| Nome |
# |
|
A human stunning and killing method applied to marine aquatic species, file e27ce0c2-bf5e-055e-e053-6605fe0a7873
|
2.020
|
|
The mitochondrial permeability transition: Recent progress and open questions, file e27ce0c9-e543-055e-e053-6605fe0a7873
|
292
|
|
The mitochondrial chaperone TRAP1 regulates F-ATP synthase channel formation, file fbe8c651-943e-42d7-8a27-434a807246d9
|
250
|
|
The influence of the type of dry-cured Italian PDO ham on cathepsin B activity trend during processing, file e27ce0c9-d610-055e-e053-6605fe0a7873
|
244
|
|
The f subunit of human ATP synthase is essential for normal mitochondrial morphology and permeability transition, file e27ce0c9-5293-055e-e053-6605fe0a7873
|
234
|
|
Dimers of mitochondrial ATP synthase form the permeability transition pore., file e27ce0c3-7cef-055e-e053-6605fe0a7873
|
130
|
|
Properties of the permeability transition of pea stem mitochondria, file e27ce0c6-0629-055e-e053-6605fe0a7873
|
117
|
|
Mitochondrial F-ATP Synthase and Its Transition into an Energy-Dissipating Molecular Machine, file e27ce0c6-45de-055e-e053-6605fe0a7873
|
98
|
|
Editorial: Structure and function of F-and V-ATPases, file e27ce0c6-6d99-055e-e053-6605fe0a7873
|
94
|
|
The Oligomycin-Sensitivity Conferring Protein of Mitochondrial ATP Synthase: Emerging New Roles in Mitochondrial Pathophysiology, file e27ce0c1-f895-055e-e053-6605fe0a7873
|
91
|
|
Structural and functional properties of plant mitochondrial F-ATP synthase, file e27ce0c8-7b02-055e-e053-6605fe0a7873
|
89
|
|
Effect of ultrasound treatment, oil addition and storage time on lycopene stability and in vitro bioaccessibility of tomato pulp, file e27ce0c8-fb19-055e-e053-6605fe0a7873
|
66
|
|
Do dimers of ATP synthase form the PTP in pea stem mitochondria?, file e27ce0c3-2d54-055e-e053-6605fe0a7873
|
53
|
|
Channel formation by yeast F-ATP synthase and the role of dimerization in the mitochondrial permeability transition, file e27ce0c3-78c7-055e-e053-6605fe0a7873
|
45
|
|
High-Conductance Channel Formation in Yeast Mitochondria is Mediated by F-ATP Synthase e and g Subunits., file e27ce0c9-9177-055e-e053-6605fe0a7873
|
44
|
|
Ectopic F0F1 ATP synthase contains both nuclear and mitochondrially-encoded subunits., file e27ce0c3-766e-055e-e053-6605fe0a7873
|
39
|
|
The effect of the pre-slaughter feeding/fasting schedule on post mortem quality traits of rainbow trout, file e27ce0c3-a413-055e-e053-6605fe0a7873
|
29
|
|
Nanoemulsions as delivery systems of hydrophobic silybin from silymarin extract: Effect of oil type on silybin solubility, invitro bioaccessibility and stability, file e27ce0c7-7087-055e-e053-6605fe0a7873
|
28
|
|
Characterization of F0F1 ATP synthase from pea stem mitochondria: does it form the mitochondrial permeability transition pore in plants?, file e27ce0c1-f098-055e-e053-6605fe0a7873
|
22
|
|
Effect of heat stress on dairy cow performance and on expression of protein metabolism genes in mammary cells, file e27ce0c9-004e-055e-e053-6605fe0a7873
|
21
|
|
F-ATPase of drosophila melanogaster forms 53-picosiemen (53-pS) channels responsible for mitochondrial Ca2+-induced Ca2+ release, file e27ce0c3-77ec-055e-e053-6605fe0a7873
|
20
|
|
Functional fish: improving nutrition for the elderly, file e27ce0c9-b9f7-055e-e053-6605fe0a7873
|
20
|
|
Search for compounds able to modulate FOF1 ATP synthase in switching from life enzyme to cell death executor, file e27ce0c1-f0a3-055e-e053-6605fe0a7873
|
15
|
|
The Haves and Have-Nots: The Mitochondrial Permeability Transition Pore across Species, file c9934e93-67fe-484f-aba2-2c73e40ee95a
|
7
|
|
Nanoemulsions as delivery systems of hydrophobic silybin from silymarin extract: Effect of oil type on silybin solubility, invitro bioaccessibility and stability, file e27ce0c2-f8cd-055e-e053-6605fe0a7873
|
7
|
|
Proteolytic resistance of actin but not of myosin heavy chain during processing of Italian PDO (protected designation of origin) dry-cured hams, file e27ce0c3-7422-055e-e053-6605fe0a7873
|
7
|
|
Does ATP synthase form the PTP in pea stem mitochondria?, file e27ce0c2-1cfa-055e-e053-6605fe0a7873
|
6
|
|
Cyclophilin D in Mitochondrial Dysfunction: A Key Player in Neurodegeneration?, file 468677a9-12c2-4efc-bfc7-9ce38b48b512
|
5
|
|
Does FOF1 ATP synthase form the mitochondrial permeability transition pore in plants?, file e27ce0c2-42b6-055e-e053-6605fe0a7873
|
4
|
|
Effect of pulsed light on structure and immunoreactivity of gluten, file e27ce0c3-8ea4-055e-e053-6605fe0a7873
|
4
|
|
Preparation of monocarbonyl ruthenium complexes bearing bidentate nitrogen and phosphine ligands and their catalytic activity in carbonyl compound reduction, file e27ce0c7-4a58-055e-e053-6605fe0a7873
|
4
|
|
F-ATP synthase dimers from pea stem mitochondria are involved in PTP formation, file e27ce0c2-3d48-055e-e053-6605fe0a7873
|
3
|
|
ATP synthase dimers from pea stem mitochondria form the PTP, file e27ce0c2-3d4b-055e-e053-6605fe0a7873
|
3
|
|
Early post mortem expression of genes related to tenderization in two Italian Simmental young bulls' skeletal muscles differing in contractile type, file e27ce0c5-0698-055e-e053-6605fe0a7873
|
3
|
|
High-Conductance Channel Formation in Yeast Mitochondria is Mediated by F-ATP Synthase e and g Subunits., file e27ce0c9-b884-055e-e053-6605fe0a7873
|
3
|
|
Effects of ozone processing on chemical, structural and functional properties of whey protein isolate, file e27ce0c1-f194-055e-e053-6605fe0a7873
|
2
|
|
Activity of enzymes and expression of genes involved in beef tenderization in two bovine skeletal muscles, file e27ce0c1-f88b-055e-e053-6605fe0a7873
|
2
|
|
Channel formation by yeast F-ATP synthase and the role of dimerization in the mitochondrial permeability transition, file e27ce0c3-d07c-055e-e053-6605fe0a7873
|
2
|
|
Assessment of calpain and caspase systems activities during ageing of two bovine muscles by degradation patterns of αII spectrin and PARP-1, file e27ce0c3-d5ca-055e-e053-6605fe0a7873
|
2
|
|
The effect of slaughtering methods on actin degradation and on muscle quality attributes of farmed European sea bass (Dicentrarchus labrax)., file e27ce0c5-a0f2-055e-e053-6605fe0a7873
|
2
|
|
Ca2+ binding to F-ATP synthase β subunit triggers the mitochondrial permeability transition., file e27ce0c9-b6b1-055e-e053-6605fe0a7873
|
2
|
|
In vitro and in vivo studies of F(0)F(1)ATP synthase regulation by inhibitor protein IF1 in goat heart, file e27ce0c1-e894-055e-e053-6605fe0a7873
|
1
|
|
Proteomic analysis of F1F0-ATP synthase super-assembly in mitochondria of cardiomyoblasts undergoing differentiation to the cardiac lineage, file e27ce0c1-ee7d-055e-e053-6605fe0a7873
|
1
|
|
Effect of confinement and starvation on stress parameters in the (Homarus americanus), file e27ce0c2-48fd-055e-e053-6605fe0a7873
|
1
|
|
Effect of high pressure homogenisation on microbial inactivation, protein structure and functionality of egg white, file e27ce0c2-fa50-055e-e053-6605fe0a7873
|
1
|
|
Effect of ultrasound treatment, oil addition and storage time on lycopene stability and in vitro bioaccessibility of tomato pulp, file e27ce0c3-8e40-055e-e053-6605fe0a7873
|
1
|
|
Lycopene bioaccessibility and bioavailability from processed foods, file e27ce0c3-9669-055e-e053-6605fe0a7873
|
1
|
|
Effect of ultrasound treatments of tomato pulp on microstructure and lycopene in vitro bioaccessibility., file e27ce0c3-96e3-055e-e053-6605fe0a7873
|
1
|
|
Inactivation of mushroom polyphenoloxidase in model systems exposed to high-pressure carbon dioxide, file e27ce0c3-9b40-055e-e053-6605fe0a7873
|
1
|
|
Shedding light on the permeability transition through S. cerevisiae F-ATP synthase mutagenesis, file e27ce0c3-cfee-055e-e053-6605fe0a7873
|
1
|
|
The Ca2+ regulatory site of the permeability transition pore is within the catalytic core of F-ATP synthase, file e27ce0c3-d00d-055e-e053-6605fe0a7873
|
1
|
|
Cholesterol-dependent translocation of the F1F0-ATP synthase inhibitor factor 1 (IF1) to cell surface, file e27ce0c3-d084-055e-e053-6605fe0a7873
|
1
|
|
The unique histidine of F-ATP synthase subunit OSCP mediates regulation of the permeability transition by matrix pH, file e27ce0c3-d5d3-055e-e053-6605fe0a7873
|
1
|
|
The unique histidine in OSCP subunit of F-ATP synthase mediates inhibition of the permeability transition pore by acidic pH., file e27ce0c9-5cdd-055e-e053-6605fe0a7873
|
1
|
|
Arg-8 of yeast subunit e contributes to the stability of F-ATP synthase dimers and to the generation of the full-conductance mitochondrial megachannel, file e27ce0c9-7ec6-055e-e053-6605fe0a7873
|
1
|
|
From ATP to PTP and Back: A Dual Function for the Mitochondrial ATP Synthase, file e27ce0c9-8d81-055e-e053-6605fe0a7873
|
1
|
|
The mitochondrial permeability transition pore: Channel formation by F-ATP synthase, integration in signal transduction, and role in pathophysiology, file e27ce0c9-9ef7-055e-e053-6605fe0a7873
|
1
|
|
OSCP subunit of mitochondrial ATP synthase: role in regulation of enzyme function and of its transition to a pore., file e27ce0c9-b274-055e-e053-6605fe0a7873
|
1
|
| Totale |
4.146 |