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  1. Genetic manipulation of cardiac Na+/Ca2+ exchange expression

  2. Genetic manipulation of cardiac Na+/Ca2+ exchange expression

  3. Genetic manipulation of cardiac Na+/Ca2+ exchange expression

  4. The Cardiac Na+-Ca2+ Exchanger: From Structure to Function

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    This forms the foundation for the idea that exchangers are a result of gene duplication. In the canine cardiac exchanger isoform, the ฮฑ1-repeat consists of residues 96 to 150 and ฮฑ2-repeat encompasses residues 797 to 849 (this numbering excludes the 32 amino acids encoding for the signal peptide).
    NCX1.1 distribution in cardiac cells. The cartoon summarizes the distribution of NCX within adult cardiomyocytes and its coupling to other proteins essential for excitation-contraction coupling. (A) The exchanger has been localized in proximity to voltage-dependent Na + (Na v, ).
    Interestingly, Kim and Lee cloned the cardiac murine exchanger ( 134) and reported the presence of a glutamine at position 682 instead of a glutamic acid as seen in the canine ( 185 ), ferret, rabbit, and human exchanger.
    Phylogeny of Na+/Ca2+ exchanger NCX genes from genomic data identifies new gene duplications and a new family member in fish species. Physiol Genomics 21: 161โ€“173, 2005. [ PubMed] [ Google Scholar] 164. Matsuoka S, Hilgemann DW. Steady-state and dynamic properties of cardiac sodium-calcium exchange.
  6. Genetic manipulation of cardiac Na+/Ca2+ exchange expression.

  7. Modulation of the Cardiac Na+-Ca2+ Exchanger by Cytoplasmic โ€ฆ

  8. Structural mechanisms of the human cardiac sodium-calcium

  9. Na+โ€“Ca2+exchange in the regulation of cardiac โ€ฆ

  10. Genetic manipulation of cardiac Na+/Ca2+ exchange expression.

  11. Genetic manipulation of cardiac Na+/Ca2+ exchange expression.