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552 related items for PubMed ID: 29471750

  • 21. Comparison of prenatal muscle tissue expression profiles of two pig breeds differing in muscle characteristics.
    Cagnazzo M, te Pas MF, Priem J, de Wit AA, Pool MH, Davoli R, Russo V.
    J Anim Sci; 2006 Jan; 84(1):1-10. PubMed ID: 16361485
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  • 22. Transcriptome analysis to identify differential gene expression affecting meat quality in heavy Italian pigs.
    Gorni C, Garino C, Iacuaniello S, Castiglioni B, Stella A, Restelli GL, Pagnacco G, Mariani P.
    Anim Genet; 2011 Apr; 42(2):161-71. PubMed ID: 20726855
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  • 23. Comparison of differentially expressed genes in longissimus dorsi muscle of Diannan small ears, Wujin and landrace pigs using RNA-seq.
    Li Q, Hao M, Zhu J, Yi L, Cheng W, Xie Y, Zhao S.
    Front Vet Sci; 2023 Apr; 10():1296208. PubMed ID: 38249550
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  • 24. Expression profiling analysis for genes related to meat quality and carcass traits during postnatal development of backfat in two pig breeds.
    Li M, Zhu L, Li X, Shuai S, Teng X, Xiao H, Li Q, Chen L, Guo Y, Wang J.
    Sci China C Life Sci; 2008 Aug; 51(8):718-33. PubMed ID: 18677600
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  • 25. Dynamic transcriptome profiles of skeletal muscle growth and development in Shaziling and Yorkshire pigs using RNA-sequencing.
    Zheng C, Zhong Y, Zhang P, Guo Q, Li F, Duan Y.
    J Sci Food Agric; 2024 Sep; 104(12):7301-7314. PubMed ID: 38647104
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  • 26. Sequencing and characterization of miRNAs and mRNAs from the longissimus dorsi of Xinjiang brown cattle and Kazakh cattle.
    Li N, Yu QL, Yan XM, Li HB, Zhang Y.
    Gene; 2020 May 30; 741():144537. PubMed ID: 32156528
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  • 27. Comparative transcriptome analysis of longissimus dorsi muscle reveal potential genes affecting meat trait in Chinese indigenous Xiang pig.
    Wang W, Wang D, Zhang X, Liu X, Niu X, Li S, Huang S, Ran X, Wang J.
    Sci Rep; 2024 Apr 11; 14(1):8486. PubMed ID: 38605105
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  • 28. Identification of genes showing differential expression profile associated with growth rate in skeletal muscle tissue of Landrace weanling pig.
    Komatsu Y, Sukegawa S, Yamashita M, Katsuda N, Tong B, Ohta T, Kose H, Yamada T.
    J Genet; 2016 Jun 11; 95(2):341-7. PubMed ID: 27350678
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  • 29. Exploring the Molecular Mechanism of Skeletal Muscle Development in Ningxiang Pig by Weighted Gene Co-Expression Network Analysis.
    Yu Z, Ai N, Xu X, Zhang P, Jin Z, Li X, Ma H.
    Int J Mol Sci; 2024 Aug 22; 25(16):. PubMed ID: 39201775
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  • 30. Transcriptome analysis reveals that constant heat stress modifies the metabolism and structure of the porcine longissimus dorsi skeletal muscle.
    Hao Y, Feng Y, Yang P, Cui Y, Liu J, Yang C, Gu X.
    Mol Genet Genomics; 2016 Dec 22; 291(6):2101-2115. PubMed ID: 27561287
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  • 31. Genetic control of longissimus dorsi muscle gene expression variation and joint analysis with phenotypic quantitative trait loci in pigs.
    Velez-Irizarry D, Casiro S, Daza KR, Bates RO, Raney NE, Steibel JP, Ernst CW.
    BMC Genomics; 2019 Jan 03; 20(1):3. PubMed ID: 30606113
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  • 32. Fatty acid and transcriptome profiling of longissimus dorsi muscles between pig breeds differing in meat quality.
    Yu K, Shu G, Yuan F, Zhu X, Gao P, Wang S, Wang L, Xi Q, Zhang S, Zhang Y, Li Y, Wu T, Yuan L, Jiang Q.
    Int J Biol Sci; 2013 Jan 03; 9(1):108-18. PubMed ID: 23355796
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  • 33. Dynamic transcriptome and DNA methylome analyses on longissimus dorsi to identify genes underlying intramuscular fat content in pigs.
    Wang Y, Ma C, Sun Y, Li Y, Kang L, Jiang Y.
    BMC Genomics; 2017 Oct 12; 18(1):780. PubMed ID: 29025412
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  • 34. Molecular characterization, expression patterns, and polymorphism of a differentially expressed porcine gene (PYGM) isolated by suppression subtractive hybridization and two-dimensional gel electrophoresis analysis.
    Xu Y, Yu W, Feng X, Xie H, Xiong Y.
    DNA Cell Biol; 2012 Jan 12; 31(1):98-105. PubMed ID: 22023431
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  • 35. Early postmortem gene expression and its relationship to composition and quality traits in pig Longissimus dorsi muscle.
    Cánovas A, Varona L, Burgos C, Galve A, Carrodeguas JA, Ibáñez-Escriche N, Martín-Burriel I, López-Buesa P.
    J Anim Sci; 2012 Oct 12; 90(10):3325-36. PubMed ID: 22665633
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  • 36. Functional analysis of inter-individual transcriptome differential expression in pig longissimus muscle.
    Zhao S, Hulsegge B, Harders FL, Bossers R, Keuning E, Hoekman AJ, Hoving-Bolink R, te Pas MF.
    J Anim Breed Genet; 2013 Feb 12; 130(1):72-8. PubMed ID: 23317067
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  • 37. Comparative Analysis of Muscle Transcriptome between Pig Genotypes Identifies Genes and Regulatory Mechanisms Associated to Growth, Fatness and Metabolism.
    Ayuso M, Fernández A, Núñez Y, Benítez R, Isabel B, Barragán C, Fernández AI, Rey AI, Medrano JF, Cánovas Á, González-Bulnes A, López-Bote C, Ovilo C.
    PLoS One; 2015 Feb 12; 10(12):e0145162. PubMed ID: 26695515
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  • 38. Examining the Genetic Background of Porcine Muscle Growth and Development Based on Transcriptome and miRNAome Data.
    Ropka-Molik K, Pawlina-Tyszko K, Żukowski K, Piórkowska K, Żak G, Gurgul A, Derebecka N, Wesoły J.
    Int J Mol Sci; 2018 Apr 16; 19(4):. PubMed ID: 29659518
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  • 39. Identification of candidate genes associated with porcine meat color traits by genome-wide transcriptome analysis.
    Li B, Dong C, Li P, Ren Z, Wang H, Yu F, Ning C, Liu K, Wei W, Huang R, Chen J, Wu W, Liu H.
    Sci Rep; 2016 Oct 17; 6():35224. PubMed ID: 27748458
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  • 40. Integrative analysis of transcriptomics and proteomics of skeletal muscles of the Chinese indigenous Shaziling pig compared with the Yorkshire breed.
    Yang H, Xu XL, Ma HM, Jiang J.
    BMC Genet; 2016 Jun 13; 17(1):80. PubMed ID: 27296698
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