Pole cells of Drosophila melanogaster in culture. Normal metabolism, ultrastructure, and functional capabilities.

The metabolism, ultrastructure, and function of mass-isolated pole cells were examined during short-term culture in vitro. In addition to demonstrating that these cells functioned normally in culture, a number of new features of embryonic pole cells were discovered. Cell populations isolated from Renografin density gradients were incubated in medium containing tritiated valine, uridine, or thymidine. Although pole cells incorporated similar amounts of valine into protein as other embryonic cells throughout the first 6 hr in culture, they began to synthesize RNA only after 2 hr in culture. Approximately 30% of the pole cells synthesized DNA in vitro and this synthetic activity occurred largely during the first hour of culture. An ultrastructural analysis of colcemid-treated cells showed that 10% of the pole cells divide shortly after placement in culture. During pole cell culture in vitro, polar granules and nuclear bodies fragment and disperse so that they are eventually not detected in these cells. These changes also occur during pole cell development in vivo. Finally, we have obtained 25 to 33% germ line mosaicism among the fertile adults which were derived from embryos receiving transplantation of isolated pole cells before and after culture in vitro. These results demonstrate that these cells are able to follow their normal developmental program in vitro and are able to give rise to functional germ cells in vivo.     

Polyphosphoinositides are present in plasma membranes isolated from fusogenic carrot cells

Fusogenic carrot cells grown in suspension culture were labeled 12 hours with myo-[2-³H]inositol. Plasma membranes were isolated from the prelabeled fusogenic carrot cells by both aqueous polymer two-phase partitioning and Renografin density gradients. With both methods, the plasma membrane-enriched fractions, as identified by marker enzymes, were enriched in [³H]inositol-labeled phosphatidylinositol monophosphate (PIP) and phosphatidylinositol bisphosphate (PIP₂). An additional [³H]inositol-labeled lipid, lysophosphatidylinositol monophosphate, which migrated between PIP and PIP₂ on thin layer plates, was found primarily in the plasma membrane-rich fraction of the fusogenic cells. This was in contrast to lysophosphatidylinositol which is found primarily in the lower phase, microsomal/mitochrondrial-rich fraction.     

Buoyant density separation of human blood cells in renografin gradients

Renografin, because of its high density and low viscosity, has been shown to be suitable as a supporting medium for the construction of continuous density gradients. The conditions necessary for the isopycnic banding of cells were determined, initially, using human erythrocytes. In the order of increasing density, human blood cells were separated into relatively pure bands of nongranular leucocytes, erythrocytes, and granulocytes. Their relative positions in the gradient were affected, however, by the high osmolarity of Renografin. Renografin is not cytotoxic and does not aggregate cells. It has the additional advantages of being stable, readily obtained in sterile ampoules, and inexpensive.     

Separation of mouse testis cells by equilibrium density centrifugation in Renografin gradients

Mouse testis cells have been separated by equilibrium density centrifugation in gradients of Renografin. Intact testis cells were not damaged by the separation procedure provided that, following separation, the osmolarity was reduced gradually. The various cell types were identified microscopically and by ³H-thymidine labelling with similar results. The present technique has demonstrated that significant variations in cell density occur during spermatogenesis. Approximately ten-fold enrichments of nearly all testis cell types were achieved by equilibrium density separation of testis cell suspensions. More homogeneous cell populations were prepared by density gradient centrifugation of cell fractions obtained from velocity sedimentation separations. Overall enrichments of spermatogonia, by 29-fold; pachytene spermatocytes, 45-fold; dividing meiotic cells, 170-fold; round spermatids, 30-fold; step 11–13 elongating spermatids, 12-fold; Leydig cells, 70-fold; and cytoplasmic fragments, 55-fold, were obtained. In this study, a method for preparation of cell suspensions was also developed to produce higher yields of spermatogonia and young primary spermatocytes; however, the density distribution of these cells was altered.     

Comparison of renografin density gradient centrifugation and ion-exchange chromatography for purification of phony peach bacterium from plant extracts

Renografin density gradient centrifugation and carboxymethyl (CM)-and diethylaminoethyl (DEAE)-cellulose ion-exchange chromatography were compared for purification of cells of phony peach, rickettsia-like bacterium (RLB) from plant extracts. Centrifugation on 30–40% linear gradients resulted in four bands. Cells of RLB sedimented into the third band located 4.9–5.4 cm below the meniscus. Phase-contrast microscopy, plant peroxidase activity, and viable bacterial assays showed the resulting cells ofRLB to be relatively free of host contaminants. A typical purification from 120 ml of extract containing 7.2×10⁹ RLB cells resulted in the recovery of 7.0×10⁷ RLB cells. Cells ofRLB were not successfully purified byCM andDEAE chromatography. Unitil a medium is available for cultivation of plantRLB, Renografin density gradient centrifugation should be a useful tool for obtaining cells ofRLB for biochemical and serological investigations.     

Is Urografin density gradient centrifugation suitable to separate nonculturable cells from <Emphasis Type="Italic">Escherichia coli</Emphasis> populations?

The ability of Urografin or Percoll density gradient centrifugations to separate nonculturable subpopulations from heterogeneous Escherichia coli populations was analysed. Bacterial counts (total, active and culturable cells) and flow cytometric analyses were carried out in all recovered bands. After Urografin centrifugation, and despite the different origin of E. coli populations, a common pattern was obtained. High-density bands were formed mainly by nonculturable cells. However, the increase in cell density would not be common to all nonculturable cells, since part of this subpopulations banded in low-density zones, mixed with culturable cells. Bands obtained after Percoll centrifugation were heterogeneous and culturable and nonculturable cells were recovered along the gradient. Thus, fractionation in Urografin cannot be only attributed to changes in buoyant densities during the transition from culturable to nonculturable state. Urografin density gradients allow us to obtain enriched fractions in nonculturable subpopulations from a heterogeneous population, but working conditions should be carefully chosen to avoid Urografin toxicity.     

Isolation and characterization of Tn917lac-generated competence mutants of Bacillus subtilis

We isolated 28 mutants of Bacillus subtilis deficient in the development of competence by using the transposon Tn917lacZ as a mutagen. The mutant strains were poorly transformable with plasmid and chromosomal DNAs but were normally transducible and exhibited wild-type resistance to DNA-damaging agents. The mutations were genetically mapped, and the mutants were characterized with respect to their abilities to bind and take up radiolabeled DNA. All were defective in uptake, and some failed to bind significant amounts of DNA. The abilities of the mutant strains to resolve into two buoyant density classes on Renografin gradients were studied. Most resolved normally, but several banded in Renografin only at the buoyant density of noncompetent cells. The genetic mapping studies and the other analyses suggested that the mutations define a minimum of seven distinct com genes.     

Occurrence, isolation, and characterization of polyribosomes in yeast

This report details the procedural requirements for preparing cell-free extracts of yeast rich in polyribosomes. This enabled us to demonstrate the occurrence of polyribosomes in yeast, to show their role in protein synthesis, and to devise methods for their resolution and isolation. When certain precautions are met (the use of log phase cells, rapidly halting cell growth, gentle methods of disruption, sedimentation through exponential density gradients, etc.), individual polyribosome size classes ranging up to the heptosome can be fractionated and separated from their nearest neighbors. Larger size classes are resolved partially among themselves, free of smaller polyribosomes. This was confirmed by extensive electron micrographic studies of material from the various fractions obtained upon density gradient centrifugation of yeast extracts. Modifications of the gradients and procedure should allow fractionation and isolation of the larger polyribosomes, including those containing polycistronic messages. Yeast polyribosomes are disaggregated to single ribosomes by longer term grinding, cell disruption by the French pressure cell, the Hughes press, or by incubation with dilute RNAse. Yeast polyribosomes are active in the incorporation of amino acids into polypeptide; the single ribosomes exhibit only slight activity. The latter activity is probably due to the presence of a small fraction of monosomes still containing mRNA. Poly-U stimulates amino acid incorporation only in the single ribosomes.     

Orientation and integrity of plasma membrane vesicles obtained from carrot protoplasts

Two fractions enriched in plasma membrane derived from suspension-cultured carrot (Daucus carota L.) cells were examined to determine if they differed from each other either in physical nature or in orientation. Parameters studied included the protein composition of purified membranes derived from trypsinized and nontrypsinized protoplasts as well as from trypsinized purified plasma membranes, the effect of inhibitors and membrane perturbants on ATPase activity, the binding of [acetyl-¹⁴C]concanavalin A to purified membrane fractions, and the competitive removal of [acetyl-¹⁴C]concanavalin A from purified membranes derived from [acetyl-¹⁴C]concanavalin A-labeled protoplasts. One fraction (at density of 1.102 grams per cubic centimeter on Renografin gradients) appears to be a mixed population of `tightly' sealed vesicles with the majority being rightside-out vesicles of plasma membrane, and the other fraction (density 1.128 grams per cubic centimeter) apparently is a population of predominantly `leaky' vesicles and/or nonvesicular fragments of plasma membrane, a large portion of which appear to be `leaky' inside-out vesicles. In addition, it is shown that plasma membrane-enriched fractions can be distinguished from cellular endomembranes on the basis of protein and glycoprotein composition.     

Isolation of Kinetoplast-Mitochondrial Complexes from Leishmania tarentolae*

SYNOPSIS. Kinetoplast-mitochondrial complexes were liberated from Leishmania tarentolae by passing hypotonically swollen cells in dilute Tris-EDTA through a needle at 100 1bs/in². The complexes formed an equilibrium band by flotation in Renografin gradients at a density of 1.22 g/ml. The band was monitored by several mitochondrial and kinetoplastic markers: [³H]DNA, succinate-cytochrome c reductase activity, [⁵⁰Fe]hemoproteins and optical density at 600 nm. Electron microscopy showed that the sole component of the 1.22 g/ml band was the kinetoplast-mitochondrial complex.     

Isolation and Characterization of Concanavalin A-labeled Plasma Membranes of Carrot Protoplasts

The plasma membranes of protoplasts released from carrot suspension culture cells were labeled with [¹⁴C]acetyl-concanavalin A. After homogenization a single labeled membrane fraction was isolated in a continuous isopycnic Renografin gradient. The labeled membranes peaked at an apparent density of 1.14 grams per cubic centimeter between the Golgi fraction at a density of 1.11 grams per cubic centimeter as determined by latent IDPase activity and the mitochondria at a density of 1.16 grams per cubic centimeter as determined by the cytochrome c oxidase activity. This method provided a very discrete peak of putative plasma membrane. On discontinuous Renografin gradients a relatively pure fraction of labeled plasma membranes could be readily isolated at the 1.122 to 1.146 grams per cubic centimeter interface. The labeled fraction was enriched in both an ATPase (pH 6.5) and a glucan synthetase with a pH optimum of 6.5 whose activity was promoted by magnesium and cellobiose. Enzyme activities were not altered by the membrane label.     

Separation of Dictyostelium discoideum cells into density classes throughout their development and their relationship to the later cell types

This paper describes a fast, non-destructive method for the separation of large quantities of Dictyostelium discoideum cells into density classes at all stages of development. The cells were separated by low-speed centrifugation on preformed, linear Percoll density gradients. On these gradients, cells at all developmental stages showed a unimodal variation in density and this variation in density rapidly increased during the first hours of development. The density was affected by the amount of salt present in the gradient medium, which suggests that it is regulated by a permeability property of the cells. Slug cells showed a unimodal variation in density and did not form bands corresponding to the cell types. However, were able to isolate density fractions which showed a good enrichment of prespore and prestalk cells: 95% and 90%, respectively. Preaggregation cells separated on density gradients yielded fractions which contained different amounts of three developmentally regulated enzymes. Hence, cells at this stage are already heterogeneous in their enzymatic content. Sorting experiments showed a strong correlation between density and developmental fate; the least dense (light) cells preferentially became prestalk cells, and the dense (heavy) cells became prespore cells. This was found for cells at all developmental stages; even vegetative-stage cells showed considerable heterogeneity with regard to density, which was related to their developmental fate. The light cells become prestalk cells, and the heavy cells become prespore cells. Vegetative cells from the various density fractions differed in their DNA content and temporal onset of mitotic activity when resuspended in medium. Therefore, we suggest that the separation of vegetative cells on density gradients results in a separation of cells into cell-cycle phases. Hence, there appear to be cell-cycle-linked differences among vegetative cells, which bias their differentiation towards either the spore or stalk pathway.     

Fucosylation of xyloglucan: localization of the transferase in dictyosomes of pea stem cells

Microsomal membranes from elongating regions of etiolated Pisum sativum stems were separated by rate-zonal centrifugation on Renografin gradients. The transfer of labeled fucose and xylose from GDP-[¹⁴C] fucose and UDP-[¹⁴C]xylose to xyloglucan occurred mainly in dictyosomeenriched fractions. No transferase activity was detected in secretory vesicle fractions. Pulse-chase experiments using pea stem slices incubated with [³H]fucose suggest that xyloglucan chains are fucosylated and their structure completed within the dictyosomes, before being transported to the cell wall by secretory vesicles.     

ISOPYCNIC CENTRIFUGATION OF CHROMATIN IN RENOGRAFIN SOLUTIONS

Solutions of Renografin (30–60%) can be centrifuged to form density gradients in the range from 1.0 g/cm³ to 1.4 g/cm³ or, alternatively, preformed gradients can be made which under appropriate conditions of centrifugation have an indefinite stability. Such solutions have a low viscosity and a relatively low ionic strength. The density of DNA in such solutions is surprisingly low (~1.14 g/cm³). Crude chromatin can be sedimented to an equilibrium position in such gradients, corresponding to a density of 1.2₄ g/cm³, or slightly lower, depending on the method of preparation. The complex is shown to contain DNA, RNA, protein, and possibly some lipoprotein. Most of the RNA can be removed with RNase without any significant effect on the density of the chromatin.     

Surface properties and in vitro functional capacities of human T lymphocyte subsets separated by linear density gradients.

Human lymphocytes derived from various central and peripheral sources were separated on linear density gradients (LDG). Cells from individual density fractions were tested in parallel for: the capacity to form nonimmune rosettes with neuraminidase-treated SRBC, the number of surface-associated HTLA, and in vitro proliferative responses to mitogenic lectins and alloantigens. Heterogeneous density distribution profiles were obtained for all sources of human T cells and revealed an organ specificity. The various T cell density classes obtained from identical organs as well as the identical density classes of different sources revealed to some extent differences in their surface marker patterns and/or their in vitro reactivities. On the basis of the combined techniques at least two major subsets among thymocytes were identified that differed in both surface properties and functional capacities. Density classes of T cells from all peripheral sources were distinguished from thymocytes by a homogeneous lowered HTLA expression. Whereas clear-cut differences in the in vitro functional capacity were observed between the two thymocyte subsets, less striking but still significant differences were found to exist among the various density classes of peripheral T cells.     

Isolation and separation of cysts and epimastigotes of Blastocrithidia triatomae Cerisola et al., 1971 (Trypanosomatidae)

Developmental stages of the flagellate Blastocrithidia triatomae were isolated according to differences in density or in surface charge from dry feces or the intestinal content of reduviid hosts or from in vitro cultures which contained host cells. Isopycnic ultracentrifugation on isoosmotic Percoll gradients separated cysts (ϱ = 1.145 g/cm³) from epimastigotes (ϱ = 1.075 g/cm³), representing the two major morphological stages of B. triatomae. Moreover, a continuous shift in buoyant density of encystating and/or excystating stages from the level of mature cysts to lower densities displayed by epimastigotes was observed. This characteristic excluded the isolation of pure epimastigotes by density gradients. Nevertheless, approximately 1 × 10⁸ mature cysts per gradient were obtained by this procedure. Employing DEAE-ion exchange chromatography for cyst isolation, approximately 2 × 10¹⁰ cysts could be purified per column. In addition, DEAE-chromatography was used for the isolation of pure epimastigote fractions. The succesful isolation of B. triatomae-stages from three completely different sources suggests that the methods derived in our study may be easily adapted for the isolation of other insect trypanosomatids.     

COMPARATIVE STUDIES ON MITOCHONDRIA ISOLATED FROM NEURON-ENRICHED AND GLIA-ENRICHED FRACTIONS OF RABBIT AND BEEF BRAIN

Fractions enriched in neuronal and glial cells were obtained from dispersions of whole beef brain and rabbit cerebral cortex by large-scale density gradient centrifugation procedures. The fractions were characterized by appropriate microscopic observation. Mitochondria were then isolated from these fractions by differential centrifugation of their homogenates. The two different types of mitochondria were characterized with respect to certain enzyme activities, respiratory rate, rate of protein synthesis, and their buoyant density in sucrose gradients. The mitochondria from the neuron-enriched fraction were distinguished by a higher rate of incorporation of amino acids into protein, higher cytochrome oxidase activity, and a higher buoyant density in sucrose density gradients. Mitochondria from the glia-enriched fraction showed relatively high monoamine oxidase and Na⁺- and K⁺-stimulated ATPase activities. The rates of oxidation of various substrates and the acceptor control ratios did not differ appreciably between the two types of mitochondria. The difference in the buoyant density of mitochondria isolated from the neuron-enriched and glia-enriched cell fractions was utilized in attempts to separate neuronal and glial mitochondria from the mixed mitochondria obtained from whole brain homogenates in shallow sucrose gradients. The appearance of two peaks of cytochrome oxidase, monoamine oxidase, and protein concentration in such gradients shows the potential feasibility of such an approach.     

Quantitative analysis of a novel glucosylated phospholipid by liquid chromatography-mass spectrometry

Building upon the demonstrated presence of a new glyceroglycolipid, phosphatidylglucoside (PtdGlc), in rat embryonic brain tissues, we have developed a method to identify minute amounts of PtdGlc in cultured cells by using nano-flow high-performance liquid chromatography and negative-ion-mode electrospray linear-ion trap time-of-flight mass spectrometry (LC-MS). A normal-phase silica gel-based column enabled us to separate PtdGlc from other lipid classes. PtdGlc was identified from its tandem mass spectrometry spectrum and from its retention time in the column. Using an internal standard collection and LC-MS, we obtained the linearity of PtdGlc at a range of 6.3-800 fmol per injection. We applied this method to analyze quantitative changes in PtdGlc in C6 glioma cells after cellular differentiation into GFAP-positive glial cells. PtdGlc in C6 glioma cells consisted exclusively of C18:0/C20:0 fatty acyl chains. Differentiation induced by the addition of anti-PtdGlc antibody plus cAMP in culture medium significantly increased the glycolipid content.     

Muscle surface membranes. Preparative methods affect apparent chemical properties and neurotoxin binding

Considerable disagreement exists between results reported by various authors for lipid composition and enzyme activity in purified muscle membrane fractions presumed to be sarcolemma, although an explanation for these discrepancies has not been presented. We have prepared muscle light surface membrane fractions of comparable density (1.050–1.120) by a low-salt sucrose method and by an LiBr-KCl extraction procedure and compared them for density profile, total lipid and cholesterol content, protein composition and ATPase activity. In addition, sodium channels characteristic of excitable membranes have been quantitated in each preparation using [³H]saxitoxin binding assays, and the density of acetylcholine receptors determined in fractions from control and denervated muscle using α-[¹²⁵I]bungarotoxin. Although both fractions contain predominantly surface membrane, the LiBr fraction consistently shows the higher specific activity of $\text{p-}\text{nitrophenylphosphatase}$, higher free cholesterol content, and higher density of sodium channels and acetylcholine receptors. The density distribution of sodium channels appears uniform throughout both fractions. Quantitative differences were seen between sodium dodecyl sulfatepolyacrylamide gel electrophoresis patterns of membrane proteins from the two preparations although most bands are represented in both. A majority of the low-salt sucrose light membrane proteins were accessible in varying degrees to labelling with diazotized diiodosulfanylic acid in intact muscle. These results suggest that light surface membrane fractions may be mixtures of sarcolemma and T-tubular membranes. Using our preparative methods, the LiBr fraction may contain predominantly sarcolemma while low-salt sucrose light membranes may be enriched in T-tubular elements.     

Plasma membrane proteins associated with undifferentiated and embryonicDaucus carota tissue

Summary Membranes and membrane proteins from undifferentiated cells and torpedo-stage embryos were compared. A comparison of marker enzyme profiles on linear sucrose gradients showed that the membrane vesicles obtained from 14-day-old embryos were consistently less dense than those obtained from undifferentiated carrot cells. The density of the endoplasmic reticulum, for instance, was 1.10g/cm³ in embryos and 1.12g/cm² in undifferentiated cells. Proteins and glycoproteins from endoplasmic reticulum-, Golgi apparatus-, and plasma membrane-enriched fractions were compared from undifferentiated carrot cells with 14-day-old embryos by 2D SDS-PAGE. When these two tissues were compared, extensive qualitative and quantitative changes in the steady-state endomembrane and plasma membrane proteins were observed. The plasma membrane was examined further by labeling the plasma membrane proteins with sulfosuccinimidylbiotin. Using this specific label, plasma membrane proteins of 54 kD, 41 kD, 16 kD, and 15 kD were found to be uniquely associated with the embryonic state. Conversely, a 70 kD protein and a 45 kD glycoprotein were found to be associated with only undifferentiated cells. These results demonstrate that proteins of the plasma membrane exhibit distinct changes as a result of somatic embryogenesis in carrot.Abbreviations conA concanavilin A - 2,4-D 2,4-dichlorophenoxyacetic acid - p protein - gp glycoprotein - kD kilodalton - SDS-PAGE sodium dodecylsulfate-polyacrylamide gel electrophoresis