Andersons pediatric cardiology 148
Bạn đang xem bản rút gọn của tài liệu. Xem và tải ngay bản đầy đủ của tài liệu tại đây (60.76 KB, 3 trang )
2003;29(suppl1):3–9.
137.WangX,RobbinsJ.Heartfailureandprotein
qualitycontrol.CircRes.2006;99:1315–1328.
138.LiuJ,ChenQ,HuangW,etal.Impairmentofthe
ubiquitin-proteasomesystemindesminopathy
mousehearts.FASEBJ.2006;20:362–364.
139.NishihoriT,BazR,ShainK,etal.Anopen-label
phaseI/IIstudyofcyclophosphamide,
bortezomib,pegylatedliposomaldoxorubicin,
anddexamethasoneinnewlydiagnosed
myeloma.EurJHaematol.2015;95:426–435.
140.LiJ,HorakKM,SuH,etal.Enhancementof
proteasomalfunctionprotectsagainstcardiac
proteinopathyandischemia/reperfusioninjuryin
mice.JClinInvest.2011;121:3689–3700.
141.LiN,WangHX,HanQY,etal.Activationofthe
cardiacproteasomepromotesangiotensionIIinducedhypertrophybydown-regulationof
atrap.JMolCellCardiol.2015;79:303–314.
142.NandiD,TahilianiP,KumarA,ChanduD.The
ubiquitin-proteasomesystem.JBiosci.
2006;31:137–155.
143.RubinszteinDC.Therolesofintracellular
protein-degradationpathwaysin
neurodegeneration.Nature.2006;443:780–786.
144.WilliamsA,JahreissL,SarkarS,etal.
Aggregate-proneproteinsareclearedfromthe
cytosolbyautophagy:Therapeuticimplications.
AcademicPress;2006:89–101.GeraldPS.
Currenttopicsindevelopmentalbiology.Vol.
76.
145.MaX,LiuH,FoyilSR,etal.Impaired
autophagosomeclearancecontributesto
cardiomyocytedeathinischemia/reperfusion
injury.Circulation.2012;125:3170–3181.
146.RothermelBA,HillJA.Autophagyinloadinducedheartdisease.CircRes.2008;103:1363–
1369.
147.HuxleyHE.Gettingtogripswithcontraction:
Theinterplayofstructureandbiochemistry.
TrendsBiochemSci.1998;23:84–87.
148.HwangPM,SykesBD.Targetingthesarcomere
tocorrectmusclefunction.NatRevDrug
Discov.2015;14:313–328.
149.HelmsAS,DavisFM,ColemanD,etal.
Sarcomeremutation-specificexpressionpatterns
inhumanhypertrophiccardiomyopathy.Circ
CardiovascGenet.2014;7:434–443.
150.LopesLR,ElliottPM.Astraightforwardguideto
thesarcomericbasisofcardiomyopathies.Heart.
2014;100:1916–1923.
151.KlaassenS,ProbstS,OechslinE,etal.
Mutationsinsarcomereproteingenesinleft
ventricularnoncompaction.Circulation.
2008;117:2893–2901.
152.ThierfelderL,WatkinsH,MacRaeC,etal.
Alpha-tropomyosinandcardiactroponinT
mutationscausefamilialhypertrophic
cardiomyopathy:Adiseaseofthesarcomere.
Cell.1994;77:701–712.
153.WatkinsH,ConnerD,ThierfelderL,etal.
MutationsinthecardiacmyosinbindingproteinCgeneonchromosome11causefamilial
hypertrophiccardiomyopathy.NatGenet.
1995;11:434–437.
154.WilsonJ.Adescriptionoftwomuscles
surroundingthemembranouspartoftheurethra.
MedChirTrans.1809;1:175–182.
155.SweeneyHL.andHoudusseA.Structuraland
functionalinsightsintothemyosinmotor
mechanism.AnnuRevBiophys.2010;39:539–
557.
156.AlpertNR,MulieriLA.Increasedmyothermal
economyofisometricforcegenerationin
compensatedcardiachypertrophyinducedby
pulmonaryarteryconstrictionintherabbit.A
characterizationofheatliberationinnormaland
hypertrophiedrightventricularpapillary
muscles.CircRes.1982;50:491–500.
157.AlpertNR,BrosseauC,FedericoA,etal.
Molecularmechanicsofmousecardiacmyosin
