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2.
Braz. j. biol ; Braz. j. biol;80(1): 39-46, Feb. 2020. graf
Article in English | LILACS | ID: biblio-1089293

ABSTRACT

Abstract The current study aimed to assess whether the A122V causal polymorphism promotes alterations in the functional and structural proprieties of the CXC chemokine receptor type 1 protein (CXCR1) of cattle Bos taurus by in silico analyses. Two amino acid sequences of bovine CXCR1 was selected from database UniProtKB/Swiss-Prot: a) non-polymorphic sequence (A7KWG0) with alanine (A) at position 122, and b) polymorphic sequence harboring the A122V polymorphism, substituting alanine by valine (V) at same position. CXCR1 sequences were submitted as input to different Bioinformatics' tools to examine the effects of this polymorphism on functional and structural stabilities, to predict eventual alterations in the 3-D structural modeling, and to estimate the quality and accuracy of the predictive models. The A122V polymorphism exerted tolerable and non-deleterious effects on the polymorphic CXCR1, and the predictive structural model for polymorphic CXCR1 revealed an alpha helix spatial structure typical of a receptor transmembrane polypeptide. Although higher variations in the distances between pairs of amino acid residues at target-positions are detected in the polymorphic CXCR1 protein, more than 97% of the amino acid residues in both models were located in favored and allowed conformational regions in Ramachandran plots. Evidences has supported that the A122V polymorphism in the CXCR1 protein is associated with increased clinical mastitis incidence in dairy cows. Thus, the findings described herein prove that the replacement of the alanine by valine amino acids provokes local conformational changes in the A122V-harboring CXCR1 protein, which could directly affect its post-translational folding mechanisms and biological functionality.


Resumo O presente estudo objetivou avaliar se o polimorfismo causal A122V promove alterações nas propriedades funcionais e estruturais da proteína receptora de quimiocina CXC do tipo 1 (CXCR1) de bovino Bos taurus por análises in silico. Duas sequências de aminoácidos da CXCR1 bovina foram selecionadas a partir do banco de dados UniProtKB/Swiss-Prot: a) sequência não-polimórfica (A7KWG0) contendo alanina (A) na posição 122, e b) sequência polimórfica carreando o polimorfismo A122V, causando a substituição de alanina por valina (V) na mesma posição. As sequências CXCR1 foram analisadas por diferentes ferramentas de Bioinformática para examinar o efeito desse polimorfismo sobre sua estabilidade, função e estrutura, predizer eventuais alterações na sua modelagem estrutural 3-D, bem como estimar a qualidade dos modelos preditos. O polimorfismo A122V exerceu efeitos toleráveis e não-deletérios sobre a CXCR1 polimórfica, apresentando um modelo estrutural de alfa-hélice típico de uma proteína receptora transmembranar para ambas as proteínas. Embora maiores variações nas distâncias entre os pares de aminoácidos nas posições-alvo tenham sido detectadas na proteína polimórfica, mais do que 97% dos aminoácidos em ambos os modelos foram situados em regiões ditas favoráveis e permitidas nos diagramas de Ramachandran. Evidências sustentam que o polimorfismo de nucleotídeo único A122V na proteína receptora CXCR1 está associado à aumentada incidência de mastite clínica em vacas leiteiras. Assim, as descobertas descritas aqui comprovam que a substituição do aminoácido alanina por valina provoca mudanças conformacionais locais na proteína CXCR1 polimórfica, que podem estar diretamente afetando seus mecanismos de enovelamento pós-traducionais e sua função biológica.


Subject(s)
Animals , Female , Polymorphism, Single Nucleotide , Receptors, Interleukin-8A , Cattle , Amino Acid Sequence
3.
Journal of Stroke ; : 340-346, 2019.
Article in English | WPRIM | ID: wpr-766257

ABSTRACT

BACKGROUND AND PURPOSE: Prediction of intracranial aneurysm growth risk can assist physicians in planning of follow-up imaging of conservatively managed unruptured intracranial aneurysms. We therefore aimed to externally validate the ELAPSS (Earlier subarachnoid hemorrhage, aneurysm Location, Age, Population, aneurysm Size and Shape) score for prediction of the risk of unruptured intracranial aneurysm growth. METHODS: From 11 international cohorts of patients ≥18 years with ≥1 unruptured intracranial aneurysm and ≥6 months of radiological follow-up, we collected data on the predictors of the ELAPSS score, and calculated 3- and 5-year absolute growth risks according to the score. Model performance was assessed in terms of calibration (predicted versus observed risk) and discrimination (c-statistic). RESULTS: We included 1,072 patients with a total of 1,452 aneurysms. During 4,268 aneurysm-years of follow-up, 199 (14%) aneurysms enlarged. Calibration was comparable to that of the development cohort with the overall observed risks within the range of the expected risks. The c-statistic was 0.69 (95% confidence interval [CI], 0.64 to 0.73) at 3 years, compared to 0.72 (95% CI, 0.68 to 0.76) in the development cohort. At 5 years, the c-statistic was 0.68 (95% CI, 0.64 to 0.72), compared to 0.72 (95% CI, 0.68 to 0.75) in the development cohort. CONCLUSIONS: The ELAPSS score showed accurate calibration for 3- and 5-year risks of aneurysm growth and modest discrimination in our external validation cohort. This indicates that the score is externally valid and could assist patients and physicians in predicting growth of unruptured intracranial aneurysms and plan follow-up imaging accordingly.


Subject(s)
Humans , Aneurysm , Calibration , Cohort Studies , Discrimination, Psychological , Follow-Up Studies , Intracranial Aneurysm , Risk Factors , Subarachnoid Hemorrhage
4.
Braz. j. biol ; Braz. j. biol;2017.
Article in English | LILACS-Express | LILACS, VETINDEX | ID: biblio-1467257

ABSTRACT

Abstract The current study aimed to assess whether the A122V causal polymorphism promotes alterations in the functional and structural proprieties of the CXC chemokine receptor type 1 protein (CXCR1) of cattle Bos taurus by in silico analyses. Two amino acid sequences of bovine CXCR1 was selected from database UniProtKB/Swiss-Prot: a) non-polymorphic sequence (A7KWG0) with alanine (A) at position 122, and b) polymorphic sequence harboring the A122V polymorphism, substituting alanine by valine (V) at same position. CXCR1 sequences were submitted as input to different Bioinformatics tools to examine the effects of this polymorphism on functional and structural stabilities, to predict eventual alterations in the 3-D structural modeling, and to estimate the quality and accuracy of the predictive models. The A122V polymorphism exerted tolerable and non-deleterious effects on the polymorphic CXCR1, and the predictive structural model for polymorphic CXCR1 revealed an alpha helix spatial structure typical of a receptor transmembrane polypeptide. Although higher variations in the distances between pairs of amino acid residues at target-positions are detected in the polymorphic CXCR1 protein, more than 97% of the amino acid residues in both models were located in favored and allowed conformational regions in Ramachandran plots. Evidences has supported that the A122V polymorphism in the CXCR1 protein is associated with increased clinical mastitis incidence in dairy cows. Thus, the findings described herein prove that the replacement of the alanine by valine amino acids provokes local conformational changes in the A122V-harboring CXCR1 protein, which could directly affect its post-translational folding mechanisms and biological functionality.


Resumo O presente estudo objetivou avaliar se o polimorfismo causal A122V promove alterações nas propriedades funcionais e estruturais da proteína receptora de quimiocina CXC do tipo 1 (CXCR1) de bovino Bos taurus por análises in silico. Duas sequências de aminoácidos da CXCR1 bovina foram selecionadas a partir do banco de dados UniProtKB/Swiss-Prot: a) sequência não-polimórfica (A7KWG0) contendo alanina (A) na posição 122, e b) sequência polimórfica carreando o polimorfismo A122V, causando a substituição de alanina por valina (V) na mesma posição. As sequências CXCR1 foram analisadas por diferentes ferramentas de Bioinformática para examinar o efeito desse polimorfismo sobre sua estabilidade, função e estrutura, predizer eventuais alterações na sua modelagem estrutural 3-D, bem como estimar a qualidade dos modelos preditos. O polimorfismo A122V exerceu efeitos toleráveis e não-deletérios sobre a CXCR1 polimórfica, apresentando um modelo estrutural de alfa-hélice típico de uma proteína receptora transmembranar para ambas as proteínas. Embora maiores variações nas distâncias entre os pares de aminoácidos nas posições-alvo tenham sido detectadas na proteína polimórfica, mais do que 97% dos aminoácidos em ambos os modelos foram situados em regiões ditas favoráveis e permitidas nos diagramas de Ramachandran. Evidências sustentam que o polimorfismo de nucleotídeo único A122V na proteína receptora CXCR1 está associado à aumentada incidência de mastite clínica em vacas leiteiras. Assim, as descobertas descritas aqui comprovam que a substituição do aminoácido alanina por valina provoca mudanças conformacionais locais na proteína CXCR1 polimórfica, que podem estar diretamente afetando seus mecanismos de enovelamento pós-traducionais e sua função biológica.

6.
Arq. bras. med. vet. zootec ; Arq. bras. med. vet. zootec. (Online);58(5): 940-943, out. 2006. graf
Article in English | LILACS | ID: lil-441545

ABSTRACT

No presente estudo, estimou-se a abundância dos transcritos da miostatina foi estimada durante a embriogênese de galinha por análises de RT-PCR competitiva. Níveis basais de mRNA desse gene foram detectados até o estádio HH15, enquanto acúmulos significativos nesses níveis foram observados apenas no estádio HH24, seguido por redução na abundância desses transcritos a partir do estádio HH26. Tais descobertas preliminares proporcionam informações relevantes sobre a ativação do fator de crescimento miostatina durante o desenvolvimento in ovo de aves.


Subject(s)
Embryonic Development , Chick Embryo/growth & development , Growth Inhibitors/physiology , Reverse Transcriptase Polymerase Chain Reaction/methods
7.
Rev. bras. pesqui. méd. biol ; Braz. j. med. biol. res;36(2): 191-197, Feb. 2003. ilus, tab
Article in English | LILACS | ID: lil-326424

ABSTRACT

Important advances have been made in understanding the genetic processes that control skeletal muscle formation. Studies conducted on quails detected a delay in the myogenic program of animals selected for high growth rates. These studies have led to the hypothesis that a delay in myogenesis would allow somitic cells to proliferate longer and consequently increase the number of embryonic myoblasts. To test this hypothesis, recently segmented somites and part of the unsegmented paraxial mesoderm were separated from the neural tube/notochord complex in HH12 chicken embryos. In situ hybridization and competitive RT-PCR revealed that MyoD transcripts, which are responsible for myoblast determination, were absent in somites separated from neural tube/notochord (1.06 and 0.06 10-3 attomol MyoD/1 attomol á-actin for control and separated somites, respectively; P<0.01). However, reapproximation of these structures allowed MyoD to be expressed in somites. Cellular proliferation was analyzed by immunohistochemical detection of incorporated BrdU, a thymidine analogue. A smaller but not significant (P = 0.27) number of proliferating cells was observed in somites that had been separated from neural tube/notochord (27 and 18 for control and separated somites, respectively). These results confirm the influence of the axial structures on MyoD activation but do not support the hypothesis that in the absence of MyoD transcripts the cellular proliferation would be maintained for a longer period of time


Subject(s)
Animals , Chick Embryo , Cell Differentiation , Embryonic Induction , Muscle, Skeletal , MyoD Protein , Myoblasts/cytology , Notochord , Somites , Cell Division , Gene Expression Regulation, Developmental , In Situ Hybridization , MyoD Protein , Muscle Development/physiology , Reverse Transcriptase Polymerase Chain Reaction
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