about
A comparative genomic analysis of energy metabolism in sulfate reducing bacteria and archaeaClostridium sticklandii, a specialist in amino acid degradation:revisiting its metabolism through its genome sequenceOn the free energy that drove primordial anabolismIon channels in plantsOrganelle acidification negatively regulates vacuole membrane fusion in vivo.Isolation and characterization of a conserved domain in the eremophyte H+-PPase familyIdentification and characterization of an ecto-pyrophosphatase activity in intact epimastigotes of Trypanosoma rangeliLinks between hydrothermal environments, pyrophosphate, na(+), and early evolutionA vacuolar-H(+) -pyrophosphatase (TgVP1) is required for microneme secretion, host cell invasion, and extracellular survival of Toxoplasma gondiiNa+-translocating membrane pyrophosphatases are widespread in the microbial world and evolutionarily precede H+-translocating pyrophosphatases.Metaproteomics of a gutless marine worm and its symbiotic microbial community reveal unusual pathways for carbon and energy use.Overexpression of membrane proteins from higher eukaryotes in yeasts.Genome analysis and heterologous expression of acetate-activating enzymes in the anammox bacterium Kuenenia stuttgartiensisMembrane-integral pyrophosphatase subfamily capable of translocating both Na+ and H+.Inorganic pyrophosphatase defects lead to cell cycle arrest and autophagic cell death through NAD+ depletion in fermenting yeast.Pyrophosphate-fueled Na+ and H+ transport in prokaryotes.Insights into the mechanism of membrane pyrophosphatases by combining experiment and computer simulation.Molecular mechanisms of endolysosomal Ca2+ signalling in health and disease.Altered magnetic resonance images of brain and social behaviors of hatchling, and expression of thyroid hormone receptor βmRNA in cerebellum of embryos after Methimazole administration.Durum and bread wheat differ in their ability to retain potassium in leaf mesophyll: implications for salinity stress tolerance.Molecular Cloning, Expression Analysis, and Functional Characterization of the H(+)-Pyrophosphatase from Jatropha curcas.Presence of an isoform of H+-pyrophosphatase located in the alveolar sacs of a scuticociliate parasite of turbot: physiological consequences.Developing and validating a high-throughput assay for salinity tissue tolerance in wheat and barley.Selective Phosphonylation of 5'-Adenosine Monophosphate (5'-AMP) via Pyrophosphite [PPi(III)].A new method to investigate the catalytic mechanism of YhdE pyrophosphatase by using a pyrophosphate fluorescence probe.Phosphate Activation via Reduced Oxidation State Phosphorus (P). Mild Routes to Condensed-P Energy Currency Molecules.On an early gene for membrane-integral inorganic pyrophosphatase in the genome of an apparently pre-luca extremophile, the archaeon Candidatus Korarchaeum cryptofilum.Presence of a plant-like proton-translocating pyrophosphatase in a scuticociliate parasite and its role as a possible drug target.Crystallization and preliminary X-ray analysis of membrane-bound pyrophosphatases.Chemical Transformations in Proto-Cytoplasmic Media. Phosphorus Coupling in the Silica Hydrogel Phase.Membrane-bound pyrophosphatase of human gut microbe Clostridium methylpentosum confers improved salt tolerance in Escherichia coli, Saccharomyces cerevisiae and tobacco.Comparative biochemical and functional studies of family I soluble inorganic pyrophosphatases from photosynthetic bacteria.Mechanism of Cd and Cu action on the tonoplast proton pumps in cucumber roots.A plant proton-pumping inorganic pyrophosphatase functionally complements the vacuolar ATPase transport activity and confers bafilomycin resistance in yeast.Single-Cell Genomics Reveals a Diverse Metabolic Potential of Uncultivated -Related Deltaproteobacteria Widely Distributed in Marine Sediment
P2860
Q21131154-590FC448-17D3-473F-8B58-B8F013C5D9AEQ21267210-B18FC48F-F6C5-43A7-AB72-764D6F8AC2D2Q24646008-85A0F2F6-A6FF-44B0-A80D-6C90ED70CE88Q26995173-ED45E4D3-50EC-4B6D-8B5D-8313FA2FEED9Q27333856-2F27B75B-00FB-4AE2-991F-796CABFA1BABQ28534908-8AF192C6-F0A9-4416-9501-F7E86F283A8AQ28542885-A11F9E21-2976-4033-BF77-A82225BDD1FEQ28744658-2D3C30A4-2142-4D88-8CD9-C4CCF23AFFA3Q34157987-0297B924-86C7-4731-A2A1-C1F1BFCDCB64Q34180989-BFB46736-C885-407C-BB0C-89C7AAF7159BQ34269609-E618A938-4882-4BDC-BC37-6927B610CED1Q35214601-D1E615D0-22EA-4619-B690-39292C43818CQ36336461-5BCE85FA-6E5E-46D6-9C01-ACF80F60C5E4Q36567851-CD34A2FD-C104-4C8B-9F80-1EAC46D84D8CQ36812488-CEC0B827-D7F0-46F4-8690-2CCDE27FE964Q36890383-1E6FF34C-A018-44CE-A180-C3AE9E87726FQ37679967-4D1B7ADF-9B11-428F-B0C3-78CD902108F2Q37944859-702C983D-B8A0-4059-AB8A-5828E4DBF113Q38420229-B27ED6F8-E3E0-4BAF-A28C-39CDBA65FA79Q39147304-9B8E9C05-AE05-4AB7-889A-929B2F8AB5F8Q39613786-8DCADFE8-EB79-446D-99C9-75C490BCA273Q39955744-2D196408-40A7-48FD-BAB4-3007C4A21B20Q40921545-F609FB8A-52F4-481F-A0EB-D2B09757E286Q41319654-3CCC5A8F-EDFC-40BE-8685-71E8336A358AQ41421996-19ED39B9-A54E-4297-9124-DCF9706BA671Q42177819-4EEB60B7-EEC6-4060-90CE-E31A3AC68553Q43020809-A5E53C24-6AE6-4A45-A1CF-764D3A21DB85Q44860400-04602DB0-F2E4-46C1-8A9A-A6242E8485FBQ45656487-543CAD74-5C49-4CF7-9F6E-BF358D434D76Q46257939-A4AFB564-A7FD-4CD3-81FE-0E2C2B95D652Q50100686-8C2D6630-93D9-44A4-B0AB-9FDC9758B689Q54437866-16DD469E-ADF3-4C1E-A942-E161861513A9Q54510110-7C59A1F6-2E28-4308-BD9D-9B2736718E58Q54587529-6E45227C-FCC5-4160-B28A-0686A570449AQ57085094-7EB3B01B-8F91-47BD-9BB0-885C50708C1E
P2860
description
2007 nî lūn-bûn
@nan
2007年の論文
@ja
2007年論文
@yue
2007年論文
@zh-hant
2007年論文
@zh-hk
2007年論文
@zh-mo
2007年論文
@zh-tw
2007年论文
@wuu
2007年论文
@zh
2007年论文
@zh-cn
name
H+-PPases: yesterday, today and tomorrow.
@ast
H+-PPases: yesterday, today and tomorrow.
@en
type
label
H+-PPases: yesterday, today and tomorrow.
@ast
H+-PPases: yesterday, today and tomorrow.
@en
prefLabel
H+-PPases: yesterday, today and tomorrow.
@ast
H+-PPases: yesterday, today and tomorrow.
@en
P1433
P1476
H+-PPases: yesterday, today and tomorrow
@en
P2093
Herrick Baltscheffsky
Margareta Baltscheffsky
P356
10.1080/15216540701258132
P577
2007-02-01T00:00:00Z