Tudóstér: Takács Roland Ádám publikációi

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feltöltött közlemény: 25 Open Access: 20
2024
  1. Juhász, K., Hajdú, T., Kovács, P., Vágó, J., Matta, C., Takács, R.: Hypoxic Conditions Modulate Chondrogenesis through the Circadian Clock: the Role of Hypoxia-Inducible Factor-1α.
    Cells. 13 (6), 1-17, 2024.
    Folyóirat-mutatók:
    Q1 Biochemistry, Genetics and Molecular Biology (miscellaneous) (2022)
  2. Vágó, J., Somogyi, C., Takács, R., Barna, K., Jin, E., Zákány, R., Matta, C.: Isolation and Culturing of Primary Murine Chondroprogenitor Cells: a Mammalian Model of Chondrogenesis.
    Curr. Protoc. 4 (3), 1-20, 2024.
    Folyóirat-mutatók:
    Q1 Biochemistry, Genetics and Molecular Biology (miscellaneous) (2022)
    Q1 Health Informatics (2022)
    Q1 Immunology and Microbiology (miscellaneous) (2022)
    D1 Medical Laboratory Technology (2022)
    Q1 Neuroscience (miscellaneous) (2022)
    D1 Pharmacology, Toxicology and Pharmaceutics (miscellaneous) (2022)
2023
  1. Takács, R., Kovács, P., Ebeid, R., Almássy, J., Fodor, J., Ducza, L., Barrett-Jolley, R., Lewis, R., Matta, C.: Ca2+-Activated K+ Channels in Progenitor Cells of Musculoskeletal Tissues: A Narrative Review.
    Int. J. Mol. Sci. 24 (7), 6796, 2023.
    Folyóirat-mutatók:
    Q2 Catalysis (2022)
    Q1 Computer Science Applications (2022)
    D1 Inorganic Chemistry (2022)
    Q1 Medicine (miscellaneous) (2022)
    Q2 Molecular Biology (2022)
    Q1 Organic Chemistry (2022)
    Q1 Physical and Theoretical Chemistry (2022)
    D1 Spectroscopy (2022)
  2. Vágó, J., Takács, R., Kovács, P., Hajdú, T., Veen, D., Matta, C.: Combining biomechanical stimulation and chronobiology: a novel approach for augmented chondrogenesis?.
    Front. Bioeng. Biotechnol. 11 1-7, 2023.
    Folyóirat-mutatók:
    Q2 Bioengineering (2022)
    Q1 Biomedical Engineering (2022)
    Q1 Biotechnology (2022)
    Q2 Histology (2022)
  3. Matta, C., Takács, R., Ducza, L., Ebeid, R., Choi, H., Mobasheri, A.: Ion channels involved in inflammation and pain in osteoarthritis and related musculoskeletal disorders.
    Am. J. Physiol.-Cell Physiol. 325 (1), C257-C271, 2023.
    Folyóirat-mutatók:
    Q1 Cell Biology (2022)
    Q1 Physiology (2022)
  4. Takács, R., Juhász, T., Katona, É., Somogyi, C., Vágó, J., Hajdú, T., Barna, K., Nagy, P., Zákány, R., Matta, C.: Isolation and Micromass Culturing of Primary Chicken Chondroprogenitor Cells for Cartilage Regeneration.
    Curr. Protoc. 3 (7), 1-29, 2023.
    Folyóirat-mutatók:
    Q1 Biochemistry, Genetics and Molecular Biology (miscellaneous) (2022)
    Q1 Health Informatics (2022)
    Q1 Immunology and Microbiology (miscellaneous) (2022)
    D1 Medical Laboratory Technology (2022)
    Q1 Neuroscience (miscellaneous) (2022)
    D1 Pharmacology, Toxicology and Pharmaceutics (miscellaneous) (2022)
  5. Takács, R., Póliska, S., Juhász, T., Barna, K., Matta, C.: Isolation of High-Quality Total RNA from Small Animal Articular Cartilage for Next-Generation Sequencing.
    Current Protocols. 3 (3), 1-18, 2023.
    Folyóirat-mutatók:
    Q1 Biochemistry, Genetics and Molecular Biology (miscellaneous) (2022)
    Q1 Health Informatics (2022)
    Q1 Immunology and Microbiology (miscellaneous) (2022)
    D1 Medical Laboratory Technology (2022)
    Q1 Neuroscience (miscellaneous) (2022)
    D1 Pharmacology, Toxicology and Pharmaceutics (miscellaneous) (2022)
  6. Ducza, L., Gajtkó, A., Hegedűs, K., Bakk, E., Kis, G., Gaál, B., Takács, R., Szűcs, P., Matesz, K., Holló, K.: Neuronal P2X4 receptor may contribute to peripheral inflammatory pain in rat spinal dorsal horn.
    Front. Mol. Neurosci. 16 1-16, 2023.
    Folyóirat-mutatók:
    Q1 Cellular and Molecular Neuroscience (2022)
    Q1 Molecular Biology (2022)
  7. Kovács, P., Pushparaj, P., Takács, R., Mobasheri, A., Matta, C.: The clusterin connectome: Emerging players in chondrocyte biology and putative exploratory biomarkers of osteoarthritis.
    Front. Immunol. 14 1-21, 2023.
    Folyóirat-mutatók:
    Q1 Immunology (2022)
    Q1 Immunology and Allergy (2022)
  8. Takács, R., Vágó, J., Póliska, S., Pushparaj, P., Ducza, L., Kovács, P., Jin, E., Barrett-Jolley, R., Zákány, R., Matta, C.: The temporal transcriptomic signature of cartilage formation.
    Nucleic Acids Res. 51 (8), 3590-3617, 2023.
    Folyóirat-mutatók:
    D1 Genetics (2022)
2022
  1. Vágó, J., Katona, É., Takács, R., Dócs, K., Hajdú, T., Kovács, P., Zákány, R., Veen, D., Matta, C.: Cyclic uniaxial mechanical load enhances chondrogenesis through entraining the molecular circadian clock.
    J. Pineal Res. 73 (4), e12827, 2022.
    Folyóirat-mutatók:
    D1 Endocrinology
2021
  1. Vágó, J., Kiss, K., Karanyicz, E., Takács, R., Matta, C., Ducza, L., Rauch, T., Zákány, R.: Analysis of Gene Expression Patterns of Epigenetic Enzymes Dnmt3a, Tet1 and Ogt in Murine Chondrogenic Models.
    Cells. 10 (10), 2678, 2021.
    Folyóirat-mutatók:
    Q1 Biochemistry, Genetics and Molecular Biology (miscellaneous)
  2. Alagha, M., Vágó, J., Katona, É., Takács, R., Veen, D., Zákány, R., Matta, C.: A Synchronized Circadian Clock Enhances Early Chondrogenesis.
    Cartilage. 13 (2_Suppl), 53S-67S, 2021.
    Folyóirat-mutatók:
    Q2 Biomedical Engineering
    Q3 Immunology and Allergy
    Q2 Physical Therapy, Sports Therapy and Rehabilitation
  3. Hajdú, T., Kovács, P., Zsigrai, E., Takács, R., Vágó, J., Cho, S., Sasi Szabó, L., Becsky, D., Keller-Pintér, A., Emri, G., Rácz, K., Reglődi, D., Zákány, R., Juhász, T.: Pituitary Adenylate Cyclase Activating Polypeptide Has Inhibitory Effects on Melanoma Cell Proliferation and Migration In Vitro.
    Front Oncol. 11 681603, 2021.
    Folyóirat-mutatók:
    Q2 Cancer Research
    Q1 Oncology
2020
  1. Zákány, R., Juhász, T., Fodor, J., Takács, R., Vágó, J., Csernoch, L., Matta, C.: Influencing chondrogenesis via the n-methyl-d-aspartate (NMDA) receptor pathway.
    Osteoarthritis Cartilage. 28 (Supplement), S104-S105, 2020.
2019
  1. Matta, C., Juhász, T., Fodor, J., Hajdú, T., Katona, É., Somogyi, C., Takács, R., Vágó, J., Oláh, T., Bartók, Á., Varga, Z., Panyi, G., Csernoch, L., Zákány, R.: N-methyl-D-aspartate (NMDA) receptor expression and function is required for early chondrogenesis.
    Cell Commun Signal. 17 (1), 166, 2019.
    Folyóirat-mutatók:
    Q1 Biochemistry
    Q2 Cell Biology
    Q2 Molecular Biology
2015
  1. Juhász, T., Szentléleky, E., Somogyi, C., Takács, R., Dobrosi, N., Engler, M., Tamás, A., Reglődi, D., Zákány, R.: Pituitary Adenylate Cyclase Activating Polypeptide (PACAP) Pathway Is Induced by Mechanical Load and Reduces the Activity of Hedgehog Signaling in Chondrogenic Micromass Cell Cultures.
    Int. J. Mol. Sci. 16 (8), 17344-17367, 2015.
    Folyóirat-mutatók:
    Q2 Catalysis
    Q1 Computer Science Applications
    Q1 Inorganic Chemistry
    Q1 Medicine (miscellaneous)
    Q2 Molecular Biology
    Q1 Organic Chemistry
    Q1 Physical and Theoretical Chemistry
    Q1 Spectroscopy
  2. Somogyi, C., Matta, C., Földvári, Z., Juhász, T., Katona, É., Takács, R., Hajdú, T., Dobrosi, N., Gergely, P., Zákány, R.: Polymodal Transient Receptor Potential Vanilloid (TRPV) Ion Channels in Chondrogenic Cells.
    Int. J. Mol. Sci. 16 (8), 18412-18438, 2015.
    Folyóirat-mutatók:
    Q2 Catalysis
    Q1 Computer Science Applications
    Q1 Inorganic Chemistry
    Q1 Medicine (miscellaneous)
    Q2 Molecular Biology
    Q1 Organic Chemistry
    Q1 Physical and Theoretical Chemistry
    Q1 Spectroscopy
  3. Matta, C., Fodor, J., Miosge, N., Takács, R., Juhász, T., Rybaltovszki, H., Tóth, A., Csernoch, L., Zákány, R.: Purinergic signalling is required for calcium oscillations in migratory chondrogenic progenitor cells.
    Pflugers Arch. 467 (2), 429-442, 2015.
    Folyóirat-mutatók:
    D1 Clinical Biochemistry
    Q1 Physiology
    Q1 Physiology (medical)
2014
  1. Juhász, T., Matta, C., Somogyi, C., Katona, É., Takács, R., Soha, R., Szabó, I., Cserháti, C., Sződy, R., Karácsonyi, Z., Bakó, É., Gergely, P., Zákány, R.: Mechanical loading stimulates chondrogenesis via the PKA/CREB-Sox9 and PP2A pathways in chicken micromass cultures.
    Cell. Signal. 26 (3), 468-482, 2014.
    Folyóirat-mutatók:
    Q1 Cell Biology
  2. Juhász, T., Matta, C., Katona, É., Somogyi, C., Takács, R., Hajdú, T., Helgadottir, S., Fodor, J., Csernoch, L., Tóth, G., Bakó, É., Reglődi, D., Tamás, A., Zákány, R.: Pituitary Adenylate Cyclase-Activating Polypeptide (PACAP) Signalling Enhances Osteogenesis in UMR-106 Cell Line.
    J. Mol. Neurosci. 54 (3), 555-573, 2014.
    Folyóirat-mutatók:
    Q3 Cellular and Molecular Neuroscience
    Q1 Medicine (miscellaneous)
  3. Juhász, T., Matta, C., Katona, É., Somogyi, C., Takács, R., Gergely, P., Csernoch, L., Panyi, G., Tóth, G., Reglődi, D., Tamás, A., Zákány, R.: Pituitary adenylate cyclase activating polypeptide (PACAP) signalling exerts chondrogenesis promoting and protecting effects: implication of calcineurin as a downstream target.
    PLoS One. 9 (3), [1-15], 2014.
    Folyóirat-mutatók:
    D1 Agricultural and Biological Sciences (miscellaneous)
    Q1 Biochemistry, Genetics and Molecular Biology (miscellaneous)
    D1 Medicine (miscellaneous)
2013
  1. Takács, R., Matta, C., Somogyi, C., Juhász, T., Zákány, R.: Comparative Analysis of Osteogenic/Chondrogenic Differentiation Potential in Primary Limb Bud-Derived and C3H10T1/2 Cell Line-Based Mouse Micromass Cultures.
    Int. J. Mol. Sci. 14 (8), 16141-16167, 2013.
    Folyóirat-mutatók:
    Q3 Catalysis
    Q2 Computer Science Applications
    Q2 Inorganic Chemistry
    Q2 Medicine (miscellaneous)
    Q3 Molecular Biology
    Q2 Organic Chemistry
    Q2 Physical and Theoretical Chemistry
    Q2 Spectroscopy
  2. Juhász, T., Matta, C., Katona, É., Somogyi, C., Takács, R., Kolozsvári, B., Csernoch, L., Panyi, G., Tóth, G., Reglődi, D., Tamás, A., Zákány, R.: Pituitary adenylate cyclase activating polypeptide (pacap)-signalling promotes chondrogenesis: implication of calcineurin as a downstream target.
    J. Mol. Neurosci. 51 (Suppl.), 229, 2013.
  3. Fodor, J., Matta, C., Oláh, T., Juhász, T., Takács, R., Tóth, A., Dienes, B., Csernoch, L., Zákány, R.: Store-operated calcium entry and calcium influx via voltage-operated calcium channels regulate intracellular calcium oscillations in chondrogenic cells.
    Cell Calcium. 54 1-16, 2013.
    Folyóirat-mutatók:
    Q1 Cell Biology
    Q1 Molecular Biology
    Q1 Physiology
feltöltött közlemény: 25 Open Access: 20
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A szolgáltatást nyújtja: DEENK