Identification of Tetrahymena Ciliary Surface Proteins Labeled with Sulfosuccinimidyl 6-(Biotinamido) Hexanoate and Concanavalin A and Fractionated with Triton X-114

ABSTRACT. Tetrahymena thermophila cells were labeled with sulfosuccinimidyl 6-(biotinamido) hexanoate, a sensitive nonradioactive probe for cell surface proteins, and Western blots of axonemes and ciliary membrane vesicles were compared to cilia fractionated with Triton X-114 (TX-114) in order to study the orientation of ciliary membrane proteins. Greater than 40 ciliary surface polypeptides, from >350 kDa to <20 kDa, were resolved. The major surface 50–60 kDa proteins are hydrophobic and partition into the TX-114 detergent phase. Two high molecular weight proteins, one of which is biotinylated, comigrate with the heavy chains of ciliary dynein, sediment at 14S in a sucrose gradient, and partition into the TX-114 aqueous phase. Fractions containing these high molecular weight proteins as well as fractions enriched in 88-kDa and 66-kDa polypeptides contain Mg²⁺-ATPase activities. Detergent-solubilized tubulins partition into the TX-114 aqueous phase, are not biotinylated, and must not be exposed to the ciliary surface. The detergent-insoluble axoneme and membrane fraction contains a 36-kDa polypeptide and a portion of the 50-kDa polypeptides that otherwise partition into the detergent phase. These polypeptides could not be solubilized by ATP or by NaCl extraction and appear to be associated with pieces of ciliary membrane tightly linked to the axoneme. The ciliary membrane polypeptides were also tested for Concanavalin A binding and at least sixteen Con A-binding polypeptides were resolved. Of the major Con A-binding polypeptides, three are hydrophobic and partition into the TX-114 detergent phase, three partition into the TX-114 aqueous phase, and four partition exclusively in the detergent-insoluble fraction, which contains axonemes and detergent-resistant membrane vesicles.     

Immunological characterization of the Prochlorothrix hollandica and Prochloron sp. chlorophyll a/b antenna proteins

Polyclonal antibodies were prepared against the major antenna chlorophyll (Chl) a/b-binding protein from the prokaryote Prochlorothrix hollandica (Burger-Wiersma et al. (1986) Nature (Lond.) 320, 262-264). Immunoblotting experiments on Triton X-114 phase-partitioned P. hollandica thylakoids revealed that the antibody recognizes intrinsic membrane polypeptides of 33 and 30 kDa, and immunocytochemistry of P. hollandica thin sections showed that the antibody preferentially decorates the thylakoid. The antibody was immunopurified against a LacZ fusion protein produced in Escherichia coli by an immunopositive phage clone retrieved from a lambda ZAP expression library. This purified antibody crossreacted to both the 33 and 30 kDa polypeptides, indicating that these proteins are either structurally related products of different genes, or modified forms of the same gene product. Whereas immunological crossreactivity of Prochlorothrix antibody to the major LHC-II Chl a/b antenna of maize could not be detected, the immunopurified antibody reacted strongly to the major 34 kDa Chl a/b antenna protein from the prokaryote Prochloron sp. (Lewin (1975) Phycologia 14, 153-160). These data confirm the structural similarity of the prochlorophyte photosynthetic antenna systems.     

Characterization of the peridinin-chlorophyll a-protein complex in the dinoflagellate Symbiodinium

The water-soluble peridinin-chlorophyll a-proteins (PCPs) are one of the major light harvesting complexes in photosynthetic dinoflagellates. PCP contains the carotenoid peridinin as its primary pigment. In this study, we identified and characterized the PCP protein and the PCP gene organization in Symbiodinium sp. CS-156. The protein molecular mass is 32.7kDa, revealing that the PCP is of the monomeric form. The intronless PCP genes are organized in tandem arrays. The PCP gene cassette is composed of 1095-bp coding regions and spacers in between. Despite the heterogeneity of PCP gene tandem repeats, we identified a single form of PCP, the sequence of which exactly matches the deduced sequence of PCP gene clone 7 (JQ395030) by LC-MS/MS analysis of tryptic digested PCP, revealing the mature PCP apoprotein is 312 amino acids in length. Pigment analysis showed a peridinin-to-Chl a ratio of 4. The peridinin-to-Chl a Q(y) energy transfer efficiency is 95% in this complex.     

Solubilisation of methane monooxygenase from Methylococcus capsulatus (Bath)

The membrane-bound (particulate) form of methane monooxygenase from Methylococcus capsulatus (Bath) has been solubilised using the non-ionic detergent dodecyl-beta-D-maltoside. A wide variety of detergents were tested and found to solubilise membrane proteins but did not yield methane monooxygenase in a form that could be subsequently activated. After solubilisation with dodecyl-beta-D-maltoside, enzyme activity was recovered using either egg or soya-bean lipids. Attempts to further purify the solubilized methane monooxygenaser protein into its component polypeptides were unsuccessful and resulted in complete loss of enzyme activity. The major polypeptides present in the solubilised enzyme had molecular masses of 49 kDa, 23 kDa and 22 kDa which were similar to those seen in crude extracts [Prior, S. D. & Dalton H. (1985) J. Gen. Microbiol. 131, 155-163]. Studies on substrate and inhibitor specificities indicated that the membrane-associated and solubilised forms of methane monooxygenase were quite similar to each other but differed substantially from the well-characterised soluble methane monooxygenase found in cells grown in a low copper regime and synthesised independently of the particulate methane monooxygenase.     

Differential proteomic analysis of Aeromonas salmonicida outer membrane proteins in response to low iron and in vivo growth conditions

Aeromonas salmonicida subsp. salmonicida is the etiological agent of furunculosis, a serious infectious disease of salmonids. Bacterial phenotypes are known to change in vivo compared to the in vitro state. Proteomic analysis of in vivo phenotypes is usually not possible due to insufficient biomass. Using an in vivo growth chamber model, the pathogenic fish bacterium A. salmonicida was cultured in pure culture in vivo in its host, the Atlantic salmon, to obtain sufficient biomass to allow proteomic analysis. Growth of A. salmonicida under in vitro iron-restricted conditions resulted in the expression of outer membrane proteins of 73, 76 and 85 kDa, which were not present when grown under in vitro iron-replete conditions. Mass spectrometry analysis identified the 73 kDa protein as a colicin receptor, the 76 kDa protein as an outer membrane heme receptor, and the 85 kDa protein as a ferric siderophore receptor. When cultured in vivo, A. salmonicida up-regulated the identical 73, 76 and 85 kDa proteins. The results of this study also suggest, at least with respect to the outer membrane proteins, that the in vitro iron-restricted growth model largely reproduces the results obtained from growth of A. salmonicida within the peritoneal cavity of salmon.     

Characterization of excretory-secretory proteins synthesized in vitro by Schistosoma mansoni primary sporocysts

Excretory-secretory (E-S) products released by larval schistosomes have been implicated in the interference of host snail defense systems. Because of the potentially important role that E-S products play in the parasite-host relationship, total and newly synthesized E-S proteins from in vitro-cultured Schistosoma mansoni primary sporocysts were characterized using incorporation of [35S]methionine followed by sodium dodecylsulfate polyacrylamide gel electrophoresis (SDS-PAGE) and fluorography. Total E-S protein decreased more than 5-fold from day 1 to day 3 of culture and remained constant until day 8 when protein concentrations began to increase. Release of newly synthesized protein, however, increased from day 1 through day 8. Both silver staining and fluorography of SDS-PAGE-separated E-S products revealed a wide variety of polypeptides ranging in Mr from 13 to greater than 200 kDa. The dynamics of the release of individual polypeptides, both total and newly synthesized, varied over time. Although certain polypeptides decreased in concentration, others remained constant or increased with time in culture. Culture conditions were found to be important for sporocyst viability and growth, and for release of newly synthesized proteins. Sporocysts cultured in medium containing fetal bovine serum (complete) grew significantly larger and had a significantly greater viability than did sporocysts cultured in medium lacking serum (incomplete). Also, sporocysts cultured in complete medium synthesized and released significantly more protein than did sporocysts cultured in incomplete medium. These sporocysts continued to produce a 54-kDa polypeptide, whereas sporocysts in incomplete medium stopped producing this protein by day 3 of culture. The present study has shown that S. mansoni primary sporocysts, cultured in vitro, synthesize and secrete a wide variety of glycoproteins and that the type and quantity of glycoproteins released are dependent on culture conditions.     

Immunological evidence for accumulation of two high-molecular-weight (104 and 90 kDa) HSPs in response to different stresses in rice and in response to high temperature stress in diverse plant genera

Rice seedlings accumulate stainable amounts of the 104 and 90 kDa polypeptides in response to high temperature stress. We have purified and raised highly specific polyclonal antisera against both of these polypeptides. In western blotting experiments, we find that these proteins are accumulated to different extents in rice seedlings subjected to salinity (NaCl), water stress, low-temperature stress and exogenous abscisic acid application. These proteins also accumulated when rice seedlings grown in pots under natural conditions were subjected to water stress by withholding watering. Seedlings of Triticum aestivum, Sorghum bicolor, Pisum sativum, Zea mays, Brassica juncea and mycelium of Neurospora crassa showed accumulation of the immunological homologues of both the 104 and the 90 kDa polypeptides, in response to high-temperature stress. We have earlier shown that shoots of rice seedlings exposed to heat shock accumulate a 110 kDa polypeptide which is an immunological homologue of the yeast HSP 104 (Singla and Grover, Plant Mol Biol 22: 1177–1180, 1993). Employing anti-rice HSP 104 antibodies and anti-yeast HSP 104 antibodies together, we provide evidence that rice HSP 104 is different from the earlier characterized rice HSP 110.     

Impact of iron deficiency and iron re-supply during the early stages of vegetative development in maize (Zea mays L.)

The consequences of iron deficiency and iron re-supply were evaluated during the early stages of growth and development of young maize plantlets grown hydroponically in the absence of iron. Various parameters, such as fresh and dry weights, and the concentration of chlorophylls, iron, copper, manganese, calcium, magnesium and potassium in leaves, were measured at various times during the first 15 d of culture. Ten-day-old maize plantlets grown without iron displayed severe alterations, with a 50% decrease in iron and chlorophyll concentrations in leaves, and serious impairments in mitochondria and chloroplast ultrastructure. In contrast, neither leaf nor root growth, nor other mineral concentrations other than iron were significantly affected at this stage of development. In an attempt to characterize proteins potentially involved in iron nutrition or the adaptative response to iron starvation, comparative 2D-gel electrophoretic analysis of polypeptides was carried out on soluble and membrane fractions prepared from leaves and roots of iron-deficient and iron-sufficient 10-d-old maize plantlets. Two polypeptides (11 and 17 kDa, pI of about 6.8) from the microsomal fraction of leaves were found to be repressed under iron-deficient conditions. Some other polypeptides were found to he induced in microsomal fractions either from roots or leaves. Significant variations in the concentration of most of these polypeptides were observed from one experiment to another. It can be concluded from this study that, at this early stage of maize vegetative growth and development, molecular variations induced by iron deficiency do not affect major house-keeping proteins, but probably affect very specific events depending on low abundance proteins.     

Characterization of the outermembrane proteins of Vibrio cholerae expressed in in vivo culture

Two outer membrane proteins (Omps) of Vibrio cholerae O1, expressed in the intestine (in vivo) but not in culture media (in vitro), were investigated. The molecular masses of those proteins were 116 kDa and 15 kDa, and they were not associated with iron-regulated proteins. Convalescent cholera patients' sera reacted with the 15 kDa protein but not with the 116 kDa protein. The N-terminal amino acid sequence of the 15 kDa protein was homologous to V. cholerae OmpT. Anti-serum to the 15 kDa protein caused agglutination of the organisms grown in the intestine, but not the organisms in in vitro culture. The anti-serum was bactericidal, but it did not inhibit the adhesion of the organisms to the intestine and HEp-2 cells. These findings suggest the possibility that the 15 kDa protein could be involved in post-infection immunity.     

TRANSFER OF PROTEINS FROM THE CHLOROPLAST TO VACUOLES IN CHLAMYDOMONAS REINHARDTII (CHLOROPHYTA): A PATHWAY FOR DEGRADATION

Several chloroplast proteins were detected by immunoelectron microscopy within dense granules in cytoplasmic vacuoles in the alga Chlamydomonas reinhardtii Dangeard. Transfer from chloroplast to vacuoles of two major, pulse-labeled polypeptides, the large subunit of rubisco and the α subunit of ATPase, which are synthesized on chloroplast ribosomes, was demonstrated by the recovery of these polypeptides in vacuolar granules over a several-hour time period. The ultrastructure of cryofixed algal cells was examined to search for structures that would provide insight into the transfer of chloroplast proteins to vacuoles. Micrographs showed that the two membranes of the envelope were appressed, with no detectable intermembrane space, over most of the chloroplast surface. Protrusions of the outer membrane of the envelope were occasionally found that enclosed stroma, with particles similar in size to chloroplast ribosomes, but generally not thylakoid membranes. These observations suggest that chloroplast material, especially the stromal phase, was extruded from the chloroplast in membrane-bound structures, which then interacted with Golgi-derived vesicles for degradation of the contents by typical lysosomal activities. A protein normally targeted to vacuoles through the endomembrane system for incorporation into the cell wall was detected in Golgi structures and vacuolar granules but not the chloroplast.     

Bacteroid-encoded proteins are secreted into the peribacteroid space by Rhizobium leguminosarum

Bacteroids of Rhizobium leguminosarum in root nodules of Pisum sativum are enclosed by a plant-derived peribacteriod membrane (PBM). The contents of the interstitial peribacteroid space (PBS) between bacteroid membrane and PBM were isolated by a controlled osmotic shock of PBM-enclosed bacteroids and analysed by two-dimensional gel electrophoresis. Silver staining revealed approximately 40 PBS polypeptides. Ex planta ³⁵S-methionine labeling of PBM-enclosed bacteroids revealed that about 90% of the PBS proteins are synthesized by the bacteroid. Approximately 30% of the PBS polypeptides are common between the PBS and the periplasmic space of free-living bacteria; one (38kDa) PBS protein is also excreted by free-living bacteria in the bacterial culture medium. At least four bacteroid-encoded PBS polypeptides were clearly identified as symbiosis-specific.     

Localization of cytochromes in the outer membrane of Desulfovibrio vulgaris (Hildenborough) and their role in anaerobic biocorrosion

A protocol was developed whereby the outer and cytoplasmic membranes of the sulfate-reducing bacterium Desulfovibrio vulgaris (Hildenborough) were isolated and partially characterized. The isolated outer membrane fractions from cultures grown under high (100 ppm) and low (5 ppm) Fe2+ conditions were compared by SDS-PAGE electrophoresis, and showed that several protein bands were derepressed under the low iron conditions, most notably at 50 kDa, and 77.5 kDa. Outer membrane isolated from low iron cultured cells was found to contain two proteins, 77.5 kDa and 62.5 kDa in size, that reacted with a heme-specific stain and were referred to as high molecular weight cytochromes. Studies conducted on the low iron isolated outer membrane by a phosphate/mild steel hydrogen evolution system showed that addition of the membrane fraction caused an immediate acceleration in H2 production. A new model for the anaerobic biocorrosion of mild steel is proposed.     

Identification of Tetrahymena ciliary surface proteins labeled with sulfosuccinimidyl 6-(biotinamido) hexanoate and Concanavalin A and fractionated with Triton X-114.

Tetrahymena thermophila cells were labeled with sulfosuccinimidyl 6-(biotinamido) hexanoate, a sensitive nonradioactive probe for cell surface proteins, and Western blots of axonemes and ciliary membrane vesicles were compared to cilia fractionated with Triton X-114 (TX-114) in order to study the orientation of ciliary membrane proteins. Greater than 40 ciliary surface polypeptides, from greater than 350 kDa to less than 20 kDa, were resolved. The major surface 50-60 kDa proteins are hydrophobic and partition into the TX-114 detergent phase. Two high molecular weight proteins, one of which is biotinylated, comigrate with the heavy chains of ciliary dynein, sediment at 14S in a sucrose gradient, and partition into the TX-114 aqueous phase. Fractions containing these high molecular weight proteins as well as fractions enriched in 88-kDa and 66-kDa polypeptides contain Mg(2+)-ATPase activities. Detergent-solubilized tubulins partition into the TX-114 aqueous phase, are not biotinylated, and must not be exposed to the ciliary surface. The detergent-insoluble axoneme and membrane fraction contains a 36-kDa polypeptide and a portion of the 50-kDa polypeptides that otherwise partition into the detergent phase. These polypeptides could not be solubilized by ATP or by NaCl extraction and appear to be associated with pieces of ciliary membrane tightly linked to the axoneme. The ciliary membrane polypeptides were also tested for Concanavalin A binding and at least sixteen Con A-binding polypeptides were resolved. Of the major Con A-binding polypeptides, three are hydrophobic and partition into the TX-114 detergent phase, three partition into the TX-114 aqueous phase, and four partition exclusively in the detergent-insoluble fraction, which contains axonemes and detergent-resistant membrane vesicles.     

Influence of the culture medium on the expression of surface polypeptides of Yersinia enterocolitica

Three polypeptides (200, 46, and 25 kDal) encoded by the virulence plasmid were detected by SDS-PAGE in the outer membrane of Yersinia enterocolitica 09 grown at 37°C in brain-heart infusion medium. Bacteria grown at the same temperature in the tissue culture medium RPMI 1640 expressed five additional polypeptides (170, 135, 118, 100, and 98 kDal), but the 25-kDal band was not seen. The protein profile in RPMI 1640 resembles the expression pattern displayed by yersiniae when grown in vivo. The immunoblot of total membrane proteins of bacteria grown in brain-heart infusion medium revealed eight plasmid-encoded polypeptides, four of which were also in the outer membrane preparations, including a 28-kDal polypeptide. These peptides do not coincide with known plasmid-encoded outer membrane proteins.     

Expression of dematin (protein 4.9) during avian erythropoiesis

The expression of avian erythrocyte dematin (protein 4.9) was studied in short-term tissue culture and in vivo in chickens. Our results show that erythrocyte dematin consists of five immunoreactive variants of 44, 47, 49, 50, and 52 kDa which are differentially synthesized and accumulated during avian embryonic development. While synthesis of the 47 and 49 kDa forms of dematin is constitutive, the 44 kDa variant is synthesized primarily early during development (day 6), and the 50 and 52 kDa variants are synthesized at mid to late times (days 10-15). Short-term tissue culture experiments show that much of the 47 and 49 kDa forms of dematin synthesized in 5-day erythrocytes is degraded, whereas no degradation of newly synthesized polypeptides is detected later in development (mature, 20-day erythrocytes). Experiments performed in vivo are consistent with the observations in short-term tissue culture and demonstrate that the stable form of dematin is synthesized late in erythropoiesis during the reticulocyte stage. The accumulation of dematin and the timing of its assembly relative to beta-spectrin suggest a role for dematin in stabilizing the cytoskeleton of the terminally differentiated erythrocyte.     

LIGHT-HARVESTING COMPLEX AF'OPROTEINS IN CYTOPLASMIC VACUOLES IN CHLAMYDOMONAS REINHARDTII (CHLOROPHYTA)1

Cells of Chlamydomonas reinhardtii Dangeard strain cw15arg7A contain electron-opaque material, often in the form of large granules, within cytoplasmic vacuoles. Immunoelectron microscopy with antibodies to polypeptide 11, a component of the major light-harvesting chlorophyll (Chl) a/b-protein complex (LHCII,) of thylakoid membranes, revealed the presence of LHCII Polypeptides within the chloroplast and in vacuolar material in cells grown in the light. Vacuolar material was also heavily immunodecorated in dark-grown cells that did not synthesize Chl. Accumulation of LHCII polypeptides was further studied in greening and light-grown cells of a pale green mutant, deficient in LHCII, that was derived from cu15arg7A by insertional mutagenesis. Light-grown cells of this mutant strain contained relatively few thylakoid membranes and synthesized LHCII polypeptides at a low rate. However, cytoplasmic vacuoles were immunoreactive. Appearance of mature-sized LHCII polypeptides in vacuoles suggested that these proteins were partially translocated across the envelope but not retained by the chloroplast without assembly of LHCII.     

Secreted heat shock proteins in sunflower suspension cell cultures

Sunflower suspension cell cultures were subjected to different heat treatments and the electrophoretic patterns of heat-induced endocellular and secreted proteins were analyzed. In response to heat shock (3 h at 40°C), sunflower cells synthesized new polypeptides and secreted them into the medium, while the synthesis of other polypeptides was suppressed. Two major polypeptides of about 50 and 32 kDa were strongly induced. The two-dimensional electrophoretic analysis showed that the 32-kDa band is composed of at least four different polypeptides. Western blotting hybridizations of secreted proteins with various lectins were performed. The 32-kDa band gave a positive signal with concanavalin A. Received: 8 March 1996 / Revision received: 30 September 1996 / Accepted: 15 October 1996