Transmembrane myosin chitin synthase involved in mollusc shell formation produced in Dictyostelium is active

Several mollusc shells contain chitin, which is formed by a transmembrane myosin motor enzyme. This protein could be involved in sensing mechanical and structural changes of the forming, mineralizing extracellular matrix. Here we report the heterologous expression of the transmembrane myosin chitin synthase Ar-CS1 of the bivalve mollusc Atrina rigida (2286 amino acid residues, M.W. 264 kDa/monomer) in Dictyostelium discoideum, a model organism for myosin motor proteins. Confocal laser scanning immunofluorescence microscopy (CLSM), chitin binding GFP detection of chitin on cells and released to the cell culture medium, and a radiochemical activity assay of membrane extracts revealed expression and enzymatic activity of the mollusc chitin synthase in transgenic slime mold cells. First high-resolution atomic force microscopy (AFM) images of Ar-CS1 transformed cellulose synthase deficient D. discoideumdcsA⁻ cell lines are shown.     

Transmembrane topology of the Acr3 family arsenite transporter from Bacillus subtilis

The transmembrane topology of the Acr3 family arsenite transporter Acr3 from Bacillus subtilis was analysed experimentally using translational fusions with alkaline phosphatase and green fluorescent protein and in silico by topology modelling. Initial topology prediction resulted in two models with 9 and 10 TM helices respectively. 32 fusion constructs were made between truncated forms of acr3 and the reporter genes at 17 different sites throughout the acr3 sequence to discriminate between these models. Nine strong reporter protein signals provided information about the majority of the locations of the cytoplasmic and extracellular loops of Acr3 and showed that both the N- and the C-termini are located in the cytoplasm. Two ambiguous data points indicated the possibility of an alternative 8 helix topology. This possibility was investigated using another 10 fusion variants, but no experimental support for the 8 TM topology was obtained. We therefore conclude that Acr3 has 10 transmembrane helices. Overall, the loops which connect the membrane spanning segments are short, with cytoplasmic loops being somewhat longer than the extracellular loops. The study provides the first ever experimentally derived structural information on a protein of the Acr3 family which constitutes one of the largest classes of arsenite transporters.     

Transmembrane signaling in cilia and flagella

Summary Ciliary and flagellar membranes are dynamic. Ciliary and flagellar membranes have diverged widely during evolution and perform many specialized functions. Transmembrane signaling is an important component of the function of ciliary and flagellar surfaces in general. In this review, I discuss some of the functions performed by ciliary and flagellar surfaces and I present three different ciliary and flagellar signaling systems associated with rather different dynamic events performed by ciliary and flagellar surfaces. Two of these are associated withChlamydomonas flagella and one is associated with vertebrate olfactory cilia. Calcium regulation of protein phosphorylation appears to be important in regulating glycoprotein movements in theChlamydomonas flagellar membrane. Changes in levels of cAMP and cAMP-dependent protein phosphorylation are clearly central to the signaling associated with mating events in gametic flagella ofChlamydomonas, although calcium clearly has an important, if poorly understood, role to play. There is no known role for G proteins in flagellar membrane events inChlamydomonas. In contrast, mammalian olfactory cilia possess an odorant activated, G protein regulated adenylate cyclase and conductance channels that are directly gated by cyclic nucleotides. A second class of odorants that do not affect adenylate cyclase activity appear to act through G protein activated phospholipase C and changes in IP₃ second messenger levels. These examples demonstrate the diversity in the signaling pathways associated with ciliary and flagellar membranes.Abbreviations CaPK-2 calcium-dependent protein kinase - db-cAMP dibutyryl cAMP - Fab fragment antigen binding - IgE immunoglobulin E - IP₃ myo-inositol trisphosphate - IP₄ myo-inositol tetrakisphosphate - OBP odorant binding protein - PIP₂ phosphoinositol bisphosphate - TFP trifluoperazine - WGA wheat germ agglutinin     

Exchange of Guanine Nucleotides Between Tubulin and GTP-Binding Proteins That Regulate Adenylate Cyclase: Cytoskeletal Modification of Neuronal Signal Transduction

Tubulin, the primary constituent of microtubules, is a GTP-binding proteins with structural similarities to other GTP-binding proteins. Whereas microtubules have been implicated as modulators of the adenylate cyclase system, the mechanism of this regulation has been elusive. Tubulin, polymerized with the hydrolysis-resistant GTP analog, 5'-guanylylimidodiphosphate [Gpp(NH)p], can promote inhibition of synaptic membrane adenylate cyclase which persists subsequent to washing. Tubulin with Gpp(NH)p bound was slightly less potent than free Gpp(NH)p in the inhibition of adenylate cyclase, but tubulin without nucleotide bound had no effect on the enzyme. A GTP-binding protein from the rod outer segment (transducin), with Gpp(NH)p bound, was also without effect on adenylate cyclase. Tubulin (regardless of the nucleotide bound to it) did not alter the activity of the adenylate cyclase catalytic unit directly. When tubulin was polymerized with the hydrolysis-resistant photoaffinity GTP analog, [32P]P3(4-azidoanilido)-P1-5'-GTP ([32P]AAGTP), and this protein was added to synaptic membranes, AAGTP was transferred from tubulin to the inhibitory GTP-binding protein, Gi. This transfer was blocked by prior incubation of the membranes with Gpp(NH)p or covalent binding of AAGTP to tubulin prior to exposure of that tubulin to membranes. Incubation of membranes with Gpp(NH)p subsequent to incubation with tubulin-AAGTP results in a decrease in AAGTP bound to Gi and a compensatory increase in AAGTP bound to the stimulatory GTP-binding protein, Gs. Likewise, persistent inhibition of adenylate cyclase by tubulin-Gpp(NH)p could be overridden by the inclusion of 100 microM Gpp(NH)p in the assay inhibition. Whereas Gpp(NH)p promotes persistent inhibition of synaptic membrane adenylate cyclase without incubation at elevated temperatures, tubulin [with AAGTP or Gpp(NH)p bound] requires 30 s incubation at 23 degrees C to effect adenylate cyclase inhibition. Photoaffinity experiments yield parallel results. These data are consistent with synaptic membrane tubulin regulating neuronal adenylate cyclase by transferring GTP to Gi and, subsequently, to Gs.     

植物氨基酸转运子研究进展

氨基酸是高等植物氮素同化产物长距离运输及在组织间分配的主要形式,通过跨膜转运的方式在植物体内进行运输。氨基酸转运子是位于生物膜上吸收及转运氨基酸的蛋白家族,对植物氮素营养具有重要贡献。本文对植物氨基酸转运子的表达、调控及其与氮素利用效率、植物产量与品质形成、抗逆性及适应性等方面的研究进展进行了综述。     

Relationships between bacterial drug resistance pumps and other transport proteins

We have used three reference sequences representative of bacterial drug resistance pumps and sugar transport proteins to collect the 91 most closely related sequences from a composite, nonredundant protein sequence database. Having eliminated certain very close relatives, the remainder were subjected to analysis and alignment by using two different similarity matrices: one of these was a matrix based on structural conservation of amino acid residues in proteins of known conformation and the other was based on the more familiar mutational matrix. Unrooted similarity trees for these proteins were constructed for each matrix and compared. A systematic analysis of the differences between these trees was undertaken and the sequences were analyzed for the presence or absence of certain sequence motifs. The results show that the clades created by the two methods are broadly comparable but that there are some clusters of sequences that are significantly different. Further analysis confirmed that (1) the sequences collected by this objective method are all known or putative 12-helix (in some cases reported as 14-helix) transmembrane proteins, (2) there is evidence for few cases of an origin based on gene duplication, (3) the bacterial drug resistance pumps are distributed in more than one clade and cannot be regarded as a definitive subset of these proteins, and that (4) the diversity is such that there is no evidence of a single ancestral protein. The possible extension of the methods to other cases of divergent protein sequences is discussed.     

Effect of transmembrane Ca2+ gradient on the coupling of β-adrenergic receptors and adenylyl cyclase

In order to investigate the effect of transmembrane Ca²⁺ gradient on G_s mediated coupling of -AR and adenylyl cyclase, -AR from duck erythrocytes and G_s and adenylyl cyclase from bovine brain cortices were co-reconstituted into asolectin liposomes with different transmembrane Ca²⁺ gradient. These proteoliposomes were proven to be impermeable to water-soluble substances. The results obtained indicate that a physiological transmembrane Ca^2– gradient (1000-fold) is essential for higher stimulation of adenylyl cyclase by hormone-activated -AR via coupling to G_s and can be further enhanced by the decrease of such Ca²⁺ gradient within certain range (100 fold) following Ca²⁺ influx into cells during signal transduction. Fluorescence polarization of DPH revealed that transmembrane Ca²⁺ gradient modulates adenylyl cyclase and its stimulation by hormones through mediating a change in lipid fluidity. Correspondent conformational changes of -AR were also detected from the fluorescence spectra and quenching of Acrylodan-labelled -AR in those proteoliposomes. It is suggested that a proper transmembrane Ca²⁺ gradient is essential for the optimal fluidity of the phospholipid bilayer in the proteoliposomes, which favors the formation of a suitable conformation of the reconstituted -AR and thus promotes the stimulation of adenylyl cyclase activities by hormone-activated -AR via Gs.Abbreviations ATP adenosine triphosphate - -AR -adrenergic receptors - AC adenylyl cyclase - DHA dihydroalprenolol - DPH diphenylhexatriene - [Ca²⁺]_i Ca²⁺ concentration inside proteoliposomes - [Ca²⁺]_o Ca²⁺ concentration outside proteoliposomes - cAMP cyclic adenosine monophosphate - DTT Dithiothreitol - FS fluorescein sulfonate - G_s Stimulatory GTP-binding protein - GTP guanosine triphosphate - GTPS guanosine 5-O-(3-thiotriphosphate) - kDa kilodalton - SDS sodium dodecyl sulfate - Tris N-tris(hydroxymethyl)aminomethane     

A large open reading frame ( orf1995 ) in the chloroplast DNA of Chlamydomonas reinhardtii encodes an essential protein

An open reading frame potentially encoding a protein of 1995 amino acids (orf1995) has been found in the chloroplast genome of the green alga Chlamydomonas reinhardtii. Besides having a short hydrophobic N-terminal domain with five putative transmembrane helices, the predicted orf1995 product is highly basic. orf1995 might be a homologue of the ycf1 gene in land plants, whose function has not yet been determined. Mutants of C. reinhardtii transformed with a disruption of orf1995 remain heteroplasmic for the wild-type and disrupted alleles of this gene, indicating that the orf1995 product is essential for cell survival. Received: 18 August 1996 / Accepted: 24 September 1996     

Contents to volume 178

UV CD and IR spectra of the water-soluble bacteriochlorophyll-protein antenna isolated from Prosthecochloris aestuarii indicate that about 50% of the protein is in a β-sheet conformation while for the dominant antenna complexes isolated from bacteria (B800-850) and from green plants (LHC), the α-helix (45%) is more abundant than the β-sheet (~ 10%) conformation. Furthermore, IR dichroism studies show that the α-helical segments of a large variety of intrinsic membrane Chl-protein complexes (antenna and reaction centers) are tilted on the average at 30–35° away from the membrane normal. The observation that in these complexes the Chl planes are also tilted at about the same angle suggests that the transmembrane orientation of the α-helices determines the positioning of the Chl molecules in photosynthetic membranes.     

Simultaneous stimulation of uric acid synthesis and gluconeogenesis in chicken hepatocytes by alpha-adrenergic action of epinephrine and calcium

Formation of a transmembrane electric potential coupled to ATP hydrolysis is demonstrated in chloroplast ATPase complex containing proteoliposomes. The ATP-induced signals were detected through absorbance changes of the membrane potential-responding dye oxonol VI. They were inhibited by the specific energy-transfer inhibitor, tentoxin and the ionophore valinomycin while stimulated by nigericin. Calibration of the transmembrane potential signal was possible by the application of a proton diffusion potential. The ATP-induced transmembrane potential was estimated to be 40–50 mV.