Hydroxyl radical and glutathione interactions alter calcium sensitivity and maximum force of the contractile apparatus in rat skeletal muscle fibres. - Wikidata - wikimedia - TriplyDB

Hydroxyl radical and glutathione interactions alter calcium sensitivity and maximum force of the contractile apparatus in rat skeletal muscle fibres.

Hydroxyl radical and glutathione interactions alter calcium sensitivity and maximum force of the contractile apparatus in rat skeletal muscle fibres.

http://www.wikidata.org/entity/Q46726955

about

S-glutathionylation of troponin I (fast) increases contractile apparatus Ca2+ sensitivity in fast-twitch muscle fibres of rats and humans Myosin as a potential redox-sensor: an in vitro study.TNNI1, TNNI2 and TNNI3: Evolution, regulation, and protein structure-function relationships.ROS-mediated decline in maximum Ca2+-activated force in rat skeletal muscle fibers following in vitro and in vivo stimulation.Chronic intermittent hypoxia increases rat sternohyoid muscle NADPH oxidase expression with attendant modest oxidative stress.Reactive oxygen species formation during tetanic contractions in single isolated Xenopus myofibers.Effects of Xanthine Oxidase Inhibition in Hyperuricemic Heart Failure Patients: The Xanthine Oxidase Inhibition for Hyperuricemic Heart Failure Patients (EXACT-HF) Study.Antioxidants and Skeletal Muscle Performance: "Common Knowledge" vs. Experimental Evidence.Sphingomyelinase depresses force and calcium sensitivity of the contractile apparatus in mouse diaphragm muscle fibers.Low Po₂ conditions induce reactive oxygen species formation during contractions in single skeletal muscle fibers Xanthine oxidase inhibition for hyperuricemic heart failure patients: design and rationale of the EXACT-HF study.Acute effects of reactive oxygen and nitrogen species on the contractile function of skeletal muscle.Highly reactive oxygen species: detection, formation, and possible functions.Redox homeostasis and age-related deficits in neuromuscular integrity and function.A change of heart: oxidative stress in governing muscle function?Repeated high-intensity exercise modulates Ca(2+) sensitivity of human skeletal muscle fibers.Redox modulation of diaphragm contractility: Interaction between DHPR and RyR channels Muscle Weakness in Rheumatoid Arthritis: The Role of Ca2+ and Free Radical Signaling.Effects provoked by chronic undernourishment on the fibre type composition and contractility of fast muscles in male and female developing rats.Accessibility of myofilament cysteines and effects on ATPase depend on the activation state during exposure to oxidants.Sequential effects of GSNO and H2O2 on the Ca2+ sensitivity of the contractile apparatus of fast- and slow-twitch skeletal muscle fibers from the rat.Time to fatigue is increased in mouse muscle at 37 degrees C; the role of iron and reactive oxygen species.Iron injections in mice increase skeletal muscle iron content, induce oxidative stress and reduce exercise performance.S-nitrosylation and S-glutathionylation of Cys134 on troponin I have opposing competitive actions on Ca2+ sensitivity in rat fast-twitch muscle fibers.Reactive oxygen/nitrogen species and contractile function in skeletal muscle during fatigue and recovery.Antioxidant treatments do not improve force recovery after fatiguing stimulation of mouse skeletal muscle fibres.Predominant cause of prolonged low-frequency force depression changes during recovery after in situ fatiguing stimulation of rat fast-twitch muscle.Effect of androgen deprivation therapy on the contractile properties of type I and type II skeletal muscle fibres in men with non-metastatic prostate cancer.Contribution of impaired myofibril and ryanodine receptor function to prolonged low-frequency force depression after in situ stimulation in rat skeletal muscle.Hydrogen peroxide alters sternohyoid muscle function.Modulation of contractile apparatus Ca2+ sensitivity and disruption of excitation-contraction coupling by S-nitrosoglutathione in rat muscle fibres.Functional responses of uremic single skeletal muscle fibers to redox imbalances.Thermal pretreatment facilitates recovery from prolonged low-frequency force depression in rat fast-twitch muscle

P2860

Q28257610-F3234F13-FC52-4EFB-9E8A-2B44B4EE167B Q30371929-8293EA49-D09B-456B-B17A-A7D700966767 Q30380968-D5251A77-7FFC-481C-8811-90B0858EDD35 Q34281511-F2AAD025-B920-4F96-A72D-B035C4B88321 Q35030798-CB39D964-3E83-438E-AF28-17A9554FFE1C Q35217557-20DB6029-F099-4EC6-9E85-49182CFD380F Q35627898-B846E65C-2636-4C37-BA1D-7A2A7379752B Q35820253-D04C155E-A381-4BDB-AD8B-3A46512ED7E9 Q35994710-C73CCEEF-1CEC-403D-A14E-010D2C840752 Q36923869-1AC362C7-3C02-44DF-8C7D-2FDA562B0CCB Q37515580-C148619B-38B7-42F2-A6F9-53F210025990 Q37805925-7912A3D3-AD2B-4104-AF64-3F2FA7958456 Q37870856-701A84D5-C4E8-49E0-B952-F3AD04F166A8 Q38660882-6015F7E4-F288-4B0B-B1EB-8106B7B00A49 Q39310989-ED608878-66FC-412B-8E3B-AC674D1F81F2 Q41257355-C5DEC705-D697-4EB5-96BA-046D9C7B9067 Q41293695-04B68ECD-9599-4E4F-A653-DAE155136993 Q41688477-37EEC674-2216-41CE-BBD3-85A723D894D5 Q41704373-7A08CACA-D757-46A7-A927-DF5805C36D79 Q42442183-771A0D2E-0195-4447-8D80-585CEF415093 Q44299078-CB3EC91F-A9C4-404D-9538-342386E81E57 Q45995857-F88C2899-C78B-4930-8EBC-CA915CC48187 Q46129102-B2B802A2-6DF5-4382-9E65-B1A212B08854 Q46446019-7A4CB484-8CFF-4D92-AC29-1F3B845822AC Q46598784-C8F70B02-79A9-4B32-984F-E8DCAF33FE8C Q46780893-7989E9FF-E867-4219-AA3B-35C09A169C7D Q48037511-40FAD3F7-611D-49ED-87FD-60EC5AF6924E Q48051359-103FF4A5-BAFD-4ED1-82F4-6E54369DEC4C Q48112098-395E5A20-740C-4F45-8280-FB159D7EBCD5 Q48191707-6B91C861-B57D-4991-B0CD-A3626D108743 Q52605494-5CA2FF91-1839-47C2-8874-0B43FFC451E1 Q55176179-46850F51-8514-40DC-8EB1-B6C1D2E8A8CE Q58770391-0949038C-2089-40D3-80F5-DB1466DAB1E0

P2860

Hydroxyl radical and glutathione interactions alter calcium sensitivity and maximum force of the contractile apparatus in rat skeletal muscle fibres.

http://www.wikidata.org/entity/Q46726955

description

2008 nî lūn-bûn

@nan

2008年の論文

@ja

2008年学术文章

@wuu

2008年学术文章

@zh-cn

2008年学术文章

@zh-hans

2008年学术文章

@zh-my

2008年学术文章

@zh-sg

2008年學術文章

@yue

2008年學術文章

@zh

2008年學術文章

@zh-hant

name

Hydroxyl radical and glutathio ...... in rat skeletal muscle fibres.

@en

Hydroxyl radical and glutathio ...... in rat skeletal muscle fibres.

@nl

type

label

Hydroxyl radical and glutathio ...... in rat skeletal muscle fibres.

@en

Hydroxyl radical and glutathio ...... in rat skeletal muscle fibres.

@nl

prefLabel

Hydroxyl radical and glutathio ...... in rat skeletal muscle fibres.

@en

Hydroxyl radical and glutathio ...... in rat skeletal muscle fibres.

@nl

P1433

Q46726955-98594665-83AE-4331-B0B4-3F8CDF09CDEF

P1476

Q46726955-2705E50A-A93B-4695-AC43-73CD8147F0C3

P2093

Q46726955-02F38D12-4199-44D1-8209-7E759F173238

Q46726955-B18466CD-92D3-4960-848B-AC83833ADFA2

P2860

Q46726955-0C64E0A2-55AE-43B8-92B1-F80F246A15C2

Q46726955-10ED0371-A0F7-4452-97B8-7D2088CE747B

Q46726955-1E6699BD-03AF-4736-BC20-0C6683FDC21A

Q46726955-32569E72-859B-4B31-9AD0-B4E83071828B

Q46726955-34EDF295-9C6F-49EB-969D-BA14D41BAB47

Q46726955-3C208FBE-9E4E-46F6-B72B-303C1DD21D5E

Q46726955-3D859932-9195-4B4F-99BB-322CAE42F2A0

Q46726955-534B6C5E-3F84-4DC4-95DF-F7BBF6D5BD3E

Q46726955-666C8EC4-E48D-4632-A17A-DAD51A9A3815

Q46726955-6694373D-DE46-46F0-A0A8-098FBC8F2B5E

P304

Q46726955-F09BE8FB-A0C6-451D-AAE2-51F2CE54F371

P31

Q46726955-AF5CA3A9-843A-402D-9D33-7EF58394F28C

P356

Q46726955-503130CF-1BBC-4513-BF38-FFB541E7B2C9

P407

Q46726955-978C5709-A2B3-4426-92B5-72F77D2B24ED

P433

Q46726955-D1241B5E-6B0F-4045-86DC-5BD520A8CD31

P478

Q46726955-1C0F4CE2-DEF4-4E0C-B22C-E470E8FBA274

P50

Q46726955-D0DFFA32-774D-4116-BC59-31604BECAD4C

P577

Q46726955-E35972B3-8784-4993-85AB-83AC8E4AB115

P5875

Q46726955-66B57BB6-5CE2-4523-A5AC-F7FEA8F6C2AD

P698

Q46726955-B4354A66-1438-44AA-9FFA-63090DE6F348

P932

Q46726955-F64B6ECC-50D7-406D-B885-20AB830C7A14

P356

JPHYSIOL.2007.150516

P1433

The Journal of Physiology

P1476

Hydroxyl radical and glutathio ...... in rat skeletal muscle fibres

@en

P2093

G D Lamb

http://www.w3.org/2001/XMLSchema#string

T L Dutka

http://www.w3.org/2001/XMLSchema#string

P2860

Isolation and nucleotide sequence of the cDNA encoding human ventricular myosin light chain 2

Superoxide, hydroxyl radical, and hydrogen peroxide effects on single-diaphragm fiber contractile apparatus.

Human fast skeletal myosin light chain 2 cDNA: isolation, tissue specific expression of the single copy gene, comparative sequence analysis of isoforms and evolutionary relationships.

Oxidants and skeletal muscle function: physiologic and pathophysiologic implications.

Regulation of protein function by S-glutathiolation in response to oxidative and nitrosative stress.

Nitric oxide, reactive oxygen species, and skeletal muscle contraction.

Functional, structural, and chemical changes in myosin associated with hydrogen peroxide treatment of skeletal muscle fibers.

Role of calcium sensitivity modulation in skeletal muscle performance.

S-glutathionylation in protein redox regulation.

Skeletal muscle fatigue: cellular mechanisms.

P304

2203-2216

http://www.w3.org/2001/XMLSchema#string

P31

scholarly article

P356

10.1113/JPHYSIOL.2007.150516

http://www.w3.org/2001/XMLSchema#string

P407

P433

8

http://www.w3.org/2001/XMLSchema#string

P478

586

http://www.w3.org/2001/XMLSchema#string

P50

Robyn M. Murphy

P577

2008-02-28T00:00:00Z

http://www.w3.org/2001/XMLSchema#dateTime

P5875

5543252

http://www.w3.org/2001/XMLSchema#string

P698

18308823

http://www.w3.org/2001/XMLSchema#string

P932

2465198

http://www.w3.org/2001/XMLSchema#string