7 results on '"Reddish, J"'
Search Results
2. NewHorizon simulation – to bar or not to bar.
- Author
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Reddish, J, Kraljic, K, Petersen, M S, Tep, K, Dubois, Y, Pichon, C, Peirani, S, Bournaud, F, Choi, H, Devriendt, J, Jackson, R, Martin, G, Park, M J, Volonteri, M, and Yi, S K
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DISK galaxies , *DARK matter , *GALACTIC bulges , *INSPECTION & review , *GALACTIC evolution , *STELLAR mass , *SPATIAL resolution - Abstract
We use the NewHorizon simulation to study the redshift evolution of bar properties and fractions within galaxies in the stellar masses range M ⋆ = 107.25–1011.4 |$\, \rm {M}_\odot$| over the redshift range of z = 0.25–1.3. We select disc galaxies using stellar kinematics as a proxy for galaxy morphology. We employ two different automated bar detection methods, coupled with visual inspection, resulting in observable bar fractions of f bar = 0.070 |$_{{-0.012}}^{{+0.018}}$| at z ∼ 1.3, decreasing to f bar = 0.011 |$_{{-0.003}}^{{+0.014}}$| at z ∼ 0.25. Only one galaxy is visually confirmed as strongly barred in our sample. This bar is hosted by the most massive disc and only survives from z = 1.3 down to z = 0.7. Such a low bar fraction, in particular amongst Milky Way-like progenitors, highlights a missing bars problem, shared by literally all cosmological simulations with spatial resolution <100 pc to date. The analysis of linear growth rates, rotation curves, and derived summary statistics of the stellar, gas and dark matter components suggest that galaxies with stellar masses below 109.5−1010 |$\, \rm {M}_\odot$| in NewHorizon appear to be too dominated by dark matter relative to stellar content to form a bar, while more massive galaxies typically have formed large bulges that prevent bar persistence at low redshift. This investigation confirms that the evolution of the bar fraction puts stringent constraints on the assembly history of baryons and dark matter on to galaxies. [ABSTRACT FROM AUTHOR]
- Published
- 2022
- Full Text
- View/download PDF
3. Comparative proteomic characterization of the sarcoplasmic proteins in the pectoralis major and supracoracoideus breast muscles in 2 chicken genotypes.
- Author
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Zapata, I., Reddish, J. M., Miller, M. A., Lilburn, M. S., and Wick, M.
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PECTORALIS muscle , *GLYCOGEN , *PHOSPHORYLASES , *ENOLASE , *CREATINE kinase , *GLYCERALDEHYDEPHOSPHATE dehydrogenase - Abstract
The selection processes that have resulted in broiler (meat) and leghorn (eggs) chickens have had very different effects on the pectoralis major and supracoracoideus muscles. The objective of this study, therefore, was to analyze the one-dimensional proteomic profiles of sarcoplasmic protein fractions isolated from the p. major and supracoracoideus muscles collected from 10 chicks from each genotype to compare developmental differences. The sarcoplasmic protein fraction was analyzed by SDS-PAGE. The mean band percentages were analyzed using a mixed model, with strain and muscle type as main effects. Six bands were found to be significantly different across the 2 strains. Strain differences in glycogen Phosphorylase, enolase, elongation factor 1, creatine kinase, fructose-bisphosphate aldolase, and glyceraldehyde 3-phosphate-dehydrogenase suggest a genotype-specific shift in energy metabolism during breast muscle growth and development. [ABSTRACT FROM AUTHOR]
- Published
- 2012
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4. Multivariate evaluation of 1-dimensional sarcoplasmic protein profile patterns of turkey breast muscle during early post-hatch development.
- Author
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Zapata, I., Reddish, J. M., Lilburn, M. S., and Wick, M.
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PROTEIN research , *PRINCIPAL components analysis , *PLANT proteomics , *ANIMAL nutrition , *TURKEY feeding & feeds , *ANALYSIS of variance - Abstract
Proteins are the main participants in metabolic pathways. However, the analysis of protein abundance patterns associated with those pathways is complicated by the large number of proteins involved. In this study, the objective was to present the application of principal component analysis (PCA) to permit the visualization of developmental proteomic patterns of sarcoplasmic proteins found in breast muscle. Different turkey genotypes and nutritional regimens were used to potentially increase the variability within the sarcoplasmic protein profile. Sarcoplasmic protein fractions from turkey breast muscle samples were collected at 6 ages between 7 to 24 d. Breast muscle samples were collected from 2 distinctly different turkey lines. The poults within each line were either ad libitum or restrict fed. Proteomic PCA plots showed a visual developmental pattern from 7 until 17 d. Multivariate ANOVA highlighted the effect of time point and feeding regimen among profile patterns. The use of different genotypes and feeding regimens influenced variability, which was measured by mean Euclidean distances and ellipses of the PCA plots. These treatment effects, however, did not mask the developmental patterns. After 17 d, the proteomic patterns converged, suggesting that a level of biological stability was achieved regardless of the genotype or treatment. The developmental pattern obtained by the PCA methodology can aid in the planning of more efficient experimental designs so the developmental stage of individuals can be more accurately assessed. [ABSTRACT FROM AUTHOR]
- Published
- 2011
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5. Technical note: A gene delivery system in the embryonic cells of avian species using a human adenoviral vector.
- Author
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Shin, J., Bae, D. R., Latshaw, J. D., Wick, M. P., Reddish, J. M., and Lee, K.
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BIRDS as laboratory animals ,AVICULTURE ,BIRD breeding ,ADENOVIRUSES ,GREEN fluorescent protein ,FLUORESCENT polymers ,ANIMAL genetics ,GENE expression ,MYOSIN antibodies - Abstract
Adenovirus (Ad) has been used in vivo and in vitro as a vector to carry a foreign gene for efficient gene delivery into various cell types and tissues of animals. The aim of the current study was to evaluate the Ad delivery system in primary avian cells. Primary cells isolated from the embryonic pectoralis major muscles of the chicken and quail were cultured and in- cubated with human recombinant Ad serotype 5 (Ad5) containing sequences encoding either the green fluorescence protein (GFP) gene alone, as a tracking marker, or both GFP and murine 3-hydroxyisobutyryl-CoA hydrolase (mHIBCH) as a target gene. The fluorescent GFP images showed the successful delivery of a target gene using Ad5 in the primary avian cultured cells. In addition, immunostaining of the myosin heavy chain (MyHC) in these cells indicated that a large population of the cells was myogenic. Colocalization of GFP-positive cells with MyHC staining was mostly found in MyHC-negative cells, indicating successful delivery of Ad5 into a large population of mononucleated cells. Furthermore, the current fluorescence study detected the dual expression of GFP and mHIBCH protein in GFP-positive cells. Finally, Western blot analysis confirmed that the Ad-mediated expression of mHIBCH protein was specific in primary cultures of avian myogenic cells and that the mHIBCH protein expression was continued for 15 d after infection in chicken primary cells. These data demonstrate that AdS is a feasible tool to express foreign genes in primary cultured cells of avian species, providing a new approach to study the function of genes of interest in muscle development and metabolism. [ABSTRACT FROM AUTHOR]
- Published
- 2009
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6. Myosin Heavy Chain Isoform Expression Is Not Altered in the Pectoralis Major Muscle in Selenium-Deficient Chickens Recovering from Exudative Diathetic Myopathy.
- Author
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Reddish, J. M., Latshaw, J. D., St-Pierre, N. R., Pretzman, C., and Wick, M.
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BROILER chickens , *MUSCLE diseases , *SELENIUM deficiency diseases in animals , *MUSCLES , *MYOSIN , *DISEASE susceptibility , *MONOCLONAL antibodies , *CHICKENS , *PHYSIOLOGY - Abstract
The recovery of broiler chickens experiencing skeletal muscle myopathy caused by a selenium deficiency was compared with control broiler chickens in an age matched study by ultrastructural analysis of the pectoralis major (PM) muscle and examination of the temporal expression of the developmental fast skeletal myosin heavy chain (MyHC) isoforms. Selenium-deficient chicks showing signs of exudative diathesis (ED) were injected subcutaneously with sodium selenite in water and allowed to recover. At 0, 2, 5, 10, 20, and 30 d after selenium injection, a sample of the PM muscle was removed from selenium-deficient and control chicks for analysis. Ultrastructural analysis revealed vacuolization in the PM of selenium-deficient chicks with little or no visible damage to the sarcomere. Relative amounts of chicken ventricular, embryonic, neonatal, and adult fast skeletal MyHC isoforms were determined using chicken fast skeletal MyHC isoform specific monoclonal antibodies. The temporal expression of the developmental MyHC isoforms was similar in all chickens (P > 0.05). There was no expression of chicken ventricular MyHC observed in the PM of either group. These results indicate that chicken fast muscle recovering from exudative diathetic myopathy does not use the same pathways as chicken skeletal last muscle regenerating from physical or toxic injury in which temporal expression of the MyHC isoforms is initially predominantly ventricular, then predominantly embryonic, neonatal, and finally predominantly adult developmental MyHC isoform. [ABSTRACT FROM AUTHOR]
- Published
- 2005
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7. Feed restriction delays developmental fast skeletal muscle myosin heavy chain isoforms in turkey poults selected for differential growth.
- Author
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Huffman, K., Zapata, I., Reddish, J. M., Lilburn, M. S., and Wick, M.
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TURKEY feeding & feeds , *SKELETAL muscle , *MYOSIN , *TURKEY physiology , *MONOCLONAL antibodies , *GROWTH factors ,BREAST physiology - Abstract
Genetic selection has been very successful at significantly increasing BW and breast muscle pro-portion in commercial broiler and turkey strains. The mechanisms of breast muscle growth in poultry and the interactive effects of nutritional status and selection are not fully understood. The hypothesis underlying the current study is that feed restriction, simply as a vehicle for controlling early growth, would delay the temporal expression pattern of neonatal (nMyHC) and adult (aMyHC) fast skeletal muscle myosin heavy chain (MyHC) isoforms in the pectoralis major muscle of tur-key poults. The poultry growth model used to evalu-ate this hypothesis consisted of a randombred control turkey line (RBC2) that represents commercial turkeys of the 1960s and a line developed from the RBC2 by selection for BW at 16 wk of age (F line). The F line has significantly heavier breast muscles than the RBC2 concomitant with increased BW, but the proportion of breast muscle relative to BW is similar. A quantita-tive indirect ELISA using fast skeletal MyHC isoform specific monoclonal antibodies revealed no significant line differences in the temporal expression of posthatch fast skeletal muscle MyHC in ad libitum fed poults. Feed restriction, however, altered the temporal expres-sion patterns of nMyHC and aMyHC in both F line and RBC2 poults compared with the poults fed ad libitum. [ABSTRACT FROM AUTHOR]
- Published
- 2012
- Full Text
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