A repetitive DNA sequence in the salmonid fishes similar to a retroviral long terminal repeat

Summary We describe the characteristics of a repetitive DNA sequence from the rainbow trout and related salmonid fishes that is similar to a retroviral long terminal repeat (LTR). The repeat is 160 bp long and contains a region of homology to the LTR of the avian sarcoma virus. Two clones with this repeat from the chum salmon also have a polypurine tract and tRNA binding site, respectively, and these clones may represent the two LTRs of a retrovirus or retroviral-like repetitive element. Copies of the repeat are also adjacent to rainbow trout and chum salmon protamine genes. These repeats may be solo LTRs. There appears to be some polymorphism in restriction sites between individual rainbow trout and considerable differences between salmonid fish species when the repeat is used as a probe.     

A novel WD40 repeat protein, WDC146, highly expressed during spermatogenesis in a stage-specific manner

We have cloned a novel cDNA encoding a protein with eight WD repeat motifs and a domain similar to collagen. As the predicted size of the protein was 146 kDa, the gene was named WDC146. Here, we characterized the genomic structure, gene products, and the expression profiles. The human WDC146 gene had 22 exons spanning over 105 kb, and these exons were distributed in three islands intervened by two long introns of around 40 kb. A minimum promoter region was identified within a 0.5 kb 5'-upstream region of exon 1. WDC146 mRNA was most highly expressed in human testis on Northern blot analysis. In mouse tissues, the highest expression was also observed in testis. By in situ hybridization on rat tissues, WDC146 mRNA was detected preferentially in the pachytene stage of spermatocytes in testis, and weakly in white pulp/ marginal band of spleen and in cortex of thymus. WDC146 protein was found to be localized in nucleus. These data implied that WDC146 protein may play important roles in the mechanisms of cytodifferentiation and/or DNA recombination.     

A novel ER-derived compartment,the ER body,selectively accumulates a beta-glucosidase with an ER-retention signal in Arabidopsis

The ER body is a novel compartment that is derived from endoplasmic reticulum (ER) in Arabidopsis. In contrast to whole seedlings which have a wide distribution of the ER bodies, rosette leaves have no ER bodies. Recently, we reported that wound stress induces the formation of many ER bodies in rosette leaves, suggesting that the ER body plays a role in the defense system of plants. ER bodies were visualized in transgenic plants (GFP-h) expressing green fluorescent protein (GFP) with an ER-retention signal, HDEL. These were concentrated in a 1000-g pellet (P1) of GFP-h plants. We isolated an Arabidopsis mutant, nai1, in which fluorescent ER bodies were hardly detected in whole plants. We found that a 65-kDa protein was specifically accumulated in the P1 fraction of GFP-h plants, but not in the P1 fraction of nai1 plants. N-terminal peptide sequencing revealed that the 65-kDa protein was a beta-glucosidase, PYK10, with an ER-retention signal, KDEL. Immunocytochemistry showed that PYK10 was localized in the ER bodies. Compared with the accumulation of GFP-HDEL, which was associated with both cisternal ER and ER bodies, the accumulation of PYK10 was much more specific to ER bodies. PYK10 was one of the major proteins in cotyledons, hypocotyls and roots of Arabidopsis seedlings, while PYK10 was not detected in rosette leaves that have no ER bodies. These findings indicated that PYK10 is the main component of ER bodies. It is possible that PYK10 produces defense compounds when plants are damaged by insects or wounding.     

Nucleotide sequence of a rice cDNA similar to a maize NADP-dependent malic enzyme

We have isolated a rice cDNA clone that is homologous to the gene for the maize NADP-dependent malic enzyme (EC 1.1.1.40; NADP-ME). The deduced amino acid sequence coded for by the cDNA indicates a high level of homology to chloroplast type NADP-ME, including a transit peptide with pronounced hydrophobic properties at the amino terminus. Northern blot analysis indicates that the expression of this gene is regulated by external stress such as submergence.     

CYLD,a deubiquitinase specific for lysine63-linked polyubiquitins,accumulates at the postsynaptic density in an activity-dependent manner

Polyubiquitin chains on proteins flag them for distinct fates depending on the type of polyubiquitin linkage. While lysine48-linked polyubiquitination directs proteins to proteasomal degradation, lysine63-linked polyubiquitination promotes different protein trafficking and is involved in autophagy. Here we show that postsynaptic density (PSD) fractions from adult rat brain contain deubiquitinase activity that targets both lysine48 and lysine63-linked polyubiquitins. Comparison of PSD fractions with parent subcellular fractions by Western immunoblotting reveals that CYLD, a deubiquitinase specific for lysine63-linked polyubiquitins, is highly enriched in the PSD fraction. Electron microscopic examination of hippocampal neurons in culture under basal conditions shows immunogold label for CYLD at the PSD complex in approximately one in four synapses. Following depolarization by exposure to high K+, the proportion of CYLD-labeled PSDs as well as the labeling intensity of CYLD at the PSD increased by more than eighty percent, indicating that neuronal activity promotes accumulation of CYLD at the PSD. An increase in postsynaptic CYLD following activity would promote removal of lysine63-polyubiquitins from PSD proteins and thus could regulate their trafficking and prevent their autophagic degradation.     

Monoclonal antibody directed to the stage-specific embryonic antigen (SSEA-1) reacts with branched glycosphingolipid similar in structure to Ii antigen

A monoclonal antibody reacting with early mouse embryos and murine embryonal carcinoma cells (F9) defines the stage-specific embryonic antigen (SSEA-1). We now report that the antigen (SSEA-1) is a complex glycolipid with the branched lacto-N-glycosyl series. Antibody to SSEA-1 reacts strongly with the branched H₄-glycosphingolipid but not with other various glycolipids so far tested. This reactivity was abolished by endo-β-galactosidase treatment. The homogeneous H₄-glycolipid not only reacted with the monoclonal antibody to SSEA-1 but also with antibody to I-(Ma), i-(Dench) and with anti-H specific lectin. Chemical analysis, including methylation, also indicates that the glycolipid antigen had a close resemblance to I-antigen.     

Isolation, characterization and immunolocalization of a novel, modular tomato arabinogalactan-protein corresponding to the LeAGP-1 gene

Arabinogalactan-proteins (AGPs) are a family of hydroxy-proline-rich glycoproteins implicated to function in plant growth and development. This report focuses on a novel, modular AGP found in tomato, LeAGP-1, which was predicted by DNA cloning and herein verified at the protein level as a major AGP component. LeAGP-1 was isolated from tomato suspension-cultured cells and verified to be an AGP by precipitation with (beta-D-galactosyl)3 Yariv phenylglycoside and by amino acid composition analysis. Furthermore, LeAGP-1 was determined to correspond to LeAGP-1 clones based on three criteria: (1) amino acid composition identity, (2) amino acid sequence identity, and (3) specific immunoreactivity of glycosylated and deglycosylated LeAGP-1 with an antibody developed against the highly basic subdomain predicted from LeAGP-1 clones. The antibody was also used to immunolocalize LeAGP-1 in tomato to the cell surface of suspension-cultured cells, maturing metaxylem elements in young internodes and petioles, and stylar transmitting tissue cells. At the subcellular level, LeAGP-1 immunolocalized to the cell walls of these particular cells as well as to intercellular spaces between stylar transmitting tissue cells. LeAGP-1 now emerges as one of the most comprehensively studied AGPs in terms of (1) characterization at the genomic DNA, cDNA and protein levels, (2) known organ-specific and developmentally regulated mRNA expression patterns, (3) development of an antibody against a unique, peptide subdomain which specifically recognizes LeAGP-1 in its glycosylated and deglycosylated states, and (4) immunolocalization of a single, well-defined AGP molecule at the tissue and subcellular levels.     

Developmental stage-specific biosynthesis of glycosylphosphatidylinositol anchors in intraerythrocytic Plasmodium falciparum and its inhibition in a novel manner by mannosamine

Glycosylphosphatidylinositols (GPIs) are the major glycoconjugates in intraerythrocytic stage Plasmodium falciparum. Several functional proteins including merozoite surface protein 1 are anchored to the cell surface by GPI modification, and GPIs are vital to the parasite. Here, we studied the developmental stage-specific biosynthesis of GPIs by intraerythrocytic P. falciparum. The parasite synthesizes GPIs exclusively during the maturation of early trophozoites to late trophozoites but not during the development of rings to early trophozoites or late trophozoites to schizonts and merozoites. Mannosamine, an inhibitor of GPI biosynthesis, inhibits the growth of the parasite specifically at the trophozoite stage, preventing further development to schizonts and causing death. Mannosamine has no effect on the development of either rings to early trophozoites or late trophozoites to schizonts and merozoites. The analysis of GPIs and proteins synthesized by the parasite in the presence of mannosamine demonstrates that the effect is because of the inhibition of GPI biosynthesis. The data also show that mannosamine inhibits GPI biosynthesis by interfering with the addition of mannose to an inositol-acylated GlcN-phosphatidylinositol (PI) intermediate, which is distinctively different from the pattern seen in other organisms. In other systems, mannosamine inhibits GPI biosynthesis by interfering with either the transfer of a mannose residue to the Manalpha1-6Manalpha1-4GlcN-PI intermediate or the formation of ManN-Man-GlcN-PI, an aberrant GPI intermediate, which cannot be a substrate for further addition of mannose. Thus, the parasite GPI biosynthetic pathway could be a specific target for antimalarial drug development.     

Isolation,structure, and activity of GID,a novel alpha 4/7-conotoxin with an extended N-terminal sequence

Using assay-directed fractionation of Conus geographus crude venom, we isolated alpha-conotoxin GID, which acts selectively at neuronal nicotinic acetylcholine receptors (nAChRs). Unlike other neuronally selective alpha-conotoxins, alpha-GID has a four amino acid N-terminal tail, gamma-carboxyglutamate (Gla), and hydroxyproline (O) residues, and lacks an amidated C terminus. GID inhibits alpha 7 and alpha 3 beta 2 nAChRs with IC(50) values of 5 and 3 nm, respectively and is at least 1000-fold less potent at the alpha 1 beta 1 gamma delta, alpha 3 beta 4, and alpha 4 beta 4 combinations. GID also potently inhibits the alpha 4 beta 2 subtype (IC(50) of 150 nm). Deletion of the N-terminal sequence (GID Delta 1-4) significantly decreased activity at the alpha 4 beta 2 nAChR but hardly affected potency at alpha 3 beta 2 and alpha 7 nAChRs, despite enhancing the off-rates at these receptors. In contrast, Arg(12) contributed to alpha 4 beta 2 and alpha 7 activity but not to alpha 3 beta 2 activity. The three-dimensional structure of GID is well defined over residues 4-19 with a similar motif to other alpha-conotoxins. However, despite its influence on activity, the tail appears to be disordered in solution. Comparison of GID with other alpha 4/7-conotoxins which possess an NN(P/O) motif in loop II, revealed a correlation between increasing length of the aliphatic side-chain in position 10 (equivalent to 13 in GID) and greater alpha 7 versus alpha 3 beta 2 selectivity.     

一种可用于分析水稻花药中钙调素蛋白分布的胶体金免疫电镜标记技术

以水稻花药作为实验材料,在前人应用胶体金技术标记钙调素蛋白(Ca M)的基础上,采用Epon812常规包埋方法,并在标记过程及染色体系上做了一些改进,建立了一套标记特异性较强且超微结构保存较好的花药中Ca M的标记方法。     

ZnT7, a novel mammalian zinc transporter,accumulates zinc in the Golgi apparatus

ZnT7, a novel member of the zinc transporter (ZnT) family, was identified by searching the expressed sequence tag (EST) databases with the amino acid sequence of ZnT1. Like the other ZnT proteins, the protein (387 amino acids) predicted from this gene contains six transmembrane domains and a histidine-rich loop between transmembrane domains IV and V. We show that Znt7 is widely transcribed in mouse tissues with abundant expression in the liver and small intestine and moderate expression in the kidney, spleen, brain, and lung. An affinity-purified antibody raised against the amino acids 299-315 of mouse ZnT7 specifically reacted with the proteins with apparent molecular masses of 85, 43, and 65 kDa in small intestine and lung tissues by Western blot analysis. Immunofluorescence microscope analysis reveals that ZnT7 is localized in the Golgi apparatus and cytoplasmic vesicles. Exposure of the ZnT7-expressing Chinese hamster ovary (CHO) cells to zinc causes an accumulation of zinc in the Golgi apparatus, suggesting that ZnT7 facilitates zinc transport from the cytoplasm into the Golgi apparatus.     

Targeted overexpression of Drosophila transglutaminase-B induced characteristic phenotypes in a manner similar to transglutaminase-a

The Drosophila transglutaminase gene (CG7356) encodes two transglutaminases, dTG-A and dTG-B. To understand the roles of dTG-B during the development of the fly, we examined phenotypes induced through ectopic expression of dTG-B. Overexpression of dTG-B induced rough eye and extra wing crossvein phenotypes. These phenotypes were similar to those observed in the case of targeted overexpression of dTG-A.     

A novel calmodulin-like protein gene in rice which has an unusual prolonged C-terminal sequence carrying a putative prenylation site.

A rice cDNA encoding a novel calmodulin-like protein was identified. It has 38 additional amino acids at the C-terminus of a complete, typical calmodulin (CaM) sequence of 149 amino acids. The four C-terminal amino acid residues form a CAAL motif which could be a site for protein prenylation and may subsequently cause the protein to become membrane associated. RT-PCR analysis confirmed that such a combined protein gene truly exists in rice. Sequence analysis of its genomic counterpart showed that there is an intron located at junction of the normal CaM sequence and the 38 C-terminal amino acids. This introduces a potential stop codon for normal CaM if an alternative splicing mechanism is involved. Southern blot analysis of rice genomic DNA revealed that there is only one locus for this gene. The northern blot analysis showed that this gene is highly expressed in rice roots, shoots and flowers. The distribution of this protein demonstrates the functional importance of this novel CaM-like protein in rice.     

Fusidic acid, an immunosuppressive drug with functions similar to cyclosporin A

Fusidic acid, a tetracyclic triterpenoic acid, is used for local and systemic treatment of bacterial infections. Its in vitro effects on the human immune response were tested. Activated blood mononuclear cells released lower levels of interleukin (IL) 1 in the presence of nontoxic and clinically attainable levels of fuscidic acid (15 to 50 micrograms/mL). In contrast, the drug failed to affect the production of two other monocyte-derived cytokines, tumor necrosis factor (TNF)-alpha and IL 6. The production of the T-cell-derived cytokines, IL 2 and interferon-gamma (IFN-gamma), were also suppressed (IC50: 5 to 15 micrograms/mL). The early costimulatory effects of IL 1 and IL 6 on mouse thymocytes and human T cells were suppressed by similar levels of the drug, as was the hybridoma growth-promoting function of IL 6. T-cell proliferation induced by phytohemagglutinin or allogeneic cells was reversibly inhibited (IC50: 15 micrograms/mL). These functions of fusidic acid were strikingly similar to those of cyclosporin A. Because of the low toxicity of the former, it may have a role as a clinically useful suppressor of immunoinflammatory processes.     

Transcriptional potential of the gamma-globin gene is dependent on the CACCC box in a developmental stage-specific manner

To test the role of CACCC box on gamma-globin gene activation, the CACCC box was deleted or mutated and gamma-gene expression was monitored in transgenic mice. Disruption of the CACCC box had no effect on gamma-gene expression in the cells of embryonic erythropoiesis but it strikingly reduced gamma-gene expression in fetal erythropoiesis, and abolished gamma-gene expression in adult erythroid cells. The CACCC mutation diminished HS formation, as well as TBP and polII recruitment at the gamma-gene promoter; however, it only resulted in slight or no effects on histone H3 and H4 acetylation in adult erythropoiesis. Our findings indicate that each basic cis element of the proximal gamma-gene promoter, i.e. CACCC, CCAAT or TATA box, can be disrupted without affecting the activation of gamma gene in embryonic erythroid cells. We propose that the trans factors recruited by the three boxes interact with each other to form a 'promoter complex'. In embryonic erythropoiesis the locus control region enhancer is able to interact with the complex even when components normally binding to one of the motifs are missing, but it can only activate an intact 'promoter complex' in adult erythroid cells.