Suchergebnisse - Genes

Grover, V. K., Verma, J. P., Kumar, A., Sharma, N., Tiwari, P. K. “… Gene Reports …”

Qi, S., Yu, J., Meng, F., Wei, Z., Liang, Z. “… Genes …”

Grover, V. K., Sharma, N., Verma, J. P., Kumar, A., Tiwari, P. K. “… ACTN3 R577X and ACE I/D gene polymorphisms are the most studied gene polymorphisms for the association of strength qualities with contradictory findings across different populations (Ahmetov et al., 2022).  …”

Yasuda-Sekiguchi, F., Kamata, A., Hosokawa, R., Kouno, M., Takahashi, S., Yaguchi, T., Aoyama, K., Sato, T. “… However, genetic analysis of the ribosomal RNA gene of the isolate facilitated differential diagnosis of T. tonsurans.  …”

Min, S.-K., Jee, E., Lee, K., Kim, J., Lim, S.-T. “… Genotyping for the ACTN3 (rs 1815739) polymorphism was performed using the TaqMan approach. ACTN3 gene distribution of subjects was in the Hardy-Weinberg equilibrium (athletes: P = 0.175; control: P = 0.508).  …”

Balkó, I., Balkó, S., Týnková, H., Kohlíková, E. “… The study concentrates on the comparison of speed-strenght abilities determined by Wingate test performed in the Biomedical laboratory of FTVS at Charles University in Prague and specific speed tests for fencing with R577X polymorphism of ACTN3 gene in elite fencers of the Czech Republic. By the analysis of buccal smear, we found that 80% of our sample of fencers contains in their genotype at least one R allele of the ACTN3 gene of the R577X polymorphism and 27% of the whole are homozygotes with RR genotype. …”

Youn, B., Ko, S., Young Kim, J. “… The objective of this systematic review is to identify genes that may play a significant role in the performance of elite-level combat sports athletes.  …”

Ahmetov, I. I., Borisov, O. V., Semenova, E. A., Andryushchenko, O. N., Andryushchenko, L. B., Generozov, E. V., Pickering, C. “… • Polygenic risk scores based on 6 gene polymorphisms show a significant geographical variation, putting some countries at greater risk than others. …”

Kolodeznikova, M. G. “… The research team conducted research work, during which information was obtained on the potential for developing physical qualities and the risk of developing the pathological conditions of the cardiovascular system of athletes of the Republic of Sakha (Yakutia), identified markers of predisposition to martial arts, endurance sports, speed and strength sports. for the Yakut population among the studied polymorphisms of 20 genes. Also, preliminary work was carried out with the coaching staff of national teams in freestyle wrestling, wrestling and boxing, which allowed to identify problems, determine the direction and develop a plan for the work of the integrated research team, taking into account the proposals and specifics of the chosen sports.  …”

Mujika, I., Sharma, A. P., Stellingwerff, T. “… Hypoxia-induced non-hematological adaptations, such as mitochondrial gene expression and enhanced muscle buffering capacity may also impact athletic performance, but research in elite endurance athletes is limited.  …”

Koyama, K., Nakazato, K., Maeda, S., Kikuchi, N., Matsumoto, S., Hiranuma, K. “… BACKGROUND: The authors previously identified that COL11A1 gene polymorphism is not a susceptibility factor for lumbar disc degeneration (LDD) in athletes.  …”

Issurin, V. B. “… The precompetitive realization block produces accentuated expression of stress-related and myogenic genes that affect protein synthesis and increase muscle glycogen.  …”

Itaka, T., Agemizu, K., Aruga, S., Machida, S. “… Conclusions: The combination of IGF2, ACTN3, and ACE gene polymorphisms may be associated with the judo status. …”

Agemizu, K., Itaka, T., Hirokawa, S., Aruga, S., Machida, S. “… Previous studies have reported that the alpha-actinin-3 (ACTN3) and angiotensin-converting enzyme (ACE) gene polymorphisms are associated with sports performance, muscle strength, muscle power, and endurance.  …”

Leznicka, K., Gronek, P., Kurzawski, M., Cieszczyk, P., Malinowski, D., Zmijewski, P. “… It is likely that several gene loci, each with a small but significant contribution, are responsible for this genetic component.  …”

Kwasniak, K., Myszka, A., Czarnik, J., and Tabarkiewicz, J. “… Der Beitrag ausgewählter Varianten der ACE, MSTN und ADRB2 Gene zur Leistung von Judoka …”

Itaka, T., Tomizawa, Y., Inoue, K., Agemizu, K., Aruga, S., Machida, S, “… The alpha-actinin-3 (ACTN3) and angiotensinconverting enzyme (ACE) genes are associated with sports performance and physical fitness.  …”

Limongi França Guilherme, J. P., Lancha Jr, A. H. “… This study aimed to investigate the frequency of single nucleotide polymorphisms (SNPs) in the carnosinase genes (CNDP1 and CNDP2) in a large Brazilian cohort of athletes and nonathletes.  …”

Batavani, M. R., Marandi, S. M., Ghaedi, K., Esfarjani, F. “… Conclusions: The CK-MM gene A/G polymorphism is associated with the physical performance levels of karatekas.  …”

Hawley, J. “… In turn, muscle energy status exerts profound effects on resting fuel metabolism and patterns of fuel utilization during exercise, as well as acute regulatory processes underlying gene expression and cell signalling. As such, nutrient-exercise interactions have the potential to activate or inhibit many biochemical pathways with putative roles in training adaptation.  …”