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Phenotypes associated with this allele
Allele Symbol
Allele Name
Allele ID
Tg(Myh6-Rest*)474Ysai
transgene insertion 474, Yoshihiko Saito
MGI:5905765
Summary 1 genotype
Jump to Allelic Composition Genetic Background Genotype ID
tg1
Tg(Myh6-Rest*)474Ysai/0 involves: C57BL/6J MGI:5905766


Genotype
MGI:5905766
tg1
Allelic
Composition
Tg(Myh6-Rest*)474Ysai/0
Genetic
Background
involves: C57BL/6J
Find Mice Using the International Mouse Strain Resource (IMSR)
No mouse lines available in IMSR.
See publication links below for author information.
phenotype observed in females
phenotype observed in males
N normal phenotype
mortality/aging
• mice start to die by 8 weeks of age and 70-95% of mice die by 40 weeks; death is sudden with mice showing normal behavior within 24 hours of death

cardiovascular system
• heterogeneity in the size of ventricular myocytes, with some appearing hypertrophied and others appearing atrophied
• 20 week old ventricular myocytes exhibit sparse and misarranged myofibrils, discontinuous Z-bands, and deformed or completely disrupted mitochondria
• hearts of 20 weeks, but not 8 weeks of age, are much larger than controls
• left ventricle enlargement without increases in wall thickness in 20 week old hearts
• interstitial fibrosis
• however, no inflammatory cell infiltrates are seen
• heart to body weight ratio is 1.48-fold higher at 20 weeks of age, but is normal at 8 and 12 weeks of age
• ventricle shows increased expression of fetal-type ion channels carrying the hyperpolarization activated non-selective cation current and the T-type calcium current
• no lung or liver congestion is seen
• mice show a progressive decline in fractional shortening and ejection fraction from 8 to 20 weeks of age
• left ventricular end diastolic dimension and end systolic dimension are 30% and 80% higher at 20 weeks of age, but are normal at 8 weeks
• wall thickness is not affected, indicating progressive left ventricular dysfunction without left ventricle wall hypertrophy
• mice show diminished systolic ventricular pressure and depression of both the maximal first derivative of the left ventricle pressure (dP/dtmax) and the maximal negative derivative of left ventricle pressure (dP/dtmin) at 20 weeks of age, but not at 8 weeks
• mice that die suddenly during testing, show ventricular tachycardia and ventricular fibrillation followed by asystole
• mice exhibit a variety of arrhythmias leading to sudden arrhythmic death
• 12 week old mice show increased susceptibility to ventricular arrhythmias induced by applied programmed electrical stimulation
• mice that die suddenly during testing, show ventricular tachycardia and ventricular fibrillation followed by asystole
• mice exhibit ventricular ectopies
• mice exhibit second degree atrioventricular block and ventricular ectopies, including runs of ventricular tachycardia
• PQ interval is longer
• however, no differences in heart rate, QRS time or QT interval are seen

muscle
• heterogeneity in the size of ventricular myocytes, with some appearing hypertrophied and others appearing atrophied
• 20 week old ventricular myocytes exhibit sparse and misarranged myofibrils, discontinuous Z-bands, and deformed or completely disrupted mitochondria
• heart to body weight ratio is 1.48-fold higher at 20 weeks of age, but is normal at 8 and 12 weeks of age
• ventricle shows increased expression of fetal-type ion channels carrying the hyperpolarization activated non-selective cation current and the T-type calcium current
• no lung or liver congestion is seen
• mice show a progressive decline in fractional shortening and ejection fraction from 8 to 20 weeks of age
• left ventricular end diastolic dimension and end systolic dimension are 30% and 80% higher at 20 weeks of age, but are normal at 8 weeks
• wall thickness is not affected, indicating progressive left ventricular dysfunction without left ventricle wall hypertrophy
• 20 week old ventricular myocytes exhibit discontinuous Z-bands

growth/size/body
• hearts of 20 weeks, but not 8 weeks of age, are much larger than controls

cellular
• interstitial fibrosis
• however, no inflammatory cell infiltrates are seen

Mouse Models of Human Disease
DO ID OMIM ID(s) Ref(s)
dilated cardiomyopathy DOID:12930 OMIM:PS115200
J:86837





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last database update
12/10/2024
MGI 6.24
The Jackson Laboratory