, Elizabeth Machado; RIBEIRO, Haroldo Francisco Lobato; http://lattes.cnpq.br/1614582293203770The buffaloes production in the Pará state have is a high representative activity to the regional economy and production of meat, milk and dairy products. Therefore, it is necessary to develop new technologies that increase the enjoyment of the production and reproduction of buffaloes in the Amazon region. Thus, the objectives of this research thesis was to characterize the promoter region of the melatonin receptor gene 1 (MTRN1A) and identify polymorphisms in exons I and II of that gene and link them to reproductive traits that have economic importance in buffaloes in the region Amazon. Were collected 400 buffaloes samples and 60 animals were used to characterize the promoter region, 140 to detect the polymorphism (SNPs) in exon II and 77 to detect the polymorphism in exon I. DNA extraction was peformed by phenol method. Then were selected different primers to make Polymerase Chain Reaction (PCR). The promoter region was sequenced MTRN1A a total of 1621 base pairs by the Sanger method, polymorphism in exon II was detected by PCR-RFLP (Restriction Fragment Length Polymorphism) with HpaI enzyme and the polymorphism exon I was found by sequencing DNA by Sanger method. Allele and genotype frequencies of all SNPs were evaluated, the inbreeding coefficient (Fis) and the likelihood of Hardy-Weinberg equilibrium. SNPs in the promoter region and exon I have been associated with reproductive traits of buffaloes by ANOVA or Student's t test and / or chisquare test. The significance level was 0,05. 26 SNPs were detected in the promoter region at positions -1511 (C → T), -1465 (G → T), -1422 (A → G), -1411 (G → A), -1395 (G → T), - 1298 (A → G) -1295 (G → A) -1242 (C → A) -1150 (C → T), -1 147 (G → C) -1136 (A → G) -911 ( G → A), -909 (A → G) -724 (C → G) -656 (A → C) -649 (C → T), -644 (G → A), -511 (A → C) -481 (G → A), -425 (C → T) -395 (G → A), -383 (G → T), -254 (C → T) -206 (T → C) , -133 (T → G) and -94 (C → T) and a deletion unit (ACAA) at position -1483. Of the total detected SNPs, 75% of the wild alleles tiveral frequencies greater than 0,5. For the characteristic interval between calving (IEP), only five SNPs (-1298, -1136, -911, -724 and - 656) were significantly associated (P <0.05) and three SNPs (-1395, -724 and -94) were significantly associated (P <0.05) with the characteristic age at first calving (IPP) and none for the characteristic concentration of deliveries (P> 0.05). A total of 11 SNPs was strongly associated with binding factors in gene regulation. The SNP in exon II by PCR-RFLP (HpaI) at position 306 (T → C), the most frequent allele T in Upland animals (0,529) and C in lowland animals, the two populations showed coefficients Fis inbreeding (0,040 and 0,091, respectively) and strong deviations from Hardy-Weinberg equilibrium (P> 0.05). The mutation occurs at codon 106 and is the sinonímio type without changing the messenger RNA handles structure. The SNP in exon I was detected at position 62 (T → C) and of the non sinonímio, exchanging of Leucine to Proline. The mutant allele was the most frequent C (0,623) inbreeding coefficient Fis = 0.397 and Hardy-Weinberg deviations (P <0.05). None of the genotypes were associated with calving interval and age at first birth (P> 0.05). Therefore, SNPs are strong candidates for selection, but it would be interesting to evaluate them in other herds in the Amazon region and / or in other regions of Brazil and / or other countries to effect them as excellent molecular markers for reproductive traits of buffalo.Item Acesso aberto (Open Access) Polimorfismos no gene da osteopontina e suas associações com a fertilidade de búfalos na Amazônia(Universidade Federal do Pará, 2012-09-24) ROLIM FILHO, Sebastião Tavares; RIBEIRO, Haroldo Francisco Lobato; http://lattes.cnpq.br/1614582293203770Because the osteopontin gene can influence the fertility of water buffaloes, the aim of this work was to identify polymorphisms in this gene and associate them with fertility parameters of animals kept under extensive grazing. We used 306 male buffaloes older than 18 months, bred on two farms, one in the state of Amapá and the other in the state of Pará. We identified three SNP for the region amplified by the primer OS4 (5`UTR) and four SNP polymorphisms for the region amplified by the primer OS9 (exon 5 to exon 6). The polymorphisms were in positions 1478, 1513 and 1611 in the region amplified by OS4 and positions 6690, 6737, 6925 and 6952 in the region amplified by OS9. We calculated correlations with the traits scrotal circumference and volume and sperm motility, concentration and pathology. There were SNPs for all the traits studied at 5% significance: for circumference, SNP 6690; for volume, SNP 6737; for concentration, SNP 6690; for motility, SNP 6690; and for pathology, SNP 6690. Therefore, SNP 6690 was related to four traits. The AA genotype of SNP 6690 presented the highest averages for scrotal circumference, sperm concentration and motility and the lowest total number of pathologies. However, for the scrotal volume trait, the animals with the largest volume were correlated with the presence of the GG genotype of SNP 6737. This indicates that the osteopontin gene is important because it can have a substantial influence on the reproductive traits of male buffaloes.