• Title/Summary/Keyword: Chicken muscle

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Tissue-Specific Expression of Nebulin Isoform Proteins in Chicken (닭 조직에 따른 Nebulin Isoform 단백질의 특이적 발현)

  • 김영희;김정락
    • Biomedical Science Letters
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    • v.6 no.3
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    • pp.171-179
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    • 2000
  • The lengths of thick and thin filaments in the sarcomeres of most vertebrate skeletal muscles are precisely regulated and are important structural parameters in understanding muscle contraction. Nebulin is a usually large protein that spans the whole length of thin filaments in the sarcomeres of skeletal muscles. In this paper we used SDS-PAGE and immunoblot to identify nebulin isoform proteins in muscle and non-muscle tissues. We prepared embryonic chicken tissues including skeletal muscle, cardiac muscle, smooth muscle, brain, liver to compare nebulin isoform proteins. The proteins were divided into soluble and insoluble fraction. As a result, we identified tissue specific expression of various nebulin isoform proteins in muscle and non-muscle tissues of chicken. Nebulin was detected in skeletal muscle of adult chicken about 500 kDa. Nebulett was expressed in cardiac muscle of embryonic and adult chicken about 107 kDa. A giant protein with molecular mass of about 380 kDa was identified in brain of non-muscle of chicken. This giant protein was detected in the soluble fraction of chicken embryo. The unequal distribution of the nebulin isoform proteins suggests tissue specific regulation of the isoform expression and indicates a functional specialization of the encoded isoform subtypes.

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Simultaneous Determination of Sulfonamides in Porcine and Chicken Muscle Using High Performance Liquid Chromatography with Ultraviolet Detector

  • Shim, You-Sin;Shin, Dong-Bin;Cho, Yong-Sun;Choi, Yun-Hee;Lee, Sang-Hee
    • Food Science and Biotechnology
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    • v.18 no.6
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    • pp.1430-1434
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    • 2009
  • The present study used the liquid extraction pretreatment method and developed a liquid chromatographyultraviolet detector (LC-UV) for the simultaneous determination of 14 sulfonamides (SAs) residues in porcine and chicken muscle. Linearity within a range of $50-150\;{\mu}g/kg$ was obtained with the correlation coefficient ($r^2$) of 0.9673-0.9997. The mean recovery of SAs was 55.9-109.7% (relative standard deviations; RSDs 1.7-17.3%) in porcine muscle and 52.8-112.4% (RSDs 2.3-16.9%) in chicken muscle. The limits of detection (LODs) and limits of quantification (LOQs) were 2-32 and $7-96\;{\mu}g/kg$ in porcine muscle, and 4-32 and $13-97\;{\mu}g/kg$ in chicken muscle, respectively. These values were lower than the maximum residue limits (MRLs) established by the European Union. The sum of all SAs residues present should be less than $100\;{\mu}g/kg$.

Effect of p38 inhibitor on the proliferation of chicken muscle stem cells and differentiation into muscle and fat

  • Minkyung, Ryu;Minsu, Kim;Hyun Young, Jung;Cho Hyun, Kim;Cheorun, Jo
    • Animal Bioscience
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    • v.36 no.2
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    • pp.295-306
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    • 2023
  • Objective: Inhibiting the p38 mitogen-activated protein kinase (MAPK) signaling pathway delays differentiation and increases proliferation of muscle stem cells in most species. Here, we aimed to investigate the effect of p38 inhibitor (p38i) treatment on the proliferation and differentiation of chicken muscle stem cells. Methods: Chicken muscle stem cells were collected from the muscle tissues of Hy-line Brown chicken embryos at embryonic day 18, then isolated by the preplating method. Cells were cultured for 4 days in growth medium supplemented with dimethyl sulfoxide or 1, 10, 20 μM of p38i, then subcultured for up to 4 passages. Differentiation was induced for 3 days with differentiation medium. Each treatment was replicated 3 times. Results: The proliferation and mRNA expression of paired box 7 gene and myogenic factor 5 gene, as well as the mRNA expression of myogenic differentiation marker gene myogenin were significantly higher in p38i-treated cultures than in control (p<0.05), but immunofluorescence staining and mRNA expression of myosin heavy chain (MHC) were not significantly different between the two groups. Oil red O staining of accumulated lipid droplets in differentiated cell cultures revealed a higher lipid density in p38i-treated cultures than in control; however, the expression of the adipogenic marker gene peroxisome proliferator activated receptor gamma was not significantly different between the two groups. Conclusion: p38 inhibition in chicken muscle stem cells improves cell proliferation, but the effects on myogenic differentiation and lipid accumulation require additional analysis. Further studies are needed on the chicken p38-MAPK pathway to understand the muscle and fat development mechanism.

Polymorphic Diversity of UBX Domain D from cDNA Isolated from Pectoral Muscle of Korean Native Chicken

  • Sun, Sang-Soo;Kamyab, Abdolreza;Firman, Jeff
    • Korean Journal of Poultry Science
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    • v.38 no.3
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    • pp.191-195
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    • 2011
  • The objectives of this study are to identify specific functional genes which are related with growth and protein structure of the pectoral muscle of Korean native chicken. Pectoral muscle was isolated from three Korean native chickens (KNC, red brown, 12 months old, 2.41 ${\pm}$ 0.24 kg) and three Cornish chickens (16 month old, 2.76 ${\pm}$ 3.0 kg). The subtraction cDNA library was prepared in PCR4 Blunt-TOPO vector. The DNA sequence homology was compared with other breeds and species in GenBank. A clone NDS-81 was found to be unique for the DNA sequence homology with UBX family. Their partial sequence has high homology (98%) with chicken UBX domain D. Chicken UBX domain has chicken (93%), cattle (68%), dog (67%), mouse (64%) and, human (63%) nucleotide sequence homology. Several regions were mutated from T in chicken to C or G in the NDS-81 clone. The first site is LAD in chicken, but it was expressed as (L)RM in clone NDS-81. In this site, amino acids were changed from Ala to Arg, and from Asp to Met. The second site was changed from ER (Arg) in chicken to ED (Asp) in clone NDS-81. They are both containing functional side chains and play an important role in binding other proteins. Therefore, the clone NDS-81 could be a different candidate gene for the UBX family gene and could related with pectoral muscle structure of Korean native chicken.

The Effect of Dammarane Glycosides of Panax ginseng on Primary Cultured Chicken Embryonic Muscle Cells (인삼의 dammarane계 glycosides 분획물이 일차 배양한 계배의 근육세포에 미치는 영향)

  • Jung, Young-Kyeong;Park, Mi-Jung;Song, Jin-Ho;Kim, Young-Choong
    • YAKHAK HOEJI
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    • v.33 no.3
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    • pp.161-166
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    • 1989
  • Effects of dammarane glycosides of Panax ginseng on primary cultured chicken embryonic skeletal muscle cells were studied by microscopic observation and determination of the activity of acetylcholinesterase. Muscle cells were prepared from the breast of 12-day-old chicken embryo and cultured with either a medium consisted of 87.5% Dulbecco's Modified Eagle Medium (DMEM), 10% horse serum and 2.5% chicken embryonic extract or a medium consisted of 90% DMEM and 10% horse serum. It was observed that dammarane glycosides of Panax ginseng seemed to show the tendency to stimulate the growth and the differentiation of the muscle cells cultured with a medium consisted of 90% DMEM and 10% horse serum under microscopic observation. The activity of acetylcholinesterase in the muscle cells cultured with a medium consisted of 90% DMEM and 10% horse serum was increased by dammarane glycosides of Panax ginseng.

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Carnosine and Anserine in Chicken: Distribution, Age-dependency and their Anti-glycation Activity

  • Kim, Seung-Ki;Kim, Yu-Mi;Baek, In-Kee;Auh, Joong-Hyuck
    • Food Science of Animal Resources
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    • v.32 no.1
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    • pp.45-48
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    • 2012
  • The imidazole dipeptide carnosine and its methylated anserine analogues are the major histidine containing dipeptides in vertebrate tissue, especially in skeletal muscle, the heart, and the central nervous system. In this study, the carnosine and anserine content in chicken from different parts and of differing ages was determined and their physiological activities were compared. Anserine was more dominant than carnosine in these tissues and both of them significantly decreased with aging in all parts of chicken muscles. Chicken breast muscle showed the highest content of carnosine and anserine than drumstick and wing. Advanced glycated end-product (AGE) formation was inhibited up to 60% by the extract from 20 wk chicken breast and decreased with aging (90 wk). Anti-oxidation activity was also significantly reduced from 61.2% to 52.9% with aging. As results, anti-glycation and anti-oxidation activity of carnosine and anserine extract from chicken muscle increased proportionally to the amount of those peptides in the muscle, while these decreased with the aging process.

Evening primrose oil and hemp seed oil as an ${\gamma}-linolenic$ acid source for broiler;Influence of fatty acid composition of chicken skin, thigh and breast muscle (브로일러에 대한 감마리놀렌산의 급원으로써 달맞이꽃종자유와 삼씨유;닭 껍질, 다리살 및 가슴살 지질의 지방산 조성에 미치는 영향)

  • Park, Byung-Sung;Kang, Hwan-Ku
    • Journal of the Korean Applied Science and Technology
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    • v.24 no.2
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    • pp.196-204
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    • 2007
  • The objective of this study was to determine the effect of dietary oils on the levels of the ${\gamma}-linolenic$ acid in chicken meat lipids. Three hundred ten five, 1-d old, male, Ross strain, broiler chicks were fed for 35 d to compare diets containing evening primrose oil(EPO) and hemp seed oil(HO) to a control diet. Fatty acid composition of lipid from chicken skin, thigh and breast muscle were determined at the end of the trial. The level of ${\gamma}-linolenic$ acid of lipids from chicken meat fed diets containing EPO or HO was significantly higher than that of the control group(p<0.05). The level of ${\gamma}-linolenic$ acid of lipids from chicken skin was highest in the group, which had been fed the EPO 0.85%, followed in order by EPO 0.7%, 0.5%, EPO mixed oil, HO and HO mixed oil. There was a significant difference in the level of ${\gamma}-linolenic$ acid of chicken skin between the control and treatment groups(p<0.05). The level of ${\gamma}-linolenic$ acid of lipids from chicken thigh muscle was also similar to skin, and significantly higher than that of the control group(p<0.05). The level of ${\gamma}-linolenic$ acid of lipids from chicken breast muscle was highest in the group, which had been fed the EPO 0.5%, followed in order by EPO 0.7%, 0.85%, HO 0.5% and HO mixed oil. There was a significant difference in the level of ${\gamma}-linolenic$ acid of chicken breast muscle between the control and treatment groups(p<0.05).

Identification of meat Quality related genes in Korean Native Chicken using Proteomics

  • Jung, Kie-Chul;Park, Kang-Duk;Jang, Byoung-Gui;Sang, Byung-Don;Lee, Jun-Heon
    • Proceedings of the Korea Society of Poultry Science Conference
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    • 2003.11a
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    • pp.129-130
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    • 2003
  • There is growing interest for improving meat quality in chicken. Recently, the proteomics can be used as a valuable tool for identifying candidate proteins. In this study, we investigated the proteins expressed in chicken muscle for obtaining chicken muscle reference two dimensional(2D) map and identifying the proteins in muscle affecting Ginseng diet. A few candidate proteins have been currently characterizing using MALDI-TOF Mass spectrometry. Further investigations of the proteins can be used as valuable markers for selection of better quality chicken meat.

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The experimental study on the distribution of radioactive phosphorus-32 to several organs in one-day and seven-days old chicks (초생추(初生雛)의 각(各) 장기(臟器)에 있어서 방사성(放射性) 린(燐)$(^{32}P)$의 흡수분포(吸收分布)에 관한 실험적 연구)

  • Chung, Y.C.;Lee, H.J.
    • Journal of Nutrition and Health
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    • v.3 no.2
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    • pp.101-106
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    • 1970
  • Radioactive Phosphorus $(^{32}P)$ was administered intramuscularlly to the newly hatched chicken in the purpose of determination of the uptake and the distribution, as related to sex and hour differences of the several organs of the bodies. $2\;{\mu}\;of\;^{32}P$ was administered to each chick, and the distribution of 32P was observed in 1 hour and 24 hours after administration. In this experiment 80 heads of chicken were used(40 chicken were one day and 40 chicken were 7 days old) and the results obtained as follows: 1. The tissue showed an uptake rate of $^{32}P$ dose per 100 milligram of tissue in one day old chicken, with the following sequence: Males (1 hour): Femur. Liver. G., Muscle. Testis. Brain (24 hour): Femur, Testis, Gastrocnemius Muscle, Liver, Brain. Female(1 hour): Femur, Liver, Gastronemius Muscle, Ovary, Brain. (24 hour): Femur, Liver, Gastrocnemius Muscle, Ovary, Brain. 2. In 1 hour, the uptake rate of $^{32}P$ of the tissues showed significant difference between the male and the female except the gastrocnemius muscle and the brain in one day old group, but they were no significance except the testis and ovary after 24 hours. 3. The distribution of $^{32}P$ of the tissues exhibited higher in 1 hour than in 24 hours except the femur, the brain of the male and female, the brain and gastrocnemius muscle of the female in one day old group. 4. The tissue showed an uptake rate of $^{32}P$ dose per 100 miligram of tissue in 7days old chicken, with the following sequence: Male (1 hour): femur, liver, gastrocmenius muscle, testis, brain. (24 hour): femur, testis, gastrocmenius muscle, liver, brain. Female(1 hour): femur, liver, gastrocmenius muscle, ovary, brain. (24 hour): femur, ovary, liver, gastrocmenius muscle, brain. 5. The distribution of $^{32}P$ of the tissues showed no significant difference between the male and the female except the testis and ovary after 24 hours in 7 days old chicken group. 6. The distribution of $^{32}P$ the tissues exhibited higher in 1 hour in 24 hours except the femur, the brain of the male and the female, the brain and the ovary of the female in 7 days old chicken group.

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