An integral glycoprotein associated with the membrane attachment sites of actin microfilaments.

An integral membrane protein associated with sites of microfilament-membrane attachment has been identified by a newly developed IgG1 monoclonal antibody. This antibody, MAb 30B6, was derived from hybridoma fusion experiments using intact mitotic cells of chick embryo fibroblasts as the immunization vehicle as well as the screening probe for cell surface antigens. In immunofluorescent experiments with fixed cells, MAb 30B6 surface labeling is uniquely correlated with microfilament distributions in the cleavage furrow region of dividing chick embryo fibroblasts and cardiac myocytes in culture. The MAb 30B6 antigen in addition is associated with microfilament-membrane attachment sites in interphase fibroblasts at the dorsal surface, the adhesion plaque region at the ventral surface, and at junction-like regions of cell-cell contact. It is also found co-localized with the membrane-dense plaques of smooth muscle. The MAb 30B6 antigen is expressed in a wide number of chicken cell types (particularly smooth muscle cells, platelets, and endothelial cells), but not in erythrocytes. Some of the molecular characteristics of the MAb 30B6 antigen have been determined from immunoblotting, immunoaffinity chromatography, immunoprecipitation, cell extraction, and charge shift electrophoresis experiments. It is an integral sialoglycoprotein with an apparent molecular mass of 130 kD (reduced form)/107 kD (nonreduced form) in SDS PAGE. Another prominent glycoprotein species with an apparent molecular mass of 175 kD (reduced form)/165 kD (nonreduced form) in SDS PAGE is co-isolated on MAb 30B6 affinity columns, but appears to be antigenically distinct since it is not recognized by MAb 30B6 in immunoblotting or immunoprecipitation experiments. By virtue of its surface distributions relative to actin microfilaments and its integral protein character, we propose that the MAb 30B6 antigen is an excellent candidate for the function of directly or indirectly anchoring microfilaments to the membrane.

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Characterization of Biosynthetic Enzymes for Ectoine as a Compatible Solute in a Moderately Halophilic Eubacterium, Halomonas elongata

Journal of Bacteriology ◽

10.1128/jb.181.1.91-99.1999 ◽

1999 ◽

Vol 181 (1) ◽

pp. 91-99 ◽

Cited By ~ 111

Author(s):

Hisayo Ono ◽

Kazuhisa Sawada ◽

Nonpanga Khunajakr ◽

Tao Tao ◽

Mihoko Yamamoto ◽

...

Keyword(s):

Molecular Mass ◽

Polyacrylamide Gel Electrophoresis ◽

Sodium Dodecyl ◽

Gel Filtration ◽

Apparent Molecular Mass ◽

Optimum Temperature ◽

Sds Page ◽

Halomonas Elongata ◽

Optimum Ph

ABSTRACT 1,4,5,6-Tetrahydro-2-methyl-4-pyrimidinecarboxylic acid (ectoine) is an excellent osmoprotectant. The biosynthetic pathway of ectoine from aspartic β-semialdehyde (ASA), in Halomonas elongata, was elucidated by purification and characterization of each enzyme involved. 2,4-Diaminobutyrate (DABA) aminotransferase catalyzed reversively the first step of the pathway, conversion of ASA to DABA by transamination with l-glutamate. This enzyme required pyridoxal 5′-phosphate and potassium ions for its activity and stability. The gel filtration estimated an apparent molecular mass of 260 kDa, whereas molecular mass measured by sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE) was 44 kDa. This enzyme exhibited an optimum pH of 8.6 and an optimum temperature of 25°C and had Km s of 9.1 mM forl-glutamate and 4.5 mM for dl-ASA. DABA acetyltransferase catalyzed acetylation of DABA to γ-N-acetyl-α,γ-diaminobutyric acid (ADABA) with acetyl coenzyme A and exhibited an optimum pH of 8.2 and an optimum temperature of 20°C in the presence of 0.4 M NaCl. The molecular mass was 45 kDa by gel filtration. Ectoine synthase catalyzed circularization of ADABA to ectoine and exhibited an optimum pH of 8.5 to 9.0 and an optimum temperature of 15°C in the presence of 0.5 M NaCl. This enzyme had an apparent molecular mass of 19 kDa by SDS-PAGE and a Km of 8.4 mM in the presence of 0.77 M NaCl. DABA acetyltransferase and ectoine synthase were stabilized in the presence of NaCl (>2 M) and DABA (100 mM) at temperatures below 30°C.

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Identification of the glucose transporter in mammalian cell membranes with a125I-forskolin photoaffinity label

Biochemical Journal ◽

10.1042/bj2550983 ◽

1988 ◽

Vol 255 (3) ◽

pp. 983-990 ◽

Cited By ~ 9

Author(s):

B E Wadzinski ◽

M F Shanahan ◽

R B Clark ◽

A E Ruoho

Keyword(s):

Smooth Muscle ◽

Molecular Mass ◽

Mammalian Cell ◽

Cell Membranes ◽

Plasma Membranes ◽

Glucose Transporter ◽

Apparent Molecular Mass ◽

Synaptic Membranes ◽

Placental Membranes ◽

Adipocyte Plasma Membranes

The glucose transporter has been identified in a variety of mammalian cell membranes using a photoactivatable carrier-free radioiodinated derivative of forskolin, 3-[125I]iodo-4-azidophenethylamido-7-O-succinyldeacetylforskoli n ([125I]IAPS-forskolin) at 1-3 nM. The membranes that were photolabelled with [125I]IAPS-forskolin were human placental membranes, rat cortical and cerebellar synaptic membranes, rat cardiac sarcolemmal membranes, rat adipocyte plasma membranes, smooth-muscle membranes, and S49 wild-type (WT) lymphoma-cell membranes. The glucose transporter in plasma membranes prepared from the insulin-responsive rat cardiac sarcolemmal cells, rat adipocytes and smooth-muscle cells were determined to be approx. 45 kDa by SDS/polyacrylamide-gel electrophoresis (PAGE). Photolysis of human placental membranes, rat cortical and cerebellar synaptic membranes, and WT lymphoma membranes with [125I]-IAPS-forskolin, followed by SDS/PAGE, indicated specific derivatization of a broad band (43-55 kDa) in placental membranes and a narrower band (approx. 45 kDa) in synaptic membranes and WT lymphoma membranes. Digestion of the [125I]IAPS-forskolin-labelled placental and WT lymphoma membranes with endo-beta-galactosidase showed a reduction in the apparent molecular mass of the radiolabelled band to approx. 40 kDa. The membranes that were photolabelled with [125I]IAPS-forskolin and trypsin-treated produced a radiolabelled proteolytic fragment with an apparent molecular mass of 18 kDa. [125I]IAPS-forskolin is a highly effective probe for identifying low levels of glucose transporters in mammalian tissues.

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Identification of a human gastric mucin precursor: N-linked glycosylation and oligomerization

Biochemical Journal ◽

10.1042/bj3040693 ◽

1994 ◽

Vol 304 (3) ◽

pp. 693-698 ◽

Cited By ~ 14

Author(s):

L W J Klomp ◽

L van Rens ◽

G J Strous

Keyword(s):

Molecular Mass ◽

Mechanical Damage ◽

Polyclonal Antiserum ◽

High Molecular Mass ◽

Apparent Molecular Mass ◽

Gastric Mucin ◽

Gastric Mucus ◽

Apical Side ◽

Sds Page ◽

Glycosylation Inhibitor

Gastric mucin plays an important role in the protection of the stomach wall from chemical, microbiological and mechanical damage. We have previously isolated human gastric mucus glycoproteins and raised a polyclonal antiserum against these macromolecules. This antiserum specifically reacted with gastric mucins in immunoblotting experiments and stained mucous granules at the apical side of gastric surface epithelial cells. A similar staining pattern was obtained after incubation with an antiserum against rat gastric mucin. Next we used the antiserum in pulse-chase experiments of human stomach tissue explants. After short labelling periods with [35S]methionine and [35S]cysteine, the antiserum reacted with a polypeptide with an apparent molecular mass of approx. 500 kDa as determined by SDS/PAGE, which was converted after 90 min into a heterogeneous high-molecular-mass glycoprotein. This high-molecular-mass form, but not the 500 kDa polypeptide, was detectable in the culture medium after 2 h. This strongly suggests that the 500 kDa polypeptide is the precursor of the purified gastric mucin. Analysis of pulse-chase experiments by non-reducing SDS/PAGE revealed that the precursors form disulphide-linked oligomers early in biosynthesis, before the addition of O-linked sugars. After preincubation with the N-glycosylation inhibitor, tunicamycin, the apparent molecular mass of the precursor decreased marginally but consistently, indicating that N-linked glycan chains are present on the mucin precursor.

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A plasma membrane integral sialoglycoprotein (Sgp 130) molecularly distinguishes nonjunctional dense plaque sites of microfilament attachment.

The Journal of Cell Biology ◽

10.1083/jcb.105.2.819 ◽

1987 ◽

Vol 105 (2) ◽

pp. 819-831 ◽

Cited By ~ 4

Author(s):

A A Rogalski

Keyword(s):

Smooth Muscle ◽

Plasma Membrane ◽

Cardiac Muscle ◽

Cultured Cells ◽

Molecular Forms ◽

Cell Coupling ◽

Membrane Structures ◽

Adult Chicken ◽

Attachment Sites ◽

Membrane Attachment

An integral sialoglycoprotein with Mr approximately 130,000 (Sgp 130) and highest expression in adult chicken gizzard smooth muscle has been recently identified as an excellent candidate for classification as a plasma membrane protein natively associated (directly or indirectly) with actin microfilaments (Rogalski, A.A., and S.J. Singer, 1985, J. Cell Biol., 101:785-801). In this study, the relative in situ distributions of the Sgp 130 integral species (a designation that also includes non-smooth muscle molecular forms) and the peripheral protein, vinculin, have been simultaneously revealed for the first time in selected cultured cells and tissues abundant in microfilament-membrane attachment sites, particularly, smooth and cardiac muscle. Specific antibody probes against Sgp 130 (mouse mAb 30B6) and vinculin (affinity-purified rabbit antibody) were used in double indirect immunofluorescent and immunoelectron microscopic experiments. In contrast to the widespread distributions of vinculin at microfilament-membrane attachment sites, Sgp 130 has been shown to exhibit striking site-specific variation in its abundancy levels in the plasma membrane. Sgp 130 and vinculin were found coincidentally concentrated at focal contact sites in cultured chick embryo fibroblasts and endothelial cells, membrane dense plaques of smooth muscle, and sarcolemma dense plaque sites overlying the Z line in cardiac muscle. However, at the fascia adherens junctional sites of cardiac muscle where vinculin is sharply confined, Sgp 130 was immunologically undetectable in both intact and EGTA-uncoupled tissue. This latter result was confirmed with immunoblotting experiments using isolated forms of the fascia adherens. The double immunolabeling studies of this report establish Sgp 130 as a major integral protein component of nonjunctional membrane dense plaque structures and raise the possibility that the 130-kD integral sialoglycoprotein (Sgp 130) and vinculin assume stable transmembrane associations at these particular microfilament-membrane attachment sites. Nonjunctional dense plaques are further suggested to be a molecularly distinct class of plasma membrane structures rather than a subgroup of adherens junctions. Our data also support a hypothesis that Sgp 130 is involved in plasma membrane force coupling events but not in junctional-related cell-cell coupling.

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Rutin synthase in fava d’anta: purification and influence of stressors

Canadian Journal of Plant Science ◽

10.4141/cjps09001 ◽

2009 ◽

Vol 89 (5) ◽

pp. 895-902 ◽

Cited By ~ 17

Author(s):

N Lucci ◽

P Mazzafera

Keyword(s):

Mass Spectrometry ◽

Molecular Mass ◽

Reaction Temperature ◽

Enzyme Activities ◽

Apparent Molecular Mass ◽

Mass Spectrometry Analysis ◽

Spectrometry Analysis ◽

Intermediary Metabolite ◽

Sds Page ◽

Optimum Reaction

The flavonoid rutin is synthesized in plants from quercetin, via a process in which isoquercitrin is an intermediary metabolite. In this work, the activities of isoquercitrin synthase and rutin synthase, and the quercetin, isoquercitrin and rutin contents of fava d’anta plants stressed for water (drought and flooding) and salt (NaCl) were studied. In general, stress increased the contents of the three compounds and both enzyme activities. Semi-purified rutin synthase and isoquercitrin synthase showed Km values of 1.816 and 2.10 µM, respectively, with optimum reaction pHs of 5 and 7, respectively, and an optimum reaction temperature of 35°C. Rutin synthase was purified from leaf buds and showed an apparent molecular mass of 39 KDa by SDS-PAGE. Mass spectrometry analysis of the purified protein did not reveal any similarity to the few known sequenced glycosyltransferases.Key words: Dimorphandra mollis, faveiro, flavonoid, isoquercitrin, quercetin.

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Further characterization of the acid-soluble phosphoprotein (SDS/PAGE apparent molecular mass of 22 kDa) in rat fat-cells by peptide sequencing and immuno-analysis: effects of insulin and isoprenaline

Biochemical Journal ◽

10.1042/bj3060135 ◽

1995 ◽

Vol 306 (1) ◽

pp. 135-139 ◽

Cited By ~ 13

Author(s):

T A Diggle ◽

G B Bloomberg ◽

R M Denton

Keyword(s):

Adipose Tissue ◽

Molecular Mass ◽

Peptide Sequencing ◽

Apparent Molecular Mass ◽

Epididymal Adipose Tissue ◽

Fat Cells ◽

Western Blots ◽

Antibody Preparation ◽

Brown Adipose ◽

Sds Page

1. Earlier studies have shown that exposure of fat-cells to insulin results in the rapid increased phosphorylation of an acid-soluble protein which migrates as a doublet on SDS/PAGE with an apparent molecular mass of close to 22 kDa; agents such as isoprenaline, which increase cell concentrations of cyclic AMP, also increase phosphorylation, but to a lesser extent [Belsham, Brownsey, Hughes and Denton (1980) Diabetologia 18, 307-312; Diggle and Denton (1992) Biochem. J. 282, 729-736]. 2. The protein has been purified from rat epididymal adipose tissue, and the sequences of six tryptic peptides were determined. All six peptides are present in the deduced sequence of a protein of similar properties, designated PHAS-I by Hu, Pang, Kong, Velleca and Lawrence [(1994) Proc. Natl. Acad. Sci. U.S.A. 91, 3730-3734]. Hence the proteins are the same or extremely similar. 3. A rabbit anti-peptide antibody has been raised against one of the peptides (AGGDESQFEMD). The antibody was found to be highly specific for the phosphorylated and non-phosphorylated forms of the acid-soluble 22 kDa protein in Western blots and by immunoprecipitation. Studies with the antibody preparation have shown that both phosphorylated and non-phosphorylated forms of the protein appear to be exclusively located in the cytoplasm, and that exposure of cells to isoprenaline causes increased phosphorylation of the same acid-soluble 22 kDa protein as does insulin treatment. 4. Western blots carried out with the antibody preparation indicate that the protein is also present in other insulin-sensitive tissues, including liver, skeletal muscle, heart and brown adipose tissue. The protein was also detected in lung and spleen, but not brain and kidney. It is concluded that the protein may play an important role in some of the actions of insulin.

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Natural human interferon-α2 is O-glycosylated

Biochemical Journal ◽

10.1042/bj2760511 ◽

1991 ◽

Vol 276 (2) ◽

pp. 511-518 ◽

Cited By ~ 58

Author(s):

G R Adolf ◽

I Kalsner ◽

H Ahorn ◽

I Maurer-Fogy ◽

K Cantell

Keyword(s):

Sequence Analysis ◽

Molecular Mass ◽

Specific Activity ◽

Apparent Molecular Mass ◽

Human Interferon ◽

Reverse Phase ◽

Acetylneuraminic Acid ◽

Ifn Alpha ◽

Sds Page ◽

Alkaline Conditions

Natural human interferon alpha 2 (IFN-alpha 2) was isolated from a preparation of partially purified human leucocyte IFN by monoclonal-antibody immunoaffinity chromatography. The purified protein had a specific activity of 1.5 x 10(8) i.u./mg; it was estimated to constitute 10-20% of the total antiviral activity of leucocyte IFN. N-Terminal amino-acid-sequence analysis identified the subspecies IFN-alpha 2b and/or IFN-alpha 2c, whereas IFN-alpha 2a was not detectable. The structure of natural IFN-alpha 2 was found to differ from that of its recombinant (Escherichia coli-derived) equivalent. First, reverse-phase h.p.l.c. showed that natural IFN-alpha 2 was significantly more hydrophilic then expected. Secondly, the apparent molecular mass of the natural protein determined by SDS/PAGE was higher than that of recombinant IFN-alpha 2; incubation under mild alkaline conditions known to eliminate O-linked carbohydrates resulted in a reduction of the apparent molecular mass to that of the recombinant protein. On sequence analysis of proteolytic peptides, Thr-106 was found to be modified. These results suggested that Thr-106 of natural IFN-alpha 2 carries O-linked carbohydrates. Reverse-phase h.p.l.c. as well as SDS/PAGE of natural IFN-alpha 2 showed that glycosylation is heterogeneous. For characterization of the carbohydrate moieties, the protein was treated with neuraminidase and/or O-glycanase and analysed by gel electrophoresis; in addition, glycopeptides obtained by proteinase digestion and separated by h.p.l.c. were characterized by sequence analysis and m.s. Further information on the composition of the glycans was obtained by monosaccharide analysis. The results indicate that natural IFN-alpha 2 contains the disaccharide galactosyl-N-acetylgalactosamine (Gal-GalNAc) linked to Thr-106. In part of the molecules, this core carbohydrate carries (alpha-)N-acetylneuraminic acid, whereas a disaccharide, probably N-acetyl-lactosamine, is bound to Gal-GalNAc in another proportion of the protein. Further glycosylation isomers are present in small amounts. As IFN-alpha 2 is the only IFN-alpha species with a threonine residue at position 106, it may represent the only O-glycosylated human IFN-alpha protein.

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Expression of the glycosylphosphatidylinositol-linked complement-inhibiting protein CD59 antigen in insect cells using a baculovirus vector

Biochemical Journal ◽

10.1042/bj2950889 ◽

1993 ◽

Vol 295 (3) ◽

pp. 889-896 ◽

Cited By ~ 24

Author(s):

A Davies ◽

B P Morgan

Keyword(s):

Molecular Mass ◽

Culture Medium ◽

Insect Cells ◽

Apparent Molecular Mass ◽

Protein Sequencing ◽

Leader Peptide ◽

Peptide Cleavage ◽

Baculovirus Vector ◽

Sds Page ◽

Complement Lysis

CD59 antigen (CD59) is a glycosylphosphatidylinositol (GPI)-linked membrane glycoprotein which protects human cells from complement-mediated lysis. Here we report the expression of functionally active CD59 in Spodoptera frugiperda insect cells using a baculovirus vector. Recombinant CD59 was expressed abundantly on the surface of the insect cells and protected the cells from lysis by human complement. The protein was released from the cell surface by treatment with phosphatidylinositol-specific phospholipase C, indicating that it was attached to the insect cell membrane via a GPI anchor. The cells also secreted CD59 into the culture medium. Recombinant CD59 was affinity-purified from spent culture medium and from detergent extract of transfected cells. Protein purified from both sources produced multiple bands on SDS/PAGE, all of a lower apparent molecular mass than the human erythrocyte protein. However, N-terminal protein sequencing and deglycosylation studies confirmed that signals for leader peptide cleavage and N-linked glycosylation had been recognized in the insect cells, suggesting that the differences in apparent molecular mass between the native and recombinant proteins were attributable to the extent of glycosylation. Protein derived from both sources was, in part, GPI-anchored as demonstrated by phase-partition studies and incorporation into cells membranes. Incorporated recombinant protein rendered erythrocytes resistant to complement lysis.

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Cloning, expression and characterization of YSA1H, a human adenosine 5′-diphosphosugar pyrophosphatase possessing a MutT motif

Biochemical Journal ◽

10.1042/bj3440331 ◽

1999 ◽

Vol 344 (2) ◽

pp. 331-337 ◽

Cited By ~ 16

Author(s):

Lakhdar GASMI ◽

Jared L. CARTWRIGHT ◽

Alexander G. MCLENNAN

Keyword(s):

Fusion Protein ◽

Molecular Mass ◽

Gel Filtration ◽

Immunoblot Analysis ◽

Apparent Molecular Mass ◽

Protein Glycation ◽

Human Homologue ◽

Protein Fragment ◽

Sds Page

The human homologue of the Saccharomyces cerevisiae YSA1 protein, YSA1H, has been expressed as a thioredoxin fusion protein in Escherichia coli. It is an ADP-sugar pyrophosphatase with similar activities towards ADP-ribose and ADP-mannose. Its activities with ADP-glucose and diadenosine diphosphate were 56% and 20% of that with ADP-ribose respectively, whereas its activity towards other nucleoside 5′-diphosphosugars was typically 2-10%. cADP-ribose was not a substrate. The products of ADP-ribose hydrolysis were AMP and ribose 5-phosphate. Km and kcat values with ADP-ribose were 60 μM and 5.5 s-1 respectively. The optimal activity was at alkaline pH (7.4-9.0) with 2.5-5 mM Mg2+ or 100-250 μM Mn2+ ions; fluoride was inhibitory, with an IC50 of 20 μM. The YSA1H gene, which maps to 10p13-p14, is widely expressed in all human tissues examined, giving a 1.4 kb transcript. The 41.6 kDa fusion protein behaved as an 85 kDa dimer on gel filtration. After cleavage with enterokinase, the 24.4 kDa native protein fragment ran on SDS/PAGE with an apparent molecular mass of 33 kDa. Immunoblot analysis with a polyclonal antibody raised against the recombinant YSA1H revealed the presence of a protein of apparent molecular mass 33 kDa in various human cells, including erythrocytes. The sequence of YSA1H contains a MutT sequence signature motif. A major proposed function of the MutT motif proteins is to eliminate toxic nucleotide metabolites from the cell. Hence the function of YSA1H might be to remove free ADP-ribose arising from NAD+ and protein-bound poly- and mono-(ADP-ribose) turnover to prevent the occurrence of non-enzymic protein glycation.

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The Cell Wall of the Pathogenic Bacterium Rhodococcus equi Contains Two Channel-Forming Proteins with Different Properties

Journal of Bacteriology ◽

10.1128/jb.185.9.2952-2960.2003 ◽

2003 ◽

Vol 185 (9) ◽

pp. 2952-2960 ◽

Cited By ~ 19

Author(s):

Franziska G. Rieβ ◽

Marion Elflein ◽

Michael Benk ◽

Bettina Schiffler ◽

Roland Benz ◽

...

Keyword(s):

Cell Wall ◽

Molecular Mass ◽

Single Channel ◽

Sodium Dodecyl ◽

Rhodococcus Equi ◽

Apparent Molecular Mass ◽

Channel Conductance ◽

Single Channel Conductance ◽

Voltage Gated ◽

Sds Page

ABSTRACT We have identified in organic solvent extracts of whole cells of the gram-positive pathogen Rhodococcus equi two channel-forming proteins with different and complementary properties. The isolated proteins were able to increase the specific conductance of artificial lipid bilayer membranes made from phosphatidylcholine-phosphatidylserine mixtures by the formation of channels able to be permeated by ions. The channel-forming protein PorAReq (R. equi pore A) is characterized by the formation of cation-selective channels, which are voltage gated. PorAReq has a single-channel conductance of 4 nS in 1 M KCl and shows high permeability for positively charged solutes because of the presence of negative point charges. According to the results of sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), the protein has an apparent molecular mass of about 67 kDa. The analysis (using the effect of negative charges on channel conductance) of the concentration dependence of the single-channel conductance suggested that the diameter of the cell wall channel is about 2.0 nm. The second channel (formed by PorBReq [R. equi pore B]) shows a preferred movement of anions through the channel and is not voltage gated. This channel shows a single-channel conductance of 300 pS in 1 M KCl and is characterized by the presence of positive point charges in or near the channel mouth. Based on SDS-PAGE, the apparent molecular mass of the channel-forming protein is about 11 kDa. Channel-forming properties of the investigated cell wall porins were compared with those of others isolated from mycolic acid-containing actinomycetes. We present here the first report of a fully characterized anion-selective cell wall channel from a member of the order Actinomycetales.

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