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Estudo de polimorfismos do gene candidato, fator miogênico-5 (myf-5), em suínos / Study of the polymorphism in candidate gene myogenic factor-5 (myf-5) in swineCarmo, Fausto Moreira da Silva 30 January 2003 (has links)
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Previous issue date: 2003-01-30 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Com o desenvolvimento de técnicas de biologia molecular e o uso dos marcadores de DNA, tem sido possível associar regiões genômicas com características de importância econômica. Algumas regiões genômicas possuem genes que exercem efeitos sobre determinada característica. Nessa mesma região, podem existir seqüências polimórficas, não codificadas, que servem como marcadores e, se estiverem em desequilíbrio de ligação, podem ser seguidas através de gerações de famílias formadas por linhagens divergentes. A formação dessas famílias facilita as análises de associações entre as regiões genômicas e as características fenotípicas analisadas, geralmente, na geração F2. Genes seqüenciados, com ação biológica conhecida, poderão ter formas alélicas identificadas, as quais poderão ser usadas em Seleção Assistida por Marcador, Marker Assisted Selection-MAS, aumentando a rapidez na resposta à seleção. Com o intuito de identificar novas formas alélicas, o gene candidato para o desenvolvimento muscular hiperplásico, fator miogênico-5 (mfy-5), de animais parentais, de uma geração F2 formada por machos da raça nativa Piau e fêmeas comerciais, foi amplificado por meio da reação em cadeia da polimerase - Polymerase Chain Reaction (PCR) e seqüenciado, utilizando-se seqüenciamento automático pelo método de Sanger. As seqüências geradas foram comparadas com uma seqüência homologa depositada no GenBank. Foram constatadas deleções e inserções de 1 até 3 pares de bases nas seqüências obtidas da geração parental. Essas mutações geraram diferenças alélicas observadas na F2. Os genótipos na geração F2 apresentaram duas classes mais comuns: Normal/Normal (NN) e Normal/Inserção (NI). Estes genótipos foram correlacionados, por meio de modelos estatísticos, às características de desempenho, características de carcaça e qualidade da carne. Os resultados foram significativos (P<0,05), sendo o alelo “I” responsável por maior peso de paleta, maior perda d’água por gotejamento, cozimento e perda total. O novo alelo pode ser usado em programas de seleção, nos quais deve ser monitorado e mesmo associado com outras características de qualidade da carne. / With the development of molecular biology techniques by means of DNA markers, it has been possible to associate chromosomic regions with economic traits. Some chromosomic regions have genes that produce effects on a given trait, those areas have not coded polymorphic sequences either, that serve as markers and if they are in linkage disequilibrium, they can be followed through generations of families formed by divergent lines that facilitate the analyses, because of the largest difference presented in F2 generation. It still exists the possibility of genes with great effect in economic traits that are responsible for phenotypic evaluated effects. Sequenced genes, with known biological action, may have allelic variants identified and, if they present phenotypic differences in the analyzed traits, those allelic variants can be used in Marker Assisted Selection-MAS. In the present work, a candidate gene, related to muscular hiperphasic development, was PCR amplified and sequenced by the Sanger method in parental animals of a F2 population, formed by two Brazilian Native boais (Piau breed) and 18 commercial females. The generated sequences were compared to the GenBank sequence number Y17154. Deletions and insertions of one up to three bases in the viiisequences obtained from some parental animals were observed. The genotypes in the F2 generation were lifted up and tended as more common, two classes Normal/Normal (NN) and Normal/Insertion (NI). The genotype were associated, by means of statistical models, to performance, carcass and meat quality traits. The results were significant for picnic shoulder weight, brightness, drip, cooking and total loss. The new allele may be used in breeding programs, where it must be monitored and even associated to the other meat quality traits.
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Epigenetic Regulation of Muscle Stem and Progenitor CellsAddicks, Gregory Charles January 2018 (has links)
Epigenetic mechanisms are of fundamental importance for resolving and maintaining cellular identity. The mechanisms regulating muscle stem and progenitor cell identity have ramifications for understanding all aspects of myogenesis. The epigenetic mechanisms regulating muscle stem cells are therefore important aspects for understanding the regulation of muscle regeneration and maintenance.
Important roles for the trithorax H3K4 histone methyltransferase (HMT) MLL1 have been established for early embryogenesis, and for hematopoietic and neural identity. Here, using a conditional Mll1 knockout (KO), we find that in vivo, MLL1 is necessary for efficient muscle regeneration, and for maintenance and proliferation of muscle stem and progenitor cells. Loss of Mll1 in cultured myoblasts reveals an essential role for expression of the myogenic specification gene Pax7.
Mll1 KO results in a minor decrease in Pax7 mRNA and a strong decrease of Pax7 protein. While MLL1 was found to bind the Pax7 promoter, Mll1 KO results in a minor decrease of H3K4me3 at Pax7, supporting a recognized non-HMT role for Mll1 at Pax7. Microarray analysis of mRNA expression in Mll1 KO myoblasts finds that Myf5 is the most strongly downregulated of all genes, unexpectedly, mRNA expression of previously identified MLL1 targets are unaffected by loss of MLL1 in myoblasts. Pax7 activates Myf5 expression through recruitment of a H3K4 HMT, and in Mll1 KO myoblasts expression of, and H3K4me3 at Myf5 is lost. Exogenous Pax7 rescues Myf5 expression and H3K4me3 at Myf5 in the absence of MLL1, indicating that Myf5 expression is conditional on Pax7, but not MLL1.
We also show that Myf5 DNA is methylated in non-myogenic cells, and in satellite stem cells that have never expressed Myf5, but is not methylated in satellite cells that are committed to the myogenic lineage, indicating that demethylation of Myf5 may be a fundamental step in myogenic commitment. Intriguingly, Myf5 promoter DNA becomes remethylated in Mll1 KO myoblasts.
This work finds that Pax7 expression and myogenic identity is partly dependent on MLL1 expression. Further, evidence is uncovered that myogenic commitment is initiated by demethylation of Myf5. These findings add to the understanding of the epigenetic mechanisms that regulate and define muscle stem cells.
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Caractérisation de nouvelles subpopulations de progéniteurs musculaires au cours du développement embryonnaire des amniotesPicard, Cyril 11 January 2013 (has links)
Chez les vertébrés, les muscles squelettiques du corps sont dérivés de la partie dorsale dessomites, le dermomyotome, structure transitoire mésodermique. Une première étape demyogenèse aboutit à la formation d’un muscle primitif, le myotome primaire, à partir desbordures du dermomyotome : ces cellules constituent les premières fibres musculaires, et formentl’architecture de base du futur muscle. Dans un second temps, une population de progéniteursmusculaires émerge de la région centrale du dermomyotome. Cette population est primordialedans la constitution du muscle. Elle prolifère, et une partie d’entre elle fusionne aux fibresexistantes pour donner les fibres multinucléées adultes. Finalement, une partie des progéniteursmusculaires reste indifférenciée jusqu’à l’âge adulte et compose la population de cellules souchesmusculaires, les cellules satellites. Ainsi, les progéniteurs musculaires contribuent audéveloppement musculaire tout au long du développement embryonnaire et foetal, mais égalementà la myogenèse post-natale avec les cellules satellites.Lors de ma thèse, je me suis intéressé à cette population de progéniteurs musculaires. Deux souspopulationsde progéniteurs musculaires ont précédemment été identifiées dans notre laboratoireau cours de l’embryogénèse précoce de poulet, l’une exprimant le facteur de transcription Pax7,l’autre co-exprimant Pax7 et le facteur de différenciation myogénique précoce Myf5. Face àl’absence de données concernant les progéniteurs musculaires, et à l’importance de cettepopulation pour la myogenèse, j’ai réalisé une étude systématique des progéniteurs musculairestout au long du développement embryonnaire et foetal de deux organismes modèles : le poulet etla souris. J’ai pu montrer que ces deux sous-populations coexistent tout au long dudéveloppement, depuis l’émergence des progéniteurs de la partie centrale du dermomyotome,jusqu’au moment où ces cellules deviennent des cellules satellites à la fin du développementfoetal. De manière très intéressante, j’ai pu montrer qu’au sein des progéniteurs musculaires, lapopulation principale co-exprime Pax7 et Myf5, et prolifère activement, alors que la populationPax7 est mineure et prolifère à un taux moins élevé. Cette dernière entre de manière importanteen quiescence à la fin du développement embryonnaire. Ces caractéristiques sont semblablesentre le poulet et la souris, et montrent que des stratégies cellulaires et moléculaires similairessont conservées au sein des amniotes. / Duringembryonicandfetallife,skeletalmusclegrowthisdependentupontheproliferationandthedifferentiationofapopulationofresidentmuscleprogenitors,fromwhichderivethemusclestemcellsof theadult,thesatellitecells.Underpoorlydefinedextrinsicandintrinsicinfluences,muscleprogenitorsproliferate,differentiateorenteraquiescentstatetobecomereservesatellitecells.Despitetheir primordialrole,surprisinglylittleisknownonthehomeostasisofresidentprogenitorsduringembryogenesis.Preliminarystudiesinchickandmousedescribingthekeyprogenitorpopulationscontributingtomusclegrowthduringembryogenesishaveledtodifferingresultsthatcouldbeduetotechnicalissuesortofundamentaldifferencesbetweenanimalmodels.Toaddressthisquestion,we haveundertakenacomprehensiveanalysisofthestateofdifferentiationandproliferationofmuscleprogenitorcellsfromthetimeoftheiremergencewithinthedermomyotomeuntillatefetallife,whenthey adoptasatellitecell-likepositionunderthebasallamina.Thiswasdonebyimmunostainingagainstkeyplayersofmyogenicdifferentiation,inmuscleschosenfromdifferentregionsofthebodyintwo modelorganisms,thechickandmouse.This studyidentifiedtwoco-existingpopulationsofprogenitorsduringembryonicandfetallifeinboth chickandmouse:aminor,slow-cyclingpoolofundifferentiatedresidentprogenitorswhichexpress Pax7,co-existingwithamajorfast-cyclingpopulationthatco-expressPax7andtheearlymyogenicdifferentiationmarkerMyf5.Wefoundthattheoverallproliferationrateofbothprogenitorsdrasticallydecreasedwithembryonicage,asanincreasinglylargeportionofslowandfast-cyclingprogenitorsenteredquiescenceduringdevelopment.Together,thisdatasuggeststhatthecellularstrategiesthatdrivemusclegrowthduringembryonicand fetallifeareremarkablyconservedinamniotesthroughoutevolution.Theyrelyonthetightregulationofproliferation,entryinquiescence,andmodulationofthecellcycle’slengthforbothoftheco-existingpopulationsofmuscleprogenitorstomaintainthehomeostasisofgrowingmusclesduringdevelopment.
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Analýza vybraných kandidátních lokusů ovlivňujících užitkové vlastnosti a zdraví zvířat / The analysis of chosen candidate loci influencing commercial properties and animal healthČUNÁTOVÁ, Štěpánka January 2015 (has links)
The aim of this thesis was to analyze the polymorphism in position -371bp (related to ATG start codone) of MSTN gene, SNP in position 1984bp of MYF5 gene and influence of these polymorphisms on tenderness, water holding capacity, pH and color of meat. Samples (241) of bull meat of Czech pied cattle were used for analysis. PCR-RFLP method was applied to genotype MSTN and MYF5 genes. For polymorphisms detection was used restriction endonucleases DraI (for MSTN gene) and TaqI (for MYF5 gene). From established genotypes were computed their frequencies and alleles frequencies. The frequencies of genotypes in MSTN gene were AA=0,729, AB=0,258, BB=0,013 and alleles frequencies were A=0,858, B=0,142. The frequencies of genotypes in MYF5 gene were AA=0,181, AB=0,542, BB=0,278 and alleles frequencies were A=0,452 a B=0,548. Using statistical analysis, the influence of genotypes of MYF5 gene on the water holding capacity, pH and the color of meat was determined.
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Myf5 Does Not Induce Apoptosis In Skeletal Myoblasts But Is Regulated By Oncogenic Ras ExpressionTalarico, Alexander Phillip 10 August 2009 (has links)
No description available.
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Studying the Patterning Mechanisms and Cell Fates during Limb Regeneration in Ambystoma mexicanumKragl, Martin 15 January 2008 (has links) (PDF)
We studied patterning mechanisms and cell fates during limb regeneration in the axolotl. 1) It is crucial to understand the earliest events of patterning. Since it is technically challenging to study early events, we established single cell PCR. This new tool will allow us to obtain novel insight into the initial steps of limb patterning. 2)We have examined the roles of different tissues regarding their fates and features of proximo- distal patterning. Our strategy was to transplant GFP+ skin, skeleton, muscle and Schwann cells from transgenic donors to limbs of wild type hosts, amputate through the graft and analyze fluorescent progeny combined with the use of molecular markers. Our results revealed that different subpopulations of blastema cells exist regarding two aspects. First, we found that progeny of skin and skeleton have some tissue specific memory since they did not give rise to muscle lineages. However, cells of the skin contributed to other mesenchymal tissues like cartilage or tendons, while the majority of skeleton- derived cells undergoes self- renewal. Second, we performed one cellular and two molecular assays to investigate what tissues generate cells that exhibit features of proximo- distal patterning. Both assays revealed that Schwann cell- derived progeny do not display such features while progeny of skin, skeleton and muscle did. Therefore, we conclude that the blastema is a heterogeneous mix of cells regarding tissue lineages and features of proximo- distal patterning.
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Studying the Patterning Mechanisms and Cell Fates during Limb Regeneration in Ambystoma mexicanumKragl, Martin 25 October 2007 (has links)
We studied patterning mechanisms and cell fates during limb regeneration in the axolotl. 1) It is crucial to understand the earliest events of patterning. Since it is technically challenging to study early events, we established single cell PCR. This new tool will allow us to obtain novel insight into the initial steps of limb patterning. 2)We have examined the roles of different tissues regarding their fates and features of proximo- distal patterning. Our strategy was to transplant GFP+ skin, skeleton, muscle and Schwann cells from transgenic donors to limbs of wild type hosts, amputate through the graft and analyze fluorescent progeny combined with the use of molecular markers. Our results revealed that different subpopulations of blastema cells exist regarding two aspects. First, we found that progeny of skin and skeleton have some tissue specific memory since they did not give rise to muscle lineages. However, cells of the skin contributed to other mesenchymal tissues like cartilage or tendons, while the majority of skeleton- derived cells undergoes self- renewal. Second, we performed one cellular and two molecular assays to investigate what tissues generate cells that exhibit features of proximo- distal patterning. Both assays revealed that Schwann cell- derived progeny do not display such features while progeny of skin, skeleton and muscle did. Therefore, we conclude that the blastema is a heterogeneous mix of cells regarding tissue lineages and features of proximo- distal patterning.
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