ThePenicillium chrysogenum andAspergillus nidulans wetA developmental regulatory genes are functionally equivalent

Aspergillus nidulans andPenicillium chrysogenum are related fungi that reproduce asexually by forming multicellular conidiophores and uninucleate conidia. InA. nidulans, spore maturation is controlled by thewetA (AwetA) regulatory gene. We cloned a homologous gene (PwetA) fromP. chrysogenum to determine if spore maturation is regulated by a similar mechanism in this species. ThePwetA andAwetA genes are similar in structure and functional organization. The inferred polypeptides share 77% overall amino acid sequence similarity, with several regions having > 85% similarity. The genes also had significant, local sequence similarities in their 5 flanking regions, including conserved binding sites for the product of the regulatory geneabaA.PwetA fully complemented anA. nidulans wetA deletion mutation, demonstrating thatPwetA and its 5 regulatory sequences function normally inA. nidulans. These results indicate that the mechanisms controlling sporulation inA. nidulans andP. chrysogenum are evolutionarily conserved.     

Yeast RAS2 affects cell viability,mitotic division and transient gene expression in Nicotiana species

Overexpression of the budding yeast RAS2 gene in Nicotiana plumbaginifolia cells revealed that RAS2 acted as a suicide gene in freshly isolated protoplasts from leaves and blocked cell proliferation in cell suspension-derived protoplasts. Among a series of genes tested (such as npt II, CDC35, PDE2), RAS2 was the only one to block the expression of the cat gene, as measured in a transient gene expression assay. Another ras gene, v-Ha-ras, had similar effects. Furthermore, the RAS2 effect was species-specific and depended on the modulation of hormonal metabolism in the transfected cells, while no differences were noticed between the normal and the activated val19 gene. Transfected plant cells are shown to synthesize a RAS2 protein of the same electrophoretic mobility as the yeast RAS2 product. The results are discussed in the broader context of the evolutionarily conserved ras genes involved in vital cellular functions.     

Sequence analysis of an actin isoform in the flatworm Diphyllobothrium dendriticum (Cestoda)

We have examined actin cDNA of the flatworm Diphyllobothrium dendriticum (Cestoda). Actin is a contractile protein that has been implicated in a variety of developmental and cellular processes. It is highly conserved and present in all eukaryotic cells. It is of particular interest to analyze evolutionary preserved genes in flatworms, because ancestral flatworms are regarded to play a central role in the evolution of the metazoans (Barnes et al., 1998). Screening a cDNA library of D. dendriticum (UniZap XR, Stratagene) with a human -actin probe resulted in several positive clones. One of the cDNA inserts, Didactl, consisting of 1392 bp was completely sequenced. The established nucleotide sequence revealed a 5 untranslated region of 33 bp, the entire open reading frame of 1128 bp and a 3 untranslated region of 231 bp which ends in a stretch of 21 A residues. The potential polyadenylation signal (AATAAA) is located 14 bp upstream of the poly (A) tail. The deduced amino acid sequence of Didactl is 376 amino acids long. It is a typical invertebrate actin (Fyrberg et al., 1981) resembling more the cytoplasmic than the muscular isoforms of vertebrate actins. Didactl is for example 96% homologous to human cytoplasmic -actin but only 92.6% identical with human smooth muscle -actin. The actin proteins are generally encoded by a multigene family which differs in size from species to species. Most organisms have four to eight genes coding for actin in their genome, but the number of actin genes can also be over 20 (Hamelin et al., 1988). Sequence comparisons of Didactl and the partly sequenced cDNA clones indicate that D. dendriticum has at least four different genes coding for actin in its genome.     

Actin cytoskeleton and budding pattern are altered in the yeast rvs161 mutant: the Rvs161 protein shares common domains with the brain protein amphiphysin

The actin cytoskeleton cells is altered in rvs161 mutant yeast, with the defect becoming more pronounced under unfavorable growth conditions, as described for the rvs167 mutant. The cytoskeletal alteration has no apparent effect on invertase secretion and polarized growth. Mutations in RTVS161, just as in RI/S167, lead to a random budding pattern in a/ diploid cells. This behavior is not observed in a/a diploid cells homozygous for the rvs161-1 or rvs167-1 mutations. In addition, sequence comparisons revealed that amphiphysin, a protein first found in synaptic vesicles of chicken and shown to be the autoantigen of Stiff Man syndrome, presents similarity with both Rvs proteins. Furthermore, limited similarities with myosin heavy chain and tropomyosin alpha chain from higher eukaryotic cells allow for the definition of a possible consensus sequence. The finding of related sequences suggests the existence of a function for these proteins that is conserved among eukaryotic organisms.     

ADP-ribosylation of actin from the green algaChara corallina byClostridium botulinum C2 toxin andClostridium perfringens iota toxin

Summary The ability of two bacterial toxins to modify a plant actin by covalent ADP-ribosylation was tested in the green algaChara corallina. Using [³²P]NAD, bothClostridium botulinum C2 toxin andClostridium perfringens iota toxin labelled a protein of M_r 42 kDa which comigrated with actin and was immunoprecipitated by a monoclonal anti-actin antibody. ADP-ribosylation ofChara actin was more efficient with iota toxin than with C2 toxin. The actin bundles in perfusedChara cells were not affected by toxin-containing media competent for ADP-ribosylation. The data indicate that monomeric plant actin is substrate for ADP-ribosylation by the bacterial toxins.Abbreviations ADP adenosine-diphosphate - EGTA ethyleneglycol-bis-(-aminoethyl)N,N,N,N-tetraacetic acid - NAD nicotinamide dinucleotide - pCA -log [Ca²⁺] - PIPES piperazine-N,N-bis(2-ethanesulfonic acid) Dedicated to Prof. Dr. Dr. h.c. Eberhard Schnepf on the occasion of his retirement     

Mutations that are synthetically lethal with a<Emphasis Type="Italic"> gas1Δ</Emphasis> allele cause defects in the cell wall of<Emphasis Type="Italic"> Saccharomyces cerevisiae</Emphasis>

The GAS1 -related genes of fungi encode GPI-anchored proteins with -1,3-glucanosyltransferase activity. Loss of this activity results in defects in the assembly of the cell wall. We isolated mutants that show a synthetic defect when combined with a gas1 allele in Saccharomyces cerevisiae, and identified nine wild-type genes that rescue this defect. The indispensability of BIG1 and KRE6 for the viability of gas1 cells confirmed the important role of -1,6-glucan in cells that are defective in the processing of -1,3-glucan. The identification of the Wsc1p hypo-osmotic stress sensor and components of the PKC signal transduction pathway in our screen also confirmed that the cell wall integrity response attenuates the otherwise lethal gas1 defect. Unexpectedly, we found that the KEX2 gene is also required for the viability of the gas1 mutant. Kex2p is a Golgi/endosome-membrane-anchored protease that processes secretory preproteins. A cell wall defect was also found in the kex2 mutant, which was suppressible by multiple copies of the MKC7 or YAP3 gene, both of which encode other GPI-anchored proteases. Therefore, normal cell wall assembly requires proteolytic processing of secretory preproteins. Furthermore, the genes CSG2 and IPT1 were found to be required for normal growth of gas1 cells in the presence of 1 M sorbitol. This finding suggests that complex sphingolipids play a role in the hyper-osmotic response.Communicated by C. P. Hollenberg     

Analysis of conserved domains identifies a unique structural feature of a chloroplast heat shock protein

Summary A low molecular weight heat shock protein which localizes to chloroplasts has been identified in several plant species. This protein belongs to a eukaryotic superfamily of small HSPs, all of which contain a conserved carboxyl-terminal domain. To investigate further the structure of this HSP, we isolated and sequenced cDNA clones for the chloroplast LMW HSPs from Petunia hybrida and Arabidopsis thaliana. The cloning of chloroplast HSPs from these two species enabled us to compare the amino acid sequences of this protein from plant species (petunia, Arabidopsis, pea, soybean and maize) that represent evolutionarily divergent taxonomic subclasses. Three conserved regions were identified, which are designated as regions I, II and III. Regions I and II are also shared by cytoplasmic LMW HSPs and therefore are likely to have functional roles common to all eukaryotic LMW HSPs. In contrast, consensus region III is not found in other LMW HSPs. Secondary structure analysis predicts that this region forms an amphipathic -helix with high conservation of methionine residues on the hydrophobic face and 100% conservation of residues on the hydrophilic face. This structure is similar to three helices, termed methionine bristles, which are found in a methionine-rich domain of a 54 kDa protein component of signal recognition particle (SRP54). The conservation of regions I and II among LMW cytoplasmic and chloroplast HSPs suggests that these HSPs perform related functions in different cellular compartments. However, identification of the methionine bristle domain suggests that chloroplast HSPs also have unique functions or substrates within the special environment of the chloroplast or other plastids.Abbreviations HS heat shock - HSP heat shock protein - LMW low molecular weight     

Associational resistance of fouled blue mussels (<Emphasis Type="Italic">Mytilus edulis</Emphasis>) against starfish (<Emphasis Type="Italic">Asterias rubens</Emphasis>) predation: relative importance of structural and chemical properties of the epibionts

Several epibiotic species reduce starfish (Asterias rubens) preference for the blue mussel Mytilus edulis in the Baltic. The aim of this study was to reveal whether this associational resistance was caused by structural or chemical aspects of the different epibionts. To assess structural epibiont effects, an in situ experiment was conducted with unfouled mussels and mussels equipped with artificial epibionts (dummies) exposed to natural predation by A. rubens. The chemically inert dummies closely matched the structural properties of the locally common epibionts Balanus improvisus (barnacle), Ceramium strictum (red alga), Halichondria panicea (sponge), and Laomedea flexuosa (hydrozoan). Starfish fed indiscriminately in all treatments. Chemical effects of epibionts on the attractiveness of mussels for A. rubens were investigated by incorporating freeze-dried epibionts or mussel tissue into Phytagel pellets at natural concentrations. Starfish were allowed to choose among these structurally similar but chemically different prey items in an in vitro experiment. The predators exhibited significant preferences among the food pellets, which closely matched their preferences for corresponding natural mussel–epibiont associations. Thus, chemical aspects of epibionts appear to play a larger role in this associational resistance than do structural aspects. Implications of these indirect interactions for benthic communities are discussed.Communicated by H.-D. Franke     

Involvement of actin filaments in chloroplast division of the algaClosterium ehrenbergii

Summary Studies have been made of whether actin filaments and microtubules are involved in the chloroplast division ofClosterium ehrenbergii (Conjugatae). Fluorostaining with rhodamine-phalloidin showed 5 types of localization of F-actin: (1) cables of actin filaments running in the cortical cytoplasm along the cell's long axis, (2) condensed actin filaments at the septum, (3) perinuclear distribution of actin filaments, (4) F-actins in a marking pin-like configuration adjacent to the nucleus of semicells just before completion of chloroplast kinesis, and (5) actin filaments girdling the isthmus of the constricted and dividing chloroplasts. Cytochalasin D (CD) at a concentration of 6 to 25 M caused significant disruption of actin filaments and the arrest of chloroplast kinesis, nuclear division, septum formation and cytoplasmic streaming within 3 to 6h. Chloroplast kinesis and cytoplasmic streaming recovered when cells were transferred to the medium without CD after CD treatment, or were subjected to prolonged contact with CD for more than 9h. In these cells there was a coincidental reappearance of actin filaments. A tubulin inhibitor, amiprophos-methyl at 330 M, did not inhibit chloroplast kinesis but did inhibit division and positioning of the nucleus. These results suggest that actin filaments do play a role in the mechanism of chloroplast kinesis but that microtubules do not appear to be involved in the process.Abbreviations APM amiprophos-methyl - CD cytochalasin D - DAPI 4,6-diamidino-2-phenylindole - DIC Nomarski differential interference contrast - DMSO dimethyl sulfoxide - Rh-Ph rhodamine-phalloidin     

Evolution of the threonine-glycine repeat region of the period gene in the melanogaster species subgroup of drosophila

Summary The Threonine-Glycine (Thr-Gly) region of the period gene (per) in Drosophila was compared in the eight species of the D. melanogaster subgroup. This region can be divided into a diverged variable-length segment which is flanked by more conserved sequences. The number of amino acids encoded in the variable-length region ranges from 40 in D. teissieri to 69 in D. mauritiana. This is similar to the range found within natural populations of D. melanogaster. It was possible to derive a Thr-Gly allele of one species from that of another by invoking hypothetical Thr-Gly intermediates. A phylogeny based on the more conserved flanking sequences was produced. The results highlighted some of the problems which are encountered when highly polymorphic genes are used to infer phylogenies of closely related species.     

Conservation and change of the developmentally crucial fushi tarazu gene in Drosophila

Summary We have studied the evolutionary changes occurring in the noncoding regions around the developmentally important fushi tarazu (ftz) gene in a total of 11 species in the genus Drosophila. Previous molecular developmental studies have identified DNA elements both 3 and 5 to the coding region which are important in proper regulation of expression of the Drosophila melanogaster ftz gene. We show here that these same elements are the most evolutionarily conserved regions in the vicinity of the gene homologs. Parts of some control elements are more conserved than exonic sequences. Not only is there sequence conservation, but the relative position, orientation, and distances among the control elements remain conserved. One quite significant difference does exist between the two major subgenera studied, Sophophora and Drosophila: namely, an inversion of the ftz unit with respect to other genes in the Antennapedia complex, ANT-C. As a comparison, we applied similar analysis to a housekeeping gene-rosy (ry), or Xdh. In contrast, DNA sequences 5 to the ry coding region revealed little evolutionary conservation. These studies bear out the proposition that functionally important DNA sequences remain more conserved through evolutionary time than do less functionally important sequences. This proposition could be tested in the present case because we could predict a priori from the developmental studies which DNA regions should be most conserved.     

Behavior of mitochondria, microtubules, and actin in the triangular yeastTrigonopsis variabilis

Summary Dimorphic yeastTrigonopsis variabilis is a unique species that can form either an ellipsoidal or a triangular cell depending upon nutritional conditions. This fluorescence microscopic study was intended to correlate morphological changes of mitochondria in the triangular cells with the distribution of the cytoskeleton. In addition, unique features in the behavior of the cytoskeleton were also examined during triangular cell formation. In log-phase cells stained with 4,6-diamidino-2-phenylindole, mitochondrial nucleoids appeared as a string of beads throughout the vegetative growth. The profile of mitochondria stained by 3,3-dihexyloxacarbocyanine iodide showed a network corresponding to the fluorescence images of mitochondrial nucleoids in both mother and daughter cells. Cell-cycle-dependent fragmentation of mitochondria was not discerned. As the culture reached stationary phase, a network of mitochondria gradually changed to form unique rings that were located near the angles of triangular cells. When examined by immunofluorescence microscopy with anti-tubulin antibody, microtubules were found to be well developed along the sides of cells in the cytoplasm ofT. variabilis interphase cells. Although distributions of microtubules and mitochondria are different during cell cycle as a whole, cytoplasmic microtubules frequently extended along a part of the mitochondria in budded cells, suggesting correlation of microtubules and mitochondria. Rhodamine-phalloidin staining revealed both actin patches and cables. Actin cables elongated from mother cells into the buds and showed close proximity to mitochondria, although complete overlapping of both structures was rare. Moreover, actin patches localized on the mitochondrial network at a frequency of 65%. These results suggested that actin cables and patches, as well as microtubules, participated in the distribution of mitochondria. The localization of actin patches separated towards opposite ends at a bud tip when the bud grew to medium size. The unique localization of actin patches is responsible for bi-directional growth of the bud, forming triangular cells.     

Identification of a Golgi-localised GRIP domain protein from<Emphasis Type="Italic"> Arabidopsis thaliana</Emphasis>

A family of Golgi-localised molecules was recently described in animals and fungi possessing extensive coiled regions and a short (~40 residues) conserved C-terminal domain, called the GRIP domain, which is responsible for their location to this organelle. Using the model plant Arabidopsis thaliana, we identified a gene (AtGRIP) encoding a putative GRIP protein. We demonstrated that the C-terminal domain from AtGRIP functions as a Golgi-targeting sequence in plant cells. Localisation studies in living cells expressing the AtGRIP fused to a DsRed2 fluorescent probe, showed extensive co-location with the Golgi marker -mannosidase I in transformed tobacco protoplasts. GRIP-like sequences were also found in genomic databases of rice, maize, wheat and alfalfa, suggesting that this domain may be a useful Golgi marker for immunolocalisation studies. Despite low sequence identity amongst GRIP domains, the plant GRIP sequence was able to target to the Golgi of mammalian cells. Taken together, these data indicate that GRIP domain proteins might be implicated in a targeting mechanism that is conserved amongst eukaryotes.Abbreviations -ManI -Mannosidase I - AtGRIP Arabidopsis GRIP domain protein - GCC Golgi-localized coiled-coil protein - GFP Green fluorescent protein - MES 2-(N-Morpholino)ethanesulfonic acid - TGN Trans-Golgi network     

Apoptosis shifts to necrosis via intermediate types of cell death by a mechanism depending on c-myc and bcl-2 expression

Hypoxic and chemical hypoxia (antimycin A) commits cultured rat fibroblasts (Rat-1) towards apoptosis, necrosis or an intermediate form of cell death (aponecrosis) depending on the degree of hypoxia. Aponecrosis also occurs in vivo. Here, we demonstrate that c-myc and bcl-2, two proto-oncogenes known to lower or to enhance, respectively, the apoptotic threshold, also affect the type of cell death: apoptosis shifts to aponecrosis and aponecrosis to necrosis, depending on c-myc or bcl-2 expression and the antimycin A concentration (100–400 M). In cells with basal gene expression, apoptosis shifts to aponecrosis/necrosis at 300 M antimycin A (middle hypoxia). Overexpression of c-myc markedly increases cumulative cell death in response to antimycin A and lowers the antimycin A concentration required to shift apoptosis to aponecrosis/necrosis from 300 M to 100 M (low hypoxia). Overexpression of bcl-2 elicits the opposite effect, decreasing cumulative cell death in response to antimycin A and raising the drug concentration required to shift apoptosis to aponecrosis/necrosis to 400 M (high hypoxia). The passage from one to the other form of cell death involves various aponecrotic features with observed intermediate aspects between apoptosis and necrosis, a progressive increase in necrotic features being correlated with an increase in antimycin A concentration. The mechanism underlying the various effects of c-myc and bcl-2 on cell-death type has been related to the ability of these genes to counteract, to various extents, the ATP decrease occurring in response to different degrees of chemical hypoxia.The first two authors contributed equally to this workThis work was supported by grants from the Associazione Italiana per la Ricerca sul Cancro (AIRC, Milano), CNR/MIUR (Grant Progetto Finalizzato Oncologia), Ente Cassa di Risparmio di Firenze and Ministero dellIstruzione, dellUniversità e della Ricerca (MIUR, Cofin 2003). Andrea Lapucci is supported by a fellowship from the Federazione Italiana per la Ricerca sul Cancro (FIRC, Milano)     

The location of untranscribed DNA sequences within ras genes essential for eliciting plant growth suppression

Three heterologous ras DNA-coding sequences and their deletion derivatives were introduced into plant cells to investigate the role of the ras-coding sequences, especially conserved regions, in eliciting growth inhibition. All three ras-coding sequences caused a similar inhibition of plant cell growth, and it was the conserved coding regions which were responsible for this inhibitory effect. The 493 bp conserved region within the v-Ha-ras-coding sequence was studied further, and was shown to be responsible for the inhibitory effect. This region is conserved (over 44%) among the three ras genes studied and encodes a catalytic region of the Ras protein. Small deletions at either the 5 or 3 end of this 493 bp sequence could abolish or dramatically reduce the inhibitory effect. A 36 bp region at the 5 end of the 493 bp region was found to be highly conserved between v-Ha-ras and eight different plant ras or ras-related genes based upon analysis of published sequences. Small deletions affecting this highly conserved 36 bp region completely abolished the inhibitory effect, while deletion of a similar number of base pairs in adjacent regions did not. These results indicate that plant growth inhibition by ras DNA requires small regions at both ends of the 493 bp conserved region.     

A Petunia hybrida chloroplast DNA region, close to one of the inverted repeats, shows sequence homology with the Euglena gracilis chloroplast DNA region that carries the putative replication origin

Summary Three distinct chloroplast (cp) DNA fragments from Petunia hybrida, which promote autonomous replication in yeast, were mapped on the chloroplast genome. Sequence analysis revealed that these fragments (called ARS A, B and C) have a high AT content, numerous short direct and inverted repeats and at least one yeast ARS consensus sequence 5A/TTTTATPuTTTA/T, essential for yeast ARS activity. ARS A and B also showed the presence of (semi-)conserved sequences, present in all Chlamydomanas reinhardii cpDNA regions that promote autonomous replication in yeast (ARS sequences) or in C. reinhardii (ARC sequences). A 431 bp BamHI/EcoRI fragment, close to one of the inverted repeats and adjacent to the ARS B subfragment contains an AT-rich stretch of about 100 nucleotides that show extensive homology with an Euglena gracilis cpDNA fragment which is part of the replication origin region. This conserved region contains direct and inverted repeats, stem-and-loop structures can be folded and it contains an ARS consensus sequence. In the near vicinity a GC-rich block is present. All these features make this cpDNA region the best candidate for being the origin of replication of P. hybrida cpDNA.     

A-factor and streptomycin biosynthesis inStreptomyces griseus

Accumulating data have shown that the metabolites with a -butyrolactone ring functions as an autoregulatory factor or a microbial hormone for the expression of various phenotypes not only in a variety ofStreptomyces spp. but also in the distantly related bacteria. A-factor, as a representative of this type of autoregulators, triggers streptomycin biosynthesis and cellular differentiation inStreptomyces griseus. A model for the A-factor regulatory cascade on the basis of recent work is as follows. At an early step in the A-factor regulatory relay, the positive A-factor signal is first received by an A-factor receptor protein that is comparable in every aspect to eukaryotic hormone receptors, and then, via one or more regulatory steps, transmitted to an A-factor-responsive protein that binds to the upstream activation sequence of thestrR gene, a regulatory gene in the streptomycin biosynthetic gene cluster. The StrR protein thus induced appears to activate the other streptomycin biosynthetic genes. This review summarizes the characteristics of A-factor as a microbial hormone and the A-factor regulatory relay leading to streptomycin production.     

Cytoplasmic actin A3 gene promoter injected as supercoiled plasmid is transiently active inBombyx mori embryonic vitellophages

Summary Freshly deposited eggs ofBombyx mori were microinjected with supercoiled plasmid DNA which carried the -galactosidase coding sequence ofEscherichia coli inserted in place of the coding sequence of theB. mori cytoplasmic actin A3 gene. Transient expression of this fusion gene in the embryo was determined by in situ histochemical detection of enzyme activity. After injection of the plasmid at different stages of embryonic development, -galactosidase activity depending on the injected DNA was only detected in the vitellophages. This indicates the presence of active transactivators of the actin A3 gene promoter in this cell type. Tissue specificity of the fusion gene expression could be related to the early polyploidization of vitellophages, a process which would favour the stability of the nuclear pool of injected plasmids. The activity of the transgene in vitellophages was detectable at 24–33 h of egg development, the stage presumed for the onset of zygotic gene expression, up to the end of embryogenesis. This gene transfer system is thus promising to analyse thecis regulatory sequences of the actin A3 gene and could be utilized for other ubiquitous genes. Correspondence to: M. Coulon-Bublex     

Use of oligonucleotide probes to identify members of two-component regulatory systems in Xanthomonas campestris pathovar campestris

Summary Two-component regulatory systems comprising a sensor and a regulator protein, both with highly conserved amino acid domains, and commonly genetically linked, have been described in a range of bacterial species and are involved in sensing environmental stimuli. We used two oligonucleotide probes matching the postulated coding regions for domains of sensor and regulator proteins respectively in Xanthomonas campestris pathovar campestris (Xcc) to identify possible two-component regulatory systems in Xcc. Two different fragments of Xcc DNA with homology to both of these probes were cloned. The DNA sequence of part of one of these fragments encompassed a potential open reading frame (ORF), the predicted amino acid sequence of which had extensive homology with regulator proteins of two-component regulatory systems. Analysis of the predicted amino acid sequence for the 3 end of an adjacent ORF revealed a very high level of homology with the C-terminal end of sensor proteins. Strains of Xcc with Tn5-induced mutations in the regulator gene were affected in extracellular polysaccharide production, and also in resistance to salt and chloramphenicol. No effects of mutation in the second clone were observed.     

Molecular cloning of P-type ATPases on intracellular membranes of the marine alga Heterosigma akashiwo

Two cDNA clones (HAA13 and HAA1) which include conserved regions of genes of P-type ATPases were isolated from the marine alga Heterosigma akashiwo by a method that included the polymerase chain reaction. The longer cDNA (3286 bp), HAA13, consisted of an open reading frame that encoded a 106 kDa polypeptide of 977 amino acids with several possible transmembrane domains and conserved regions of eukaryotic P-type ATPases. One transmembrane domain had a leucine zipper structure. HAA1 was not a full-length gene (2054 bp) and lacked the 5 region, but it also included the conserved regions and putative transmembrane domains. Antibodies against the polypeptides encoded by HAA13 and HAA1 that have been expressed in Escherichia coli reacted with 100 kDa and 95 kDa polypeptides, respectively, on intracellular membranes of H. akashiwo cells. Immunostaining of H. akashiwo cells revealed that the HAA13 antigen was distributed on membranes around chloroplasts and the HAA1 antigen was located on small vesicles.