Abstract Body: Hypertrophic cardiomyopathy (HCM) is one of the common genetic heart diseases and causes hypercontractility and pathological thickening of the myocardium. Cardiac myosin binding protein-C (cMyBP-C) is an important regulator of cardiac contractility and MYBPC3 mutations accounts for 40% of HCM cases, resulting in the truncation and loss of cMyBP-C. While cMyBP-C is expressed in both atria and ventricle, its recently identified homologous partner, myosin binding protein-HL (MyBP-HL) is solely expressed in the atria. Loss of function mutations in MYBPHL cause dilated cardiomyopathy in humans and mice. MyBP-HL and cMyBP-C bind to specific positions on the thick filament within the C-zone of sarcomere. In the atria, there is a 1:1 ratio between MyBP-HL and cMyBP-C, whereas cMyBP-C is solely expressed in the ventricle at double the cMyBP-C content of the the atria, establishing a stoichiometric relationship between these two proteins in their ability to bind to the thick filament within the sarcomere. Within the ventricle, heterozygous missense mutations within the necessary myosin binding domains of cMyBP-C may prevent proper myosin binding and sarcomere incorporation, but function may still be preserved due to the other unaffected allele. Since the atria expresses MyBP-HL and cMyBP-C, we hypothesize that MYBPC3 and MYBPHL missense mutations are more severe due to the competition for binding sites within the sarcomere between these proteins. We have identified MYBPC3 and MYBPHL missense mutations and variants to evaluate their pathogenicity and sarcomere incorporation via immunofluorescence microscopy within neonatal rat ventricular cardiomyocytes. To test these mutations, we created a “Mini-C” construct consisting of the thick filament binding domains of cMyBP-C. We validated our Mini-C construct via transfection and co-localization with endogenous cMyBP-C in neonatal rat ventricular cardiomyocytes (NRVMs). Our data demonstrate that known pathogenic MYBPC3 missense mutations have improper sarcomere incorporation within NRVMs. Disease associated MYBPHL missense mutations also show improper sarcomere incorporation. To test the effects of missense mutations on myosin binding protein stoichiometry within the sarcomere, we have created and validated a T2A/P2A construct, expressing our Mini-C construct, a fluorescent reporter, Td-Tomato, and our hMyBP-HL construct at consistent and reproducible expression levels via western blot and mass spectrometry.