about
Alzheimer's pathogenesis and its link to the mitochondrionHIV-1 Tat protein directly induces mitochondrial membrane permeabilization and inactivates cytochrome c oxidaseMitochondrial DNA sequence variation and neurodegenerationATP synthase: subunit-subunit interactions in the stator stalkMitochondrial formation of reactive oxygen speciesInhibition of Escherichia coli ATP synthase by amphibian antimicrobial peptides.Dietary bioflavonoids inhibit Escherichia coli ATP synthase in a differential manner.Magnetic isotope effect of magnesium in phosphoglycerate kinase phosphorylation.Control mechanisms in mitochondrial oxidative phosphorylation.Role of Charged Residues in the Catalytic Sites of Escherichia coli ATP Synthase.An algal nucleus-encoded subunit of mitochondrial ATP synthase rescues a defect in the analogous human mitochondrial-encoded subunit.Catalysis and rotation of F1 motor: cleavage of ATP at the catalytic site occurs in 1 ms before 40 degree substep rotationATP synthesis driven by proton transport in F1F0-ATP synthase.Significance of αThr-349 in the catalytic sites of Escherichia coli ATP synthase.Proteomic changes in the heart of diet-induced pre-diabetic mice.The enigmatic mitochondrial ORF ymf39 codes for ATP synthase chain b.Effect of structural modulation of polyphenolic compounds on the inhibition of Escherichia coli ATP synthaseProtein kinase C-α interaction with F0F1-ATPase promotes F0F1-ATPase activity and reduces energy deficits in injured renal cells.The beta subunit loop that couples catalysis and rotation in ATP synthase has a critical length.Thymoquinone Inhibits Escherichia coli ATP Synthase and Cell Growth.Asp residues of βDELSEED-motif are required for peptide binding in the Escherichia coli ATP synthaseIdentification of the betaTP site in the x-ray structure of F1-ATPase as the high-affinity catalytic site.ATP synthase: a molecular therapeutic drug target for antimicrobial and antitumor peptidesMedicinal chemistry of ATP synthase: a potential drug target of dietary polyphenols and amphibian antimicrobial peptides.A functionally important hydrogen-bonding network at the betaDP/alphaDP interface of ATP synthase.The role of the betaDELSEED-loop of ATP synthase.ATP synthase with its gamma subunit reduced to the N-terminal helix can still catalyze ATP synthesisA diagnostic algorithm for metabolic myopathiesMitochondria, cognitive impairment, and Alzheimer's disease.Cardiological manifestations of mitochondrial respiratory chain disorders.Reactive oxygen species, heat stress and oxidative-induced mitochondrial damage. A review.Folding and stability of the b subunit of the F(1)F(0) ATP synthase.Quantitative determination of binding affinity of delta-subunit in Escherichia coli F1-ATPase: effects of mutation, Mg2+, and pH on Kd.Quantitative determination of direct binding of b subunit to F1 in Escherichia coli F1F0-ATP synthase.Mitochondrial Actions of Thyroid Hormone.Catalytic robustness and torque generation of the F1-ATPaseAdvances in molecular diagnostics for mitochondrial diseases.The proton-driven rotor of ATP synthase: ohmic conductance (10 fS), and absence of voltage gating.Functional incorporation of chimeric b subunits into F1Fo ATP synthaseEstablished Principles and Emerging Concepts on the Interplay between Mitochondrial Physiology and S-(De)nitrosylation: Implications in Cancer and Neurodegeneration.
P2860
Q27000255-A1496AB8-B6D7-44A8-B6EE-BBADACB92B7EQ28261913-7E6FC686-E73B-4D01-B856-E8C9BA98E403Q28710285-92B3C715-9A98-4244-8AA8-3B5A448E0BA7Q28763728-AE9B3188-01F2-4119-97A4-A713F24EE0FFQ29547906-69D8F6B0-5A87-4A31-94A7-04A07C15E5C9Q33712627-4F1BBC8F-8B31-41F1-A147-663BDB1B4577Q33823245-8D712AC7-D00F-444A-A1F9-D21332660A80Q33911601-8F943701-129D-4356-953B-D2B9C71568C8Q33936500-32D36C17-5EDB-49B6-99F6-6DFB22FCEC78Q34252667-D33149A6-5D1B-490A-BA19-D0B31A3E066BQ34274281-EA2F5C51-A1D6-4531-8612-163D92280279Q34384279-942F052C-F564-40D1-B713-381CCE1D41D7Q34534259-EFA27756-34B5-4687-A980-2C3A11F9D666Q34631137-D4B6E480-F018-4BED-A31E-84A5E168971BQ34847102-B839F662-9592-44A2-AB74-057A8CEE9DE6Q34980190-1A47107A-0B35-4602-B518-EE6A4EC033D4Q35002406-54C9C1DB-ACA1-4E2E-AD26-4B75BE850D46Q35172661-8B474864-1DA2-4B6A-B67E-9A3820605AB2Q35313850-3299DBC5-3D07-4B5E-8445-FB068A4EE6DAQ35634052-9C94405C-B550-4251-A3CE-F830F0482507Q36165353-DBC97025-3BCF-4644-AC72-A423FA8501F3Q36276833-99B66AB4-C9E6-46E9-8AD8-3C993E2D6C90Q36525469-C8A24491-934B-45B6-9003-E06C04FE7A5BQ36525492-B0BA6B02-E221-4F4A-80BE-BF37FE508921Q36861489-D3F0BC26-A40B-481F-952E-B768302F8CC4Q37160889-52B25486-25C7-4A22-A096-0EDFC527172AQ37446710-1A6EB8EC-0655-4285-B81F-4AA90E7F947CQ37738321-73948B92-2C2A-47B1-B20A-71C3890F8DA1Q37783538-2B3AD1D9-F4FE-4187-87A8-FB3F8B70EE36Q37917716-EDB73EE1-FC55-490C-9FF8-878837FAFFC6Q38263705-107F9521-FCED-4341-A393-F44D66369EC2Q38269539-B60D8724-79B9-4F0F-BC03-3DC4FD1CF64BQ38291659-DE686BAD-4F87-4992-80F0-19570C535E96Q38346017-772C3C86-21DF-451A-A9DA-E9024E3E46D2Q38991456-25E5FA03-EB34-42CD-B18F-0AAC6C2E9220Q39251244-71F4A19B-21AB-4F3D-A0D9-624ABB93E200Q39951345-A451A795-EC42-46C4-A1F5-F940DCF902A7Q40286222-20F75DAD-75A5-4338-9D06-D768598D429CQ41891463-07BA4A11-5EEF-41B9-834E-4DB28DF1F914Q41918404-7A967229-A506-4B11-B164-7222B1630DAD
P2860
description
2000 nî lūn-bûn
@nan
2000 թուականի Նոյեմբերին հրատարակուած գիտական յօդուած
@hyw
2000 թվականի նոյեմբերին հրատարակված գիտական հոդված
@hy
2000年の論文
@ja
2000年論文
@yue
2000年論文
@zh-hant
2000年論文
@zh-hk
2000年論文
@zh-mo
2000年論文
@zh-tw
2000年论文
@wuu
name
The rotary machine in the cell, ATP synthase.
@ast
The rotary machine in the cell, ATP synthase.
@en
type
label
The rotary machine in the cell, ATP synthase.
@ast
The rotary machine in the cell, ATP synthase.
@en
prefLabel
The rotary machine in the cell, ATP synthase.
@ast
The rotary machine in the cell, ATP synthase.
@en
P2860
P356
P1476
The rotary machine in the cell, ATP synthase.
@en
P2093
P2860
P304
P356
10.1074/JBC.R000021200
P407
P577
2000-11-15T00:00:00Z