Immunocytochemistry of a novel GABA receptor subunitRdl inDrosophila melanogaster

Following our recent cloning of a novel γ-aminobutyric acid (GABA) receptor subunit geneResistance to dieldrin orRdl from the cyclodiene resistance locus inDrosophila melanogaster, we were interested in defining its pattern of expression during development. Here we report the raising of an anti-Rdl polyclonal antibody that recognizes a single protein of the expected 65 kDa size in immunoblots ofDrosophila head homogenates.In situ hybridization usingRdl cDNA probes and the anti-Rdl antibody shows thatRdl message and protein are highly expressed in the developing central nervous system (CNS) of 15–17 h embryos. Interestingly, despite the use of GABA in both the peripheral and CNS of insects,Rdl GABA receptor subunits appear to be confined to the CNS. Detailed immunocytochemistry ofDrosophila brain sections showed particularly strong anti-Rdl antibody staining in the optic lobes, ellipsoid body, fan shaped body, ventrolateral protocerebrum and the glomeruli of the antennal lobes. Results are compared with the distribution of staining observed in the insect CNS with antibodies against GABA itself and synaptotagmin, a synaptic vesicle protein.     

Bicuculline-insensitive GABA-gated Cl<Superscript>−</Superscript> channels in the larval nervous system of the moth<Emphasis Type="Italic"> Manduca sexta</Emphasis>

GABA-gated Cl^– channels were studied in the nervous system of the larval tobacco hawk moth, Manduca sexta, using electrophysiology, ³⁶Cl^– uptake into membrane microsacs and immunocytochemistry. A GABA-induced increase in Cl^– conductance was recorded from a visually identifiable neurone (fg1) in the desheathed frontal ganglion. The response was insensitive to the vertebrate GABA_A receptor antagonist, bicuculline, but was blocked by picrotoxinin. Bicuculline-insensitive, picrotoxinin-sensitive, GABA-stimulated ³⁶Cl^– uptake was also detected in membrane microsacs prepared from the isolated larval M. sexta nervous system. Such receptors appear to be the major type of GABA receptor in larval nervous system membrane microsac preparations. An antibody raised against a 17 amino acid peptide, based on the predicted C-terminus of the Drosophila GABA receptor subunit (RDL), stained not only cell bodies, including that of fg1, but also the neuropile in the frontal ganglion, indicating the existence of RDL-like GABA receptor subunits in neurones of this ganglion. Thus, bicuculline-insensitive GABA-gated Cl^– channels are present in the larval nervous system of M. sexta.     

Characterization and comparative pharmacological studies of a functional γ-aminobutyric acid (GABA) receptor cloned from the tobacco budworm,Heliothis virescens (Noctuidae:Lepidoptera)

This paper reports the functional expression and pharmacological characterization of a full length complementary deoxyribonucleic acid (cDNA) (pIVY12) cloned from aHeliothis virescens fertilized egg cDNA library that encodes for a γ-aminobutyric acid (GABA) receptor subunit (HVRDL-Ser 285). Two electrode voltage clamp recordings ofXenopus oocytes expressing the HVRDL GABA-gated chloride channel revealed robust chloride ion conductance in response to GABA and the GABA_A receptor agonist, muscimol. Baclofen, a GABA_B agonist had no effect. Phenobarbital showed a positive dose-dependent allosteric modulatory effect, whereas the benzodiazepine, flunitrazepam, had no effect. Chloride conductance was depressed by the novel insecticide, fipronil ((±)-5-amino-1-(2,6 dichloro-α, α, α-trifluoro-p-tolyl)-4-trifluoromethyl-sulfinylpyrazole-3-carbonitrile) and the GABA_A antagonist, picrotoxinin. The HVRDL GABA receptor was insensitive to blockage by dieldrin and the GABA_A antagonist, bicuculline. The comparative actions of fipronil, picrotoxinin and dieldrin were examined on oocytes expressing theH. virescens wild-type (HVRDL-Ser 285), the site-directed mutant (HVRDL-Ala 285), theDrosophila melanogaster Rdl wild-type (DMRDL-Ala 302) and theRdl dieldrin resistant (DMRDL-Ser 302) homo-oligomeric GABA receptors. HVRDL-Ala 285 was 15-fold more sensitive to blockage by fipronil than HVRDL-Ser 285. DMRDL-Ala 302 and DMRDL-Ser-302 showed a similar level of sensitivity to blockage by fipronil. HVRDL-Ser 285 and DMRDL-Ser 302 exhibited a similar level of insensitivity to picrotoxinin. HVRDL-Ala 285 and DMRDL-Ala 302 showed a similar range of picrotoxinin sensitivity. DMRDL-Ala 302 and HVRDL-Ala 285 showed some sensitivity to blockage by dieldrin. Fipronil sensitivity was significantly altered by the serine to alanine mutation at position 285 in the M2 region of the HVRDL subunit, whereas no difference was observed between the DMRDL-Ser 302 and DMRDL-Ala 302 receptors.     

Evidence for a Diverse Cys-Loop Ligand-Gated Ion Channel Superfamily in Early Bilateria

The genome sequences of Caenorhabditis elegans and Drosophila melanogaster reveal a diversity of cysteine-loop ligand-gated ion channels (Cys-loop LGICs) not found in vertebrates. To better understand the evolution of this gene superfamily, I compared all Cys-loop LGICs from rat, the primitive chordate Ciona intestinalis, Drosophila, and C. elegans. There are two clades of GABA receptor subunits that include both verterbate and invertebrate orthologues. In addition, I identified nine clades of anion channel subunits found only in invertebrates, including three that are specific to C. elegans and two found only in Drosophila. One well-defined clade of vertebrate cation channel subunits, the α7 nicotinic acetylcholine receptor subunits (nAChR), includes invertebrate orthologues. There are two clades of invertebrate nAChRs, one of α-type subunits and one of non-α subunits, that are most similar to the two clades of vertebrate neuronal and muscle α and non-α subunits. There is a large group of divergent C. elegans nAChR-like subunits partially resolved into clades but no orthologues of 5HT3-type serotonin receptors in the invertebrates. The topology of the trees suggests that most of the invertebrate-specific Cys-loop LGIC clades were present in the common ancestor of chordates and ecdysozoa. Many of these disappeared from the chordates. Subsequently, selected subunit genes expanded to form large subfamilies. Electronic Supplementary Material Electronic Supplementary material is available for this article at and accessible for authorised users. [Reviewing Editor: Dr. Rafael Zardoya]     

Tracing neurons with a kinesin-β-galactosidase fusion protein

Summary We have analyzed the development of neuronal projections inDrosophila by fusing the gene encodingDrosophila kinesin, a microtubule-associated motor protein, toEscherichia coli lacZ, and employing the resulting chimeric protein as a reporter molecule for labelling cells by the enhancer-trap method. Expression of kinesin--galactosidase in neurons has afforded a detailed view of the morphologies and projections of neurons. The images of cells provided by this method will facilitate anatomical and genetic investigations of theDrosophila nervous system as well as other cell types. Correspondence to: Y.N. Jan     

α3, β2, and β4 Form Heterotrimeric Neuronal Nicotinic Acetylcholine Receptors in Xenopus Oocytes

Abstract: One of the problems faced when using heterologous expression systems to study receptors is that the pharmacological and physiological properties of expressed receptors often differ from those of native receptors. In the case of neuronal nicotinic receptors, one or two subunit cDNAs are sufficient for expression of functional receptors in Xenopus oocytes. However, the stoichiometries of nicotinic receptors in neurons are not known and expression patterns of mRNA coding for different nicotinic receptor subunits often overlap. Consequently, one explanation for the discrepancy between properties of native versus heterologously expressed nicotinic receptors is that more than two types of subunit are necessary for correctly functioning receptors. The Xenopus oocyte expression system was used to test the hypothesis that more than two types of subunit can coassemble; specifically, can two different β subunits assemble with an α subunit forming a receptor with unique pharmacological properties? We expressed combinations of cDNA coding for α3, β2, and β4 subunits. β2 and β4, in pairwise combination with α3, are differentially sensitive to cytisine and neuronal bungarotoxin (nBTX). α3β4 receptors are activated by cytisine and are not blocked by low concentrations of nBTX; acetylcholine-evoked currents through α3β2 receptors are blocked by both cytisine and low concentrations of nBTX. Coinjection of cDNA coding for α3, β2, and β4 into oocytes resulted in receptors that were activated by cytisine and blocked by nBTX, thus demonstrating inclusion of both β2 and β4 subunits in functional receptors.     

Nucleotide sequence and phylogenetic implication of the ATPase subunits β and ε encoded in the chloroplast genome of the brown alga Dictyota dichotoma

We have cloned and sequenced the genes atpB and atpE, coding for CF₁ subunits and , respectively, of the chloroplast genome of the brown alga Dictyota dichotoma. Although the coding site of atpE cannot be demonstrated by heterologous Southern hybridizations, a 417 bp reading frame 3 to atpB was identified as the gene atpE by sequence similarities with atpE genes from other sources. A maximum sequence identity of 30% is found between the predicted amino acid sequence of the Dictyota subunit and the corresponding cyanobacterial subunits. Including conserved amino acid replacements, the Dictyota subunit exhibits about 70% sequence similarity with the cyanobacterial and land plant subunits. As in cyanobacteria, the atpE gene does not overlap the preceding gene atpB. The deduced amino acid sequence of atpB is 74–79% identical to the corresponding cyanobacterial and chloroplast subunits. Entirely conserved are regions referred to as the catalytic and/or regulatory sites of ATP formation, including interacting regions between subunits and . A phylogram predicted from F₁/CF₁- subunits of eleven different organisms suggests a common evolutionary origin of plastids from chlorophytes and brown algae.     

Evolutionary relationship between Enterobacteriaceae: comparison of the ATP synthases (F1F0) of Escherichia coli and Klebsiella pneumoniae

The ATP synthase complex of Klebsiella pneumoniae (KF₁F₀) has been purified and characterized. SDS-gel electrophoresis of the purified F₁F₀ complexes revealed an identical subunit pattern for E. coli (EF₁F₀) and K. pneumoniae. Antibodies raised against EF₁ complex and purified EF₀ subunits recognized the corresponding polypeptides of EF₁F₀ and KF₁F₀ in immunoblot analysis. Protease digestion of the individual subunits generated an identical cleavage pattern for subunits , , , , a, and c of both enzymes. Only for subunit different cleavage products were obtained. The isolated subunit c of both organisms showed only a slight deviation in the amino acid composition. These data suggest that extensive homologies exist in primary and secondary structure of both ATP synthase complexes reflecting a close phylogenetic relationship between the two enterobacteric tribes.Abbreviations ACMA 9-amino-6-chloro-2-methoxyacridine - DCCD N,N-dicyclohexylcarbodiimide - FITC fluorescein isothiocyanate - SDS sodium dodecyl sulfate - TTFB 4,5,6,7-tetrachloro-2-trifluoromethylbenzimidazole     

Block by 5-hydroxytryptamine of neuronal acetylcholine receptor channels expressed inXenopus oocytes

Summary 1. Effects of 5-hydroxytryptamine (5-HT) on neuronal nicotinic acetylcholine (ACh) receptor channels were investigated by expressing cloned channel subunits inXenopus oocytes.2. When channels were expressed with a combination of ₃ and ₄ subunits, 5-HT (10 to 300 µM) reversibly inhibited an inward current activated by 100 µM ACh in a concentration-dependent manner. The inhibition was also observed when ₃ subunit was combined with ₂ subunit instead of ₄ subunit, or ₄ subunit was combined with ₂ or _4–1 subunit instead of ₃ subunit to express channels.3. Compounds known to antagonize at 5-HT receptors (LY53857, metoclopramide and propranolol) exhibited an agonistic effect: they inhibited the ACh-activated current.4. The results suggest that 5-HT inhibits recombinant neuronal nicotinic receptor channels through a binding-site distinct from conventional 5-HT receptors. The binding-site may not be attributed to a unique type of channel subunits.     

Altered patterns ofN-linked glycosylation of theTorpedo acetylcholine receptor expressed inXenopus oocytes

Summary The nicotinic acetylcholine receptor (AChR) fromTorpedo electroplax is an oligomeric transmembrane glycoprotein made up of four highly homologous subunits in a stoichiometry of ₂. The role ofN-linked glycosylation of the AChR has been studied in several cell lines and these studies have suggested that the addition of carbohydrate may be important for receptor expression. WhileXenopus oocytes have proven to be an invaluable tool for studying the AChR, little is known aboutN-linked glycosylation of the oocyte-expressed receptor. The present report demonstrates that the oocyte-expressed AChR is glycosylated and contains the same number of oligosaccharide residues per subunit as the native receptor. However, unlike the nativeTorpedo receptor which contains both high mannose and complex oligosaccharides, the oocyte-expressed AChR contains only high mannose oligosaccharide modifications. However, as has been well documented, theTorpedo AChR expressed in oocytes is fully functional, demonstrating that the precise nature of the oligosaccharide modification is not critical for receptor function.The role of the oligosaccharide component of the AChR in receptor function was examined using tunicamycin (TM) to inhibitN-linked protein glycosylation. TM treatment resulted in a 70–80% inhibition of AChR expression in oocytes. Functional, unglycosylated receptors were not expressed; receptors expressed in TM-treated oocytes were functional wild-type, glycosylated AChR, formed only during the initial 12 hr of TM exposure. These data suggest that while glycosylation of the oocyte-expressedTorpedo AChR is required for assembly of subunits into a functional receptor, as has been demonstrated in other cells, oocyte modification of normalTorpedo glycosylation patterns does not affect receptor function or assembly.     

Characterization and dynamic analysis of <Emphasis Type="Italic">Arabidopsis</Emphasis> condensin subunits,AtCAP-H and AtCAP-H2

Condensin complexes are thought to play essential roles in mitotic chromosome assembly and segregation in eukaryotes. To date, two condensin complexes (condensin I and II) have been identified. Both complexes contain two structural maintenance of chromosome (SMC) subunits and three non-SMC subunits. In plants, little is known about the localization and function of all the condensin subunits. Here, we report the analyses on the localization of a non-SMC subunit of Arabidopsis condensin I and II, AtCAP-H, and AtCAP-H2, respectively. Our study indicated that localization of AtCAP-H and AtCAP-H2 is dynamically changed through the mitotic cell cycle using GFP-tagged AtCAP-H and AtCAP-H2 in tobacco cultured cells. They are localized at mitotic chromosomes from prometaphase to telophase. However, their localization in interphase is quite different. AtCAP-H was mainly found in the cytoplasm whereas AtCAP-H2 was mainly found in a nucleolus. It is revealed using GFP-tagged deletion mutant s of AtCAP-H that the kleisin- middle domain (GM domain) is a unique domain only in AtCAP-H, responsible for chromosomal localization. We propose that the GM domain of CAP-H is essential for its chromosomal localization at mitosis and thus proper function of CAP-H. Differences in localization of AtCAP-H and AtCAP-H2 at interphase also suggest their functional differentiation.     

GABAA receptors on rat cerebellar granule cells are potently activated by muscimol but only slightly modulated by the benzodiazepine agonist flunitrazepam

Summary GABA_A receptors present on rat cerebellar granule cells in culture were studied by the whole cell patch clamp technique. Muscimol appeared to be more potent than GABA itself in activating Cl^– currents. A benzodiazepine, flunitrazepam, only slightly (10%) potentiated the GABA action.These results support the previous suggestion that GABA_A receptors containing the subunit, such as those in the cerebellum granule cells, are potently activated by muscimol. The present results also bear out the concept that GABA action on receptors containing the subunit is not potentiated by benzodiazepines.     

Yeast Srp1, a nuclear protein related toDrosophila and mouse pendulin, is required for normal migration, division, and integrity of nuclei during mitosis

This paper describes genes from yeast and mouse with significant sequence similarities to aDrosophila gene that encodes the blood cell tumor suppressor pendulin. The protein encoded by the yeast gene, Srp1p, and mouse pendulin share 42% and 51% amino acid identity withDrosophila pendulin, respectively. All three proteins consist of 10.5 degenerate tandem repeats of 42 amino acids each. Similar repeats occur in a superfamily of proteins that includes theDrosophila Armadillo protein. All three proteins contain a consensus sequence for a bipartite nuclear localization signal (NLS) in the N-terminal domain, which is not part of the repeat structure. Confocal microscopic analysis of yeast cells stained with antibodies against Srp1p reveals that this protein is intranuclear throughout the cell cycle. Targeted gene disruption shows thatSRP1 is an essential gene. Despite their sequence similarities,Drosophila and mouse pendulin are unable to rescue the lethality of anSRP1 disruption. We demonstrate that yeast cells depleted of Srp1p arrest in mitosis with a G2 content of DNA. Arrested cells display abnormal structures and orientations of the mitotic spindles, aberrant segregation of the chromatin and the nuclei, and threads of chromatin emanating from the bulk of nuclear DNA. This phenotype suggests that Srplp is required for the normal function of microtubules and the spindle pole bodies, as well as for nuclear integrity. We suggest that Srp1p interacts with multiple components of the cell nucleus that are required for mitosis and discuss its functional similarities to, and differences fromDrosophila pendulin.     

Production of multiple wheat-rye 1RS translocation stocks and genetic analysis of LMW subunits of glutenin and gliadins in wheats using these stocks

Summary A triple (1AL.1RS/1BL.1RS/1DL.1RS) and three double (1AL.1RS/1BL.1RS, 1AL.1RS/1DL.1RS, 1BL.1RS/1DL.1RS) wheat-rye 1RS translocation stocks were isolated from a segregating population using the Gli-1, Tri-1 and Sec-1 seed proteins as genetic markers. These stocks carried 42 chromosomes and formed the expected multivalents (frequency of 14–25%) at metaphase 1. They gave floret fertility ranging from 40–60%. These stocks were subsequently used to determine the genetic control of low-molecular-weight (LMW) glutenin subunits in Chinese Spring and Gabo by means of two-step one-dimensional SDS-PAGE. All of the B subunits and most of the C subunits of glutenin were shown to be controlled by genes on the short arms of group-1 chromosomes in these wheats. The other C subunits were not controlled by group-1 chromosomes. The triple translocation line served as a suitable third parent in producing test-cross seeds for studying the inheritance of the LMW glutenin subunits and gliadins in wheat cultivars, e.g. Chinese Spring and Orca. The segregation patterns of the LMW glutenin subunits in these cultivars revealed that the subunits were inherited in clusters and that their controlling genes (Glu-3) were tightly linked with those controlling gliadins (Gli-1). The LMW glutenin patterns d, d and e in Orca segregated as alternatives to the patterns a, a and a in Chinese Spring controlled by Glu-A3, Glu-B3 and Glu-D3 loci on chromosome arms 1AS, 1BS and 1DS, respectively, thus indicating that these patterns were controlled by allelic genes at these loci.     

Comparative cytology and taxonomy of theUlvaphyceae II. Ulvalean characteristics of the stephanokont flagellar apparatus ofDerbesia tenuissima

Summary The stephanokont flagellar apparatus of the zoospores ofDerbesia tenuissima (De Not.) Crouan is examined and compared to the flagellar apparatuses of other green algae. The flagella ofDerbesia are attached to two of three bands which lie at the junction of the body and papilla. Serial longitudinal and cross sections reveal that the basal bodies are attached to the bands along their sides and at their proximal ends. The bands are not striated in any plane. The lack of striation in the bands and the partial covering of the proximal end of the basal bodies by one of the bands closely resemble the type of flagellar connection system described as the Bryopsis-type byMelkonian (1980). Zoospores of ulvalean green algae also possess these features, suggesting that green siphons are phylogenetically related to theUlvales. It is proposed that green siphons be tentatively classified in theUlvaphyceae rather than in theChlorophyceae orCharophyceae.This work supported by NSF Grant DEB 78-03554.     

Aspects of evolutionary differentiation of theHamamelidaceae and the LowerHamamelididae

New investigations on the flower and fruit structure of extantHamamelidaceae and other LowerHamamelididae together with new finds of fossil flowers and seeds from the Upper and Lower Cretaceous provide the outline of an increasingly more differentiated picture of the early evolution of the subclass. Three patterns of valvate anther dehiscence are recognized in the subfamilyHamamelidoideae (and the subclassHamamelididae). The basic (plesiomorphic) type within theHamamelididae has 2 valves per theca. The type with 1 valve but 2 pollen sacs per theca is both consistent and exclusive for the 5 southern genera of theHamamelidaceae. They seem to be the remnants of a homogeneous group that originated before the Upper Cretaceous. This is supported by fossil hamamelidaceous flowers from the Upper Cretaceous that have thecae with 1 valve. Since several-seededHamamelidaceae predate one-seeded forms in the fossil seed record (in Europe) and the systematic structure of the one-seeded group is relatively more homogeneous, several-seeded groups are considered to be more ancient. Several parallel evolutionary trends are recognized within theHamamelidaceae as well as within the LowerHamamelididae: anther dehiscence with 2 valves per theca 1 slit or 1 valve; pollen sacs per theca 2 1; pollen tricolpate polyforate; exine coarsely reticulate finely reticulate; loss of perianth (tepals or petals and sepals) and concomitant loss of fixed number of floral organs; differentiation of exposed nectaries.     

Developmental regulatory elements in the 5′ flanking DNA of the Drosophila choline acetyltransferase gene

Summary Choline acetyltransferase (ChAT, EC 2.3.1.6) catalyzes the production of the neurotransmitter acetylcholine, and is an essential factor for neurons to be cholinergic. We have analyzed regulation of the Drosophila ChAT gene during development by examining the -galactosidase expression pattern in transformed lines carrying different lengths of 5 flanking DNA fused to a lacZ reporter gene. The largest fragment tested, 7.4 kb, resulted in the most extensive expression pattern in embryonic and larval nervous system and likely reflects all the cis-regulatory elements necessary for ChAT expression. We also found that 5 flanking DNA located between 3.3 kb and 1.2 kb is essential for the reporter gene expression in most of the segmentally arranged embryonic sensory neurons as well as other distinct cells in the CNS. The existence of negative regulatory elements was suggested by the observation that differentiating photoreceptor cells in eye imaginal discs showed the reporter gene expression in several 1.2 kb and 3.3 kb transformants but not in 7.4 kb transformants. Furthermore, we have fused the 5 flanking DNA fragments to a wild type ChAT cDNA and used these constructs to transform Drosophila with a Cha mutant background. Surprisingly, even though different amounts of 5 flanking DNA resulted in different spatial expression patterns, all of the positively expressing cDNA transformed lines were rescued from lethality. Our results suggest that developmental expression of the ChAT gene is regulated both positively and negatively by the combined action of several elements located in the 7.4 kb upstream region, and that the more distal 5 flanking DNA is not necessary for embryonic survival and development to adult flies. Correspondence to: P.M. Salvaterra     

Identification ofTnr3, aSuppressor-Mutator/Enhancer-like transposable element from rice

We isolated members of the retroposon family p-SINE1 in rice and found that one member contained an insertion. A 3-bp sequence at the insertion site within p-SINE1 appeared duplicated. The insertion sequence, 1536 bp in length, carried imperfect inverted repeats of about 13 bp at its termini which begin with 5-CACTA--- -3; these repeats are similar to those found in members of theEn/Spm transposable element family. These results indicate that the insertion sequence is a transposable element belonging to theEn/Spm family and is thus namedTnr3 (transposable element inrice no.3). In fact,Tnr3 carried long subterminal regions containing direct and inverted repeats of short DNA sequences of 15 bp, another characteristic of theEN/Spm family. The subterminal repeat sequences inTnr3 are, however, of two kinds, although they share homology with each other.Tnr3 and its relatives were present in multiple copies in rice. Considering the length ofTnr3, it cannot represent an autonomous type element, but is a non-autonomous element probably derived by deletion from an autonomous transposon.