| scholarly article | Q13442814 |
| P2093 | author name string | O. Lindberg | |
| D. G. Nicholls | |||
| P2860 | cites work | Chemiosmotic coupling in oxidative and photosynthetic phosphorylation | Q34231345 |
| Studies of the mitochondrial energy-transfer system of brown adipose tissue | Q36584376 | ||
| Ion transport by energy-conserving biological membranes | Q40007145 | ||
| The action of certain antibiotics on mitochondrial, erythrocyte and artificial phospholipid membranes. The role of induced proton permeability | Q41853287 | ||
| Biochemical effects of the hypoglycaemic compound diphenyleneiodonnium. Catalysis of anion-hydroxyl ion exchange across the inner membrane of rat liver mitochondria and effects on oxygen uptake | Q42918809 | ||
| Respiration-linked phosphorylation in mitochondria of guinea-pig brown fat. | Q46961913 | ||
| Permeability to water, dimension of surface, and structural changes during swelling in rat liver mitochondria | Q47733355 | ||
| Studies on the energy state of isolated brown adipose tissue mitochondria. Effect of adenine nucleotides and oligomycin on the generation and dissipation of the "energy potential". | Q47998148 | ||
| Conditions in vitro which affect respiratory control and capacity for respiration-linked phosphorylation in brown adipose tissue mitochondria. | Q52472979 | ||
| Oxidative Phosphorylation and Compartmentation of Fatty Acid Metabolism in Brown Fat Mitochondria | Q52494826 | ||
| Energy-linked alteration of the permeability of heart mitochondria to chloride and other anions. | Q52496554 | ||
| Swelling and contraction of heart mitochondria suspended in ammonium chloride. | Q52496557 | ||
| Physiologically-induced loose coupling of brown-adipose-tissue mitochondria correlated to endogenous fatty acids and adenosine phosphates. | Q54037706 | ||
| Nonphosphorylating respiration of mitochondria from brown adipose tissue of rats | Q68386147 | ||
| Role of a specific endogenous fatty acid fraction in the coupling-uncoupling mechanism of oxidative phosphorylation of brown adipose tissue | Q68491479 | ||
| Mitochondria from Hamster Brown-Adipose Tissue. Regulation of Respiration in vitro by Variations in Volume of the Matrix Compartment | Q69409664 | ||
| Swelling and shrinkage phenomena in liver mitochondria. VI. Metabolism-independent swelling coupled to ion movement | Q69995538 | ||
| Chloride-hydroxide exchange across mitochondrial, erythrocyte and artificial lipid membranes mediated by trialkyl- and triphenyltin compounds | Q71512937 | ||
| Estimation of Membrane Potential and pH Difference across the Cristae Membrane of Rat Liver Mitochondria | Q72367048 | ||
| Translocation of some anions cations and acids in rat liver mitochondria | Q72440780 | ||
| Guanosine-diphosphate causing changes in the phosphorylation pattern of adenine nucleotides in mitochondria from brown adipose tissue | Q77920647 | ||
| P433 | issue | 3 | |
| P407 | language of work or name | English | Q1860 |
| P921 | main subject | biochemistry | Q7094 |
| mitochondrion | Q39572 | ||
| P304 | page(s) | 523-530 | |
| P577 | publication date | 1973-09-01 | |
| 1973-09-03 | |||
| P1433 | published in | FEBS Journal | Q1388041 |
| P1476 | title | Brown-adipose-tissue mitochondria. The influence of albumin and nucleotides on passive ion permeabilities | |
| Brown-Adipose-Tissue Mitochondria. The Influence of Albumin and Nucleotides on Passive Ion Permeabilities | |||
| P478 | volume | 37 |
| Q37631327 | A sequence related to a DNA recognition element is essential for the inhibition by nucleotides of proton transport through the mitochondrial uncoupling protein |
| Q43548506 | Alkaline pH, membrane potential, and magnesium cations are negative modulators of purine nucleotide inhibition of H+ and Cl- transport through the uncoupling protein of brown adipose tissue mitochondria |
| Q43684813 | Alkylsulfonates as probes of uncoupling protein transport mechanism. Ion pair transport demonstrates that direct H(+) translocation by UCP1 is not necessary for uncoupling. |
| Q46470744 | Anion Channels of Mitochondria |
| Q42209652 | Augmenting energy expenditure by mitochondrial uncoupling: a role of AMP-activated protein kinase |
| Q38093542 | Brown adipose tissue mitochondria |
| Q43465451 | Brown-Adipose-Tissue Mitochondria: Photoaffinity Labelling of the Regulatory Site of Energy Dissipation |
| Q44313981 | Cellular mechanisms in brown fat thermogenesis mitochondria |
| Q70029228 | Chemical modification of the brown fat mitochondrial uncoupling protein with tetranitromethane |
| Q41810879 | Cysteine residues are not essential for uncoupling protein function. |
| Q39796116 | Effect of long-chain fatty acids and acyl-CoA on mitochondrial permeability, transport, and energy-coupling processes |
| Q46687882 | Effect of tonicity of the medium on transport of adenine nucleotides and phosphate in brown adipose tissue mitochondria |
| Q39723398 | Energy Dissipation in Brown Adipose Tissue Mitochondria |
| Q54103347 | Evidence for two distinct chloride uniport pathways in brown adipose tissue mitochondria. |
| Q43226759 | Expression of UCP3 in CHO cells does not cause uncoupling, but controls mitochondrial activity in the presence of glucose |
| Q36849270 | Fatty acid circuit as a physiological mechanism of uncoupling of oxidative phosphorylation |
| Q37142519 | Forty years of Mitchell's proton circuit: From little grey books to little grey cells |
| Q67438741 | Hamster Brown-Adipose-Tissue Mitochondria. Purine Nucleotide Control of the Ion Conductance of the Inner Membrane, the Nature of the Nucleotide Binding Site |
| Q44131354 | High level of uncoupling protein 1 expression in muscle of transgenic mice selectively affects muscles at rest and decreases their IIb fiber content. |
| Q34175405 | Homologues of the uncoupling protein from brown adipose tissue (UCP1): UCP2, UCP3, BMCP1 and UCP4. |
| Q34044450 | How do uncoupling proteins uncouple? |
| Q67697892 | Inner mitochondrial membrane anion channel is present in brown adipocytes but is not identical with the uncoupling protein |
| Q93197596 | Insights Into the Role of Mitochondrial Ion Channels in Inflammatory Response |
| Q39155148 | Inter-Relationships between Proton Electrochemical Gradient, Adenine-Nucleotide Phosphorylation Potential and Respiration, during Substrate-Level and Oxidative Phosphorylation by Mitochondria from Brown Adipose Tissue of Cold-Adapted Guinea-Pigs |
| Q73666085 | Long-chain fatty acid-promoted swelling of mitochondria: further evidence for the protonophoric effect of fatty acids in the inner mitochondrial membrane |
| Q46195724 | Mitochondrial Patch Clamp of Beige Adipocytes Reveals UCP1-Positive and UCP1-Negative Cells Both Exhibiting Futile Creatine Cycling |
| Q33960204 | Mitochondrial uncoupling as a target for drug development for the treatment of obesity |
| Q39778968 | Permeability of yeast mitochondrial internal membrane: structure-activity relationship |
| Q32139124 | Physiological regulation of the transport activity in the uncoupling proteins UCP1 and UCP2. |
| Q41433814 | Regulation of GDP binding and uncoupling-protein concentration in brown-adipose-tissue mitochondria. The effects of cold-acclimation, warm-reacclimation and noradrenaline |
| Q44452852 | Stimulation of potassium cycling in mitochondria by long-chain fatty acids |
| Q77796455 | Structure and function of the uncoupling protein from brown adipose tissue |
| Q44690051 | Sulfhydryl groups are involved in H+ translocation via the uncoupling protein of brown adipose tissue mitochondria |
| Q83253919 | Swelling and contraction of potato mitochondria |
| Q35972265 | Test systems to study the structure and function of uncoupling protein 1: a critical overview. |
| Q39159304 | The Effective Proton Conductance of the Inner Membrane of Mitochondria from Brown Adipose Tissue. Dependency on Proton Electrochemical Potential Gradient |
| Q34180502 | The Identification of the Component in the Inner Membrane of Brown Adipose Tissue Mitochondria Responsible for Regulating Energy Dissipation |
| Q40469109 | The bioenergetics of brown adipose tissue mitochondria. |
| Q39069073 | The molecular features of uncoupling protein 1 support a conventional mitochondrial carrier-like mechanism |
| Q41429357 | The reconstituted isolated uncoupling protein is a membrane potential driven H+ translocator |
| Q38608271 | The regulation of the matrix volume of mammalian mitochondria in vivo and in vitro and its role in the control of mitochondrial metabolism |
| Q39041340 | UCP1: A transporter for H+ and fatty acid anions |
| Q32139161 | UCP1: the only protein able to mediate adaptive non-shivering thermogenesis and metabolic inefficiency. |
| Q34175421 | Uncoupling proteins: the issues from a biochemist point of view |
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