- Vacuolar H(+)-ATPases: Intra- and intermolecular interactions
[作者:Huss, M; Vitavska, O; Albertmelcher, A; Bockelmann, S; Nardmann, C; Tabke, K; Tiburcy, F; Wieczorek, H,期刊:European Journal of Cell Biology, 页码:688-695 , 文章类型: Review,,卷期:2011年90-9]
- V-ATPases in eukaryotes are heteromultimeric, H(+)-transporting proteins. They are localized in a multitude of different membranes and energize many different transport processes. Unique features of V-ATPases are, on the...
- KtrB, a member of the superfamily of K(+) transporters
[作者:Hanelt, I; Tholema, N; Kroning, N; Vor der Brueggen, M; Wunnicke, D; Bakker, EP,期刊:European Journal of Cell Biology, 页码:696-704 , 文章类型: Review,,卷期:2011年90-9]
- KtrB is the K(+)-translocating subunit of the K(+)-uptake system KtrAB from bacteria. It is a member of the (s) under bar uperfamily of (K) under bar (+) (t) under bar ransporters (SKT proteins) with other sub-families o...
- The phosphoenolpyruvate-dependent glucose-phosphotransferase system from Escherichia coli K-12 as the center of a network regulating carbohydrate flux in the cell
[作者:Gabor, E; Gohler, AK; Kosfeld, A; Staab, A; Kremling, A; Jahreis, K,期刊:European Journal of Cell Biology, 页码:711-720 , 文章类型: Review,,卷期:2011年90-9]
- The phosphoenolpyruvate-(PEP)-dependent-carbohydrate:phosphotransferase systems (PTSs) of enteric bacteria constitute a complex transport and sensory system. Such a PTS usually consists of two cytoplasmic energy-coupling...
- Transmembrane signal transduction in archaeal phototaxis: The sensory rhodopsin II-transducer complex studied by electron paramagnetic resonance spectroscopy
[作者:Klare, JP; Bordignon, E; Engelhard, M; Steinhoff, HJ,期刊:European Journal of Cell Biology, 页码:731-739 , 文章类型: Review,,卷期:2011年90-9]
- Archaeal photoreceptors, together with their cognate transducer proteins, mediate phototaxis by regulating cell motility through two-component signal transduction pathways. This sensory pathway is closely related to the ...
- How do I begin? Sensing extracellular stress to maintain yeast cell wall integrity
[作者:Jendretzki, A; Wittland, J; Wilk, S; Straede, A; Heinisch, JJ,期刊:European Journal of Cell Biology, 页码:740-744 , 文章类型: Review,,卷期:2011年90-9]
- The cell wall integrity (CWI) signalling pathway is necessary to remodel the yeast cell wall during normal morphogenesis and in response to cell surface stress. In the Baker's yeast Saccharomyces cerevisiae, a set of fiv...
- Milk and sugar: Regulation of cell wall synthesis in the milk yeast Kluyveromyces lactis
[作者:Backhaus, K; Buchwald, U; Heppeler, N; Schmitz, HP; Rodicio, R; Heinisch, JJ,期刊:European Journal of Cell Biology, 页码:745-750 , 文章类型: Review,,卷期:2011年90-9]
- The milk yeast Kluyveromyces lactis is an alternative model yeast to the well established Saccharomyces cerevisiae. The cell wall of these fungi consists of polysaccharides (i.e. long chains of beta-1,3- and beta-1,6-lin...
- Lighting up the nuclear pore complex
[作者:Kahms, M; Huve, J; Wesselmann, R; Farr, JC; Baumgartel, V; Peters, R,期刊:European Journal of Cell Biology, 页码:751-758 , 文章类型: Review,,卷期:2011年90-9]
- It is generally accepted that transport through the nuclear pore complex (NPC) involves an abundance of phenylalanine-glycine rich protein domains (FG-domains) that serve as docking sites for soluble nuclear transport re...
- Drosophila metalloproteases in development and differentiation: The role of ADAM proteins and their relatives
[作者:Meyer, H; Panz, M; Albrecht, S; Drechsler, M; Wang, SS; Husken, M; Lehmacher, C; Paululat, A,期刊:European Journal of Cell Biology, 页码:770-778 , 文章类型: Review,,卷期:2011年90-9]
- ADAM metalloproteases are membrane bound glycoproteins that control many biological processes during development and differentiation, mainly by acting as ectodomain sheddases. The Drosophila genome contains five genes th...
- Membrane dynamics and fusion at late endosomes and vacuoles - Rab regulation, multisubunit tethering complexes and SNAREs
[作者:Epp, N; Rethmeier, R; Kramer, L; Ungermann, C,期刊:European Journal of Cell Biology, 页码:779-785 , 文章类型: Review,,卷期:2011年90-9]
- Membrane fusion at late endosomes and vacuoles depends on a conserved machinery, which includes Rab GTPases, their binding to tethering complexes and SNAREs. Fusion is initiated by the interaction of Rabs with tethering ...
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