Curriculum Vitaes

Saito Tamao

  (齊藤 玉緒)

Profile Information

Affiliation
Professor, Faculty of Science and Technology, Department of Materials and Life Sciences, Sophia University
Degree
理学士(北海道大学)
修士(理学)(北海道大学)
博士(理学)(北海道大学)

Contact information
tasaitosophia.ac.jp
Researcher number
30281843
J-GLOBAL ID
200901082725057371
researchmap Member ID
1000200178

(Subject of research)
Molecular biological studies on novel hybrid type polyketide synthase
Chemical Ecology of the Cellular Slime Mould


Papers

 58
  • Salma Zulqaida, Tamao Saito, Chihiro Ito, Yoshiaki Takaya
    BPB Reports, 6(2) 37-42, 2023  Peer-reviewed
  • Tamao Saito, Tomoyuki Iijima, Kohei Koyama, Tomonori Shinagawa, Ayaka Yamanaka, Tsuyoshi Araki, Noriyuki Suzuki, Toyonobu Usuki, Robert R. Kay
    Proceedings of the Royal Society B: Biological Sciences, 289(1983), Sep 28, 2022  Peer-reviewedLead authorCorresponding author
    The soil is a rich ecosystem where many ecological interactions are mediated by small molecules, and in which amoebae are low-level predators and also prey. The social amoeba Dictyostelium discoideum has a high genomic potential for producing polyketides to mediate its ecological interactions, including the unique ‘Steely’ enzymes, consisting of a fusion between a fatty acid synthase and a chalcone synthase. We report here that D. discoideum further increases its polyketide potential by using the StlB Steely enzyme, and a downstream chlorinating enzyme, to make both a chlorinated signal molecule, DIF-1, during its multi-cellular development, and a set of abundant polyketides in terminally differentiated stalk cells. We identify one of these as a chlorinated dibenzofuran with potent anti-bacterial activity. To do this, StlB switches expression from prespore to stalk cells in late development and is cleaved to release the chalcone synthase domain. Expression of this domain alone in StlB null cells allows synthesis of the stalk-associated, chlorinated polyketides. Thus, by altered expression and processing of StlB, cells make first a signal molecule, and then abundant secondary metabolites, which we speculate help to protect the mature spores from bacterial infection.
  • Shiro Tsuyuzaki, Tamao Saito, Risa S. Arakawa
    Mires and Peat, 28, Sep, 2022  Peer-reviewed
  • Elisabeth R. D. Seiler, Kohei Koyama, Tomoyuki Iijima, Tamao Saito, Yuko Takeoka, Masahiro Rikukawa, Masahiro Yoshizawa-Fujita
    polymer, 13(12) 1942-1942, Jun, 2021  Peer-reviewed
    Cellulose is the main component of biomass and is the most abundant biopolymer on earth; it is a non-toxic, low-cost material that is biocompatible and biodegradable. Cellulose gels are receiving increasing attention as medical products, e.g., as wound dressings. However, the preparation of cellulose hydrogels employing unmodified cellulose is scarcely reported because of the cumbersome dissolution of cellulose. In previous studies, we developed the new promising cellulose solvent N-butyl-N-methylpyrrolidinium hydroxide in an aqueous solution, which can dissolve up to 20 wt% cellulose within a short time at room temperature. In this study, we employed this solvent system and investigated the gelation behavior of cellulose after crosslinker addition. The swelling behavior in water (swelling ratio, water uptake), the mechanical properties under compression, and the antibacterial activity against Escherichia coli and Bacillus subtilis were investigated. We have developed a simple and fast one-pot method for the preparation of cellulose gels, in which aqueous pyrrolidinium hydroxide solution was acting as the solvent and as an antibacterial reagent. The pyrrolidinium hydroxide content of the gels was controlled by adjustment of the water volume employed for swelling. Simple recovery of the solvent system was also possible, which makes this preparation method environmentally benign.
  • Suzuki Nobuhiro, Arakawa Risa, S. Taguchi Naoyuki, Sim Joongeun, Katsurashima Sayaka, Kiyono Hanako, Kimura Nobutada, Kikawada Yoshikazu, Kanzawa Nobuyuki, Saito Tamao
    Wetland Research, 10 37-46, Aug 10, 2020  Peer-reviewed
  • T. Jiang, T. Saito, S. Nanbu
    Bull. Chem. Soc. Jpn., 92 1436-1443, Sep 15, 2019  Peer-reviewed
  • Kondo,A, Narita,TB, Murata, C, Ogura,T, AMikagi, A, Usuki, T, Saito, T
    Current Microbiology, 76 376-381, Feb 1, 2019  Peer-reviewedCorresponding author
  • Yumiko F. Saito, Saki H. Miyazaki, Derek G. Bartlem, Yukio Nagamatsu, Tamao Saito
    PLOS one, 13(9) e0204671., Sep 27, 2018  Peer-reviewedCorresponding author
  • Tomokazu Ito, Natsuki Hamauchi, Taisuke Hagi, Naoya Morohashi, Hisashi Hemmi, Yukie G. Sato, Tamao Saito, Tohru Yoshimura
    Frontiers in Microbiology, 9(784), Apr 24, 2018  Peer-reviewed
    In mammals, D-Ser is synthesized by serine racemase (SR) and degraded by D-amino acid oxidase (DAO). D-Ser acts as an endogenous ligand for N-methyl-D-aspartate (NMDA)- and d2 glutamate receptors, and is involved in brain functions such as learning and memory. Although SR homologs are highly conserved in eukaryotes, little is known about the significance of D-Ser in non-mammals. In contrast to mammals, the slime mold Dictyostelium discoideum genome encodes SR, DAO, and additionally D-Ser specific degradation enzyme D-Ser dehydratase (DSD), but not NMDA- and d2 glutamate receptors. Here, we studied the significances of D-Ser and DSD in D. discoideum. Enzymatic assays demonstrated that DSD is 460- and 1,700-fold more active than DAO and SR, respectively, in degrading D-Ser. Moreover, in dsd-null cells D-Ser degradation activity is completely abolished. In fact, while in wild-type D. discoideum intracellular D-Ser levels were considerably low, dsd-null cells accumulated D-Ser. These results indicated that DSD but not DAO is the primary enzyme responsible for D-Ser decomposition in D. discoideum. We found that dsd-null cells exhibit delay in development and arrest at the early culmination stage. The efficiency of spore formation was considerably reduced in the mutant cells. These phenotypes were further pronounced by exogenous D-Ser but rescued by plasmid-borne expression of dsd. qRT-PCR analysis demonstrated that mRNA expression of key genes in the cAMP signaling relay is perturbed in the dsd knockout. Our data indicate novel roles for D-Ser and/or DSD in the regulation of cAMP signaling in the development processes of D. discoideum.
  • Takaaki B. Narita, Pauline Schaap, Tamao Saito
    FEMS MICROBIOLOGY LETTERS, 364(4), 2017  Peer-reviewed
    The polyketide MPBD (4-methyl-5-pentylbenzene-1, 3-diol) is produced by the polyketide synthase SteelyA (StlA) in Dictyostelium discoideum. MPBD is required for appropriate expression of cAMP signalling genes involved in cell aggregation and additionally induces the spore maturation at the fruiting body stage. The MPBD signalling pathway for regulation of cell aggregation is unknown, but MPBD effects on sporulation were reported to be mediated by the G-protein coupled receptor CrlA in D. discoideum KAx3. In this study, we deleted the crlA gene from the same parental strain (Ax2) that was used to generate the MPBD-less mutant. We found that unlike the MPBD-less mutant, Ax2-derived crlA(-) mutants exhibited normal cell aggregation, indicating that in Ax2 MPBD effects on early development do not require CrlA. We also found that the Ax2/crlA(-) mutant formed normal spores in fruiting bodies. When transformed with PkaC, both Ax2 and Ax2/crlA-similarly responded to MPBD in vitro with spore encapsulation. Our data make it doubtful that CrlA acts as the receptor for MPBD signalling during the development of D. discoideum Ax2.
  • Hang GW. Takahashi, WS. Liu, H, Saito T, Kiumura N
    Journal of Water Resource and Protection, 8 1090-1102, Nov 2, 2016  Peer-reviewed
  • Yukie G. Sato, Teresa Suarez, Tamao Saito
    BIOSCIENCE BIOTECHNOLOGY AND BIOCHEMISTRY, 80(7) 1368-1374, Jul, 2016  Peer-reviewedCorresponding author
    Polyketides induce prestalk cell differentiation in Dictyostelium. In the double-knockout mutant of the SteelyA and B polyketide synthases, most of the pstA cellsthe major part of the prestalk cellsare lost, and we show by whole mount in situ hybridization that expression of prestalk genes is also reduced. Treatment of the double-knockout mutant with the PKS inhibitor cerulenin gave a further reduction, but some pstA cells still remained in the tip region, suggesting the existence of a polyketide-independent subtype of pstA cells. The double-knockout mutant and cerulenin-treated parental Ax2 cells form fruiting bodies with fragile, single-cell layered stalks after cerulenin treatment. Our results indicate that most pstA cells are induced by polyketides, but the pstA cells at the very tip of the slug are induced in some other way. In addition, a fruiting body with a single-cell layered, vacuolated stalk can form without polyketides.
  • Chihiro Murata, Tetsuhiro Ogura, Shuhei Narita, Anna P. Kondo, Natsumi Iwasaki, Tamao Saito, Toyonobu Usuki
    BIOORGANIC & MEDICINAL CHEMISTRY LETTERS, 26(5) 1428-1433, Mar, 2016  Peer-reviewed
    4-Methyl-5-pentylbenzene-1,3-diol (MPBD) is a secondary metabolite of SteelyA polyketide synthase, which controls cell aggregation and spore maturation of Dictyostelium discoideum. In this study, chemical synthesis of MPBD and its derivatives was achieved. Structure-activity relationship (SAR) studies for antimicrobial activities against Escherichia coli and Bacillus subtilis were also conducted. (C) 2016 Elsevier Ltd. All rights reserved.
  • Takuhiro Shida, Ai Fukuda, Tamao Saito, Hidetaka Ito, Atsushi Kato
    PLANT PHYSIOLOGY AND BIOCHEMISTRY, 92 62-70, Jul, 2015  Peer-reviewed
    AtRBP1 is an RNA-binding protein containing RNA-recognition motifs in Arabidopsis thaliana, homologues of which are not observed in metazoa. Transgenic plants expressing artificial microRNAs for repressing AtRBP1 expression displayed a stunted primary root phenotype during germination. Transgenic plants overexpressing AtRBP1 also displayed the same phenotype. Tight regulation of the AtRBP1 transcript may be required for normal root growth. An in vitro binding assay showed that AtRBP1 preferentially binds to sequences containing UUAGG, GUAGG and/or UUAGU. In vivo selection of RNAs bound to AtRBP1 suggests that transcripts of At3g06780, At4g15910, At5g11760 and At5g07350 are target RNAs of AtRBP1. (C) 2015 Elsevier Masson SAS. All rights reserved.
  • Hiroaki Kato, Yoshibumi Komeda, Tamao Saito, Hidetaka Ito, Atsushi Kato
    GENES & GENETIC SYSTEMS, 90(3) 163-174, Jun, 2015  Peer-reviewed
    The acaulis2 (acl2) mutant of Arabidopsis thaliana shows a defect in flower stalk elongation. We identified the mutation point of acl2 by map-based cloning. The ACL2 locus is located within an approximately 320-kb region at around 100 map units on chromosome 1. One nucleotide substitution was detected in this region in the acl2 mutant, but no significant open reading frames were found around this mutation point. When wild-type DNA fragments containing the mutation point were introduced into acl2 mutant plants, some transgenic plants partially or almost completely recovered from the defect in flower stalk elongation. 3'-RACE experiments showed that bidirectional transcripts containing the acl2 mutation point were expressed, and the Plant MPSS database revealed that several small RNAs were produced from this region. Microarray analysis showed that transcription of many genes is activated in flower stalks of acl2 mutant plants. Overexpression of some of these genes caused a dwarf phenotype in wild-type plants. These results suggest the following novel mechanism for control of the elongation of flower stalks. Bidirectional non-coding RNAs are transcribed from the ACL2 locus, and small RNAs are generated from them in flower stalks. These small RNAs repress the transcription of a set of genes whose expression represses flower stalk elongation, and flower stalks are therefore fully elongated.
  • Takaaki B. Narita, Zhi-hui Chen, Pauline Schaap, Tamao Saito
    PLOS ONE, 9(9) e106634, Sep, 2014  Peer-reviewedCorresponding author
    Background: In our previous study we found that the expression of stlA showed peaks both in the early and last stages of development and that a product of SteelyA, 4-methyl-5-pentylbenzene-1,3-diol (MPBD), controlled Dictyostelium spore maturation during the latter. In this study we focused on the role of SteelyA in early stage development. Principal Findings: Our stlA null mutant showed aggregation delay and abnormally small aggregation territories. Chemotaxis analysis revealed defective cAMP chemotaxis in the stlA null mutant. cAMP chemotaxis was restored by MPBD addition during early stage development. Assay for cAMP relay response revealed that the stlA null mutant had lower cAMP accumulation during aggregation, suggesting lower ACA activity than the wild type strain. Exogenous cAMP pulses rescued the aggregation defect of the stlA null strain in the absence of MPBD. Expression analysis of cAMP signalling genes revealed lower expression levels in the stlA null mutant during aggregation. Conclusion: Our data indicate a regulatory function by SteelyA on cAMP signalling during aggregation and show that SteelyA is indispensable for full activation of ACA.
  • Hiroaki Kato, Tamao Saito, Hidetaka Ito, Yoshibumi Komeda, Atsushi Kato
    JOURNAL OF PLANT PHYSIOLOGY, 171(6) 382-388, Mar, 2014  Peer-reviewed
    The Arabidopsis genome encodes various proteins with a Toll/interleukin-1 receptor (TIR) domain. Many of these proteins also contain nucleotide-binding site (NBS) and leucine-rich repeat (LRR) domains and function as resistance (R) proteins. However, the protein encoded by At2g32140 (a TIR-X gene) contains a TIR domain but lacks NBS and LRR domains. We found that transgenic plants overexpressing At2g32140 displayed a dwarf phenotype and showed increased expression of defense-related genes. In general, the growth defect caused by activation of defense responses is suppressed under high-temperature conditions. However, transgenic plants overexpressing At2g32140 displayed a much stronger dwarf phenotype at 28 degrees C than at 22 degrees C. This dwarf phenotype was suppressed under the combination with known salicylic-acid pathway mutants. These findings suggest that At2g32140 encodes a protein involved in the plant defense response. (C) 2013 Elsevier GmbH. All rights reserved.
  • Takaaki B. Narita, Takahiro W. Kikukawa, Yukie G. Sato, Saki H. Miyazaki, Naoki Morita, Tamao Saito
    JOURNAL OF OLEO SCIENCE, 63(3) 281-289, Mar, 2014  Peer-reviewedCorresponding author
    Fatty acids are fundamental cellular components, and provide essential building blocks for membrane biosynthesis. Although the use of gene knockout mutants is a robust method for examining the function of specific cellular metabolic networks, fatty acid synthase knockout mutants are extremely difficult to isolate. In the Dictyostelium discoideum genome, we found two putative fatty acid synthase genes, and we created a knockout mutant for one of them to examine the physiological consequences. In this study, we found that a continuous fatty acid supply was necessary for normal development, and the fatty acid synthase knockout mutant showed severe developmental delay. This developmental defect was corrected in chimeras composed of wild type cells and knockout mutant cells (3:7, respectively). The knockout mutant also showed aberrant expression of fatty acid biosynthesis genes. These results showed that D. discoideum needs correct fatty acid synthesis for normal development.
  • Yukie G. Sato, Haruna N. Kagami, Takaaki B. Narita, Masashi Fukuzawa, Tamao Saito
    Bioscience, Biotechnology and Biochemistry, 77(10) 2008-2012, 2013  Peer-reviewedCorresponding author
    4-Methyl-5-pentylbenzene-1,3-diol (MPBD), a product of SteelyA enzyme, controls Dictyostelium spore maturation. Since the expression of stlA split the in early and terminal stages, we cannot exclude the possibility that MPBD regulates spore differentiation from the early stage by creating a bias between the cells. 1-(3,5- Dichloro-2,6-dihydroxy-4-methoxyphenyl) hexan-1-on (DIF-1), a product of SteelyB, was identified as the major stalk cell inducer by in vitro assay, but in vivo assay revealed that DIF-1 induces only prestalkB (pstB) and prestalkO (pstO) cells and, that the major prestalkA (pstA) cells differentiated without DIF-1. In order to determine mechanism of polyketide regulated pattern formation, we examined the spatial expression patterns of prestalk and prespore markers in stlA and stlB knockout mutants. We found that MPBD regulates spore maturation at the culmination stage. We also found that the stlA and stlB double-knockout mutant lost pstA marker gene expression.
  • Kazunori A. Motohashi, Naoki Morita, Atsushi Kato, Tamao Saito
    Bioscience, Biotechnology and Biochemistry, 76(9) 1672-1676, 2012  Peer-reviewedCorresponding author
    The signalling molecule 1-(3,5-dichloro-2,6-dihydroxy- 4-methoxyphenyl) hexan-1-one (DIF-1) is required for differentiation and pattern formation in Dictyostelium discoideum development. DIF-1 is synthesized by three enzymes, a hybrid polyketide synthase, a flavin-dependent halogenase, and a des-methyl-DIF-1 methyltransferase. The genome data on the related species D. purpureum are now public. Using this genome information, des-methyl-DIF-1 methyltransferase of D. purpureum was identified, and was named Dp dmtA. Overexpression of Dp dmtA complemented the defects in basal disc formation and lower cup formation in a dmtA knock-out mutant of D. discoideum. This indicates that Dp dmtA has the same function as D. discoideum dmtA and compensates for loss of the dmtA gene in the D. discoideum dmtA mutant. The materials released in the medium by D. purpureum contained stalk-inducing activity with the same retention time as that of DIF-1 in HPLC fractionation. This indicates that the stalk-inducing signal of DIF-1 and des-methyl-DIF-1 methyltransferase are conserved in D. purpureum.
  • Hiroaki Kato, Takuhiro Shida, Yoshibumi Komeda, Tamao Saito, Atsushi Kato
    JOURNAL OF PLANT BIOLOGY, 54(3) 172-179, Jun, 2011  Peer-reviewed
    The protein encoded by the activated disease resistance 1-like1 (ADR1-L1) gene (locus name, At4g33300) belongs to the activated disease resistance 1 (ADR1) family of coiled-coil nucleotide-binding site leucine-rich repeat-type disease resistance proteins. This family contains four proteins and they have specific features in their amino acid sequences. It has been reported that ADR1 protein belongs to the ADR1 family, which is related to not only defense response but also drought tolerance. We found that transgenic plants overexpressing the ADR1-L1 gene showed a dwarf phenotype and morphological change in leaves. The expression levels of defense-related genes and the resistance to Pseudomonas syringae pv. tomato DC3000 were increased in transgenic plants. However, enhancement of drought tolerance and activation of abiotic response genes were not observed. When the growth temperature was changed from 22A degrees C to 28A degrees C, the expression of defense-related genes and the enhancement of resistance to a bacterial pathogen were suppressed and the dwarf phenotype and morphological change of leaves recovered.
  • Takaaki B. Narita, Kota Koide, Naoki Morita, Tamao Saito
    FEMS MICROBIOLOGY LETTERS, 319(1) 82-87, Jun, 2011  Peer-reviewedCorresponding author
    The genome of Dictyostelium contains two novel hybrid-type polyketide synthases (PKSs) known as 'Steely'; the Steely enzyme is formed by the fusion of type I and type III PKSs. One of these enzymes, SteelyB, is known to be responsible for the production of the stalk cell-inducing factor DIF-1 in vivo. On the other hand, the product(s) and expression pattern of SteelyA are not clearly understood, because there are two different reports associated with the in vitro products of SteelyA and its expression pattern. To solve this problem, we first examined the expression pattern using two different primer sets and found that it was quite similar to that shown in the dictyExpress database. stlA expression peaked at approximately 3 h and declined, but showed a small peak around the end of development. Next, we examined the in vivo product of SteelyA using a stlA null mutant and found that the mutant lacked 4-methyl-5-pentylbenzene-1,3-diol (MPBD). This null mutant showed aberrant, glassy sori, and most of the cells in the sori remained amoeba-like without a cell wall. This defect was restored by adding 200 nM of MPBD to the agar. These results indicate that SteelyA produces MPBD in vivo and induces spore maturation.
  • Richard Sucgang, Alan Kuo, Xiangjun Tian, William Salerno, Anup Parikh, Christa L. Feasley, Eileen Dalin, Hank Tu, Eryong Huang, Kerrie Barry, Erika Lindquist, Harris Shapiro, David Bruce, Jeremy Schmutz, Asaf Salamov, Petra Fey, Pascale Gaudet, Christophe Anjard, M. Madan Babu, Siddhartha Basu, Yulia Bushmanova, Hanke van der Wel, Mariko Katoh-Kurasawa, Christopher Dinh, Pedro M. Coutinho, Tamao Saito, Marek Elias, Pauline Schaap, Robert R. Kay, Bernard Henrissat, Ludwig Eichinger, Francisco Rivero, Nicholas H. Putnam, Christopher M. West, William F. Loomis, Rex L. Chisholm, Gad Shaulsky, Joan E. Strassmann, David C. Queller, Adam Kuspa, Igor V. Grigoriev
    GENOME BIOLOGY, 12(2) R20, 2011  Peer-reviewed
    Background: The social amoebae (Dictyostelia) are a diverse group of Amoebozoa that achieve multicellularity by aggregation and undergo morphogenesis into fruiting bodies with terminally differentiated spores and stalk cells. There are four groups of dictyostelids, with the most derived being a group that contains the model species Dictyostelium discoideum. Results: We have produced a draft genome sequence of another group dictyostelid, Dictyostelium purpureum, and compare it to the D. discoideum genome. The assembly (8.41 x coverage) comprises 799 scaffolds totaling 33.0 Mb, comparable to the D. discoideum genome size. Sequence comparisons suggest that these two dictyostelids shared a common ancestor approximately 400 million years ago. In spite of this divergence, most orthologs reside in small clusters of conserved synteny. Comparative analyses revealed a core set of orthologous genes that illuminate dictyostelid physiology, as well as differences in gene family content. Interesting patterns of gene conservation and divergence are also evident, suggesting function differences; some protein families, such as the histidine kinases, have undergone little functional change, whereas others, such as the polyketide synthases, have undergone extensive diversification. The abundant amino acid homopolymers encoded in both genomes are generally not found in homologous positions within proteins, so they are unlikely to derive from ancestral DNA triplet repeats. Genes involved in the social stage evolved more rapidly than others, consistent with either relaxed selection or accelerated evolution due to social conflict. Conclusions: The findings from this new genome sequence and comparative analysis shed light on the biology and evolution of the Dictyostelia.
  • Hiroaki Kato, Taizo Motomura, Yoshibumi Komeda, Tamao Saito, Atsushi Kato
    JOURNAL OF PLANT PHYSIOLOGY, 167(7) 571-577, 2010  Peer-reviewed
    NAC proteins comprise one of the largest families of transcription factors in the plant genome. They are known to be involved in various aspects of plant development, but the functions of most of them have not yet been determined. ANAC036, a member of the Arabidopsis NAC transcription factor family, contains unique sequences that are conserved among various NAC proteins found in other plant species. Expression analysis of the ANAC036 gene indicated that this gene was strongly expressed in leaves. Transgenic plants overexpressing the ANAC036 gene showed a semidwarf phenotype. The lengths of leaf blades, petioles and stems of these plants were smaller than those in wild-type plants. Microscopy revealed that cell sizes in leaves and stems of these plants were smaller than those in wild-type plants. These findings suggested that ANAC036 and its orthologues are involved in the growth of leaf cells. (C) 2009 Elsevier GmbH. All rights reserved.
  • Jean-Paul Rieu, Tamao Saito, Héléne Delanoë-Ayari, Yasuji Sawada, Robert R. Kay
    Cell Motility and the Cytoskeleton, 66(12) 1073-1086, Dec, 2009  Peer-reviewed
    The collective motion of cells in a biological tissue originates from their individual responses to chemical and mechanical signals. The Dictyostelium slug moves as a collective of up to 100,000 cells with prestalk cells in the anterior 10-30% and prespore cells, intermingled with anterior-like cells (AL cells), in the posterior.We used traction force microscopy to measure the forces exerted by migrating slugs. Wild-type slugs exert frictional forces on their substratum in the direction of motion in their anterior, balanced by motive forces dispersed down their length. StlB2 mutants lack the signal molecule DIF-1 and hence a subpopulation of AL cells. They produce little if any motive force in their rear and immediately break up. This argues that AL cells, but not prespore cells, are the motive cells in the posterior zone. Slugs also exert large outward radial forces, which we have analyzed during "looping" movement. Each time the anterior touches down after a loop, the outward forces rapidly develop, approximately normal to the almost stationary contact lines. We postulate that these forces result from the immediate binding of the sheath to the substratum and the subsequent application of outward "pressure," which might be developed in several different ways. © 2009 Wiley-Liss, Inc.
  • Atsushi Kato, Hiroaki Kato, Takuhiro Shida, Tamao Saito, Yoshibumi Komeda
    JOURNAL OF PLANT BIOLOGY, 52(6) 616-624, Dec, 2009  Peer-reviewed
    Comparative analysis of nucleotide sequences of the genomic region located around 100 map unit of chromosome 1 using two accessions, Columbia (Col) and Landsberg erecta (Ler), of Arabidopsis thaliana was performed. High divergence was detected between them, and the length of the Ler sequence was half of corresponding sequence of Col. This divergence occurred by tandem duplication, deletion of large regions, and insertion of unrelated sequences. These events led to the high polymorphism of plant disease resistant genes, which are located in the analyzed region. It is highly probable that two-round duplication occurred, and the insertion sequences are transposable elements. The data suggest that the analyzed region had been evolving until quite recently.
  • Tamao Saito, Atsushi Kato, Robert R. Kay
    DEVELOPMENTAL BIOLOGY, 317(2) 444-453, May, 2008  Peer-reviewed
    The polyketide DIF-1 induces Dictyostelium amoebae to fonn stalk cells in culture. To better define its role in normal development, we examined the phenotype of a mutant blocking the first step of DIF-1 synthesis, which lacks both DIF-1 and its biosynthetic intermediate, dM-DIFI (des-methyl-DIF-1). Slugs of this polyketide synthase mutant (stIB(-)) are long and thin and rapidly break up, leaving an immotile prespore mass. They have similar to 30% fewer prestalk cells than their wild-type parent and lack a subset of anterior-like cells, which later form the outer basal disc. This structure is missing from the fruiting body, which perhaps in consequence initiates culmination along the substratum. The lower cup is rudimentary at best and the spore mass, lacking support, slips down the stalk. The dnitA(-) methyltransferase mutant, blocked in the last step of DIF-1 synthesis, resembles the stlB(-) mutant but has delayed tip formation and fewer prestalk-O cells. This difference may be due to accumulation of dM-DIF-1 in the dintA(-) mutant, since dM-DIF-1 inhibits prestalk-O differentiation. Thus, DIF-1 is required for slug migration and specifies the anterior-like cells forming the basal disc and much of the lower cup; significantly the DIF-1 biosynthetic pathway may supply a second signal - dM-DIF-1. (C) 2008 Elsevier Inc. All rights reserved.
  • Michael B. Austin, Tamao Saito, Marianne E. Bowman, Stephen Haydock, Atsushi Kato, Bradley S. Moore, Robert R. Kay, Joseph P. Noel
    NATURE CHEMICAL BIOLOGY, 2(9) 494-502, Sep, 2006  Peer-reviewed
    Differentiation-inducing factors (DIFs) are well known to modulate formation of distinct communal cell types from identical Dictyostelium discoideum amoebas, but DIF biosynthesis remains obscure. We report complimentary in vivo and in vitro experiments identifying one of two similar to 3,000-residue D. discoideum proteins, termed ` steely', as responsible for biosynthesis of the DIF acylphloroglucinol scaffold. Steely proteins possess six catalytic domains homologous to metazoan type I fatty acid synthases (FASs) but feature an iterative type III polyketide synthase (PKS) in place of the expected FAS C-terminal thioesterase used to off load fatty acid products. This new domain arrangement likely facilitates covalent transfer of steely N-terminal acyl products directly to the C-terminal type III PKS active sites, which catalyze both iterative polyketide extension and cyclization. The crystal structure of a steely C-terminal domain confirms conservation of the homodimeric type III PKS fold. These findings suggest new bioengineering strategies for expanding the scope of fatty acid and polyketide biosynthesis.
  • T Saito, GW Taylor, JC Yang, D Neuhaus, D Stetsenko, A Kato, RR Kay
    BIOCHIMICA ET BIOPHYSICA ACTA-GENERAL SUBJECTS, 1760(5) 754-761, May, 2006  Peer-reviewed
    Developing Dictyostelitium discoideum amoebae form a stalked fruiting body in which individual cells differentiate into either stalk cells or spores. The major known inducer of stalk cell differentiation is the chlorinated polyketide DIF-1 (1-(3,5-dichloro-2,6-dihydroxy-4-methoxyphenyl)hexan-1-one); however a mutant blocked in the terminal step of DIF-1 biosynthesis still produces one of the prestalk cell subtypes - the pstA cells - as well as some mature stalk cells. We therefore searched for additional stalk cell-inducing factors in the medium supporting development of this mutant. These factors were purified by solvent extraction and HPLC and identified by mass spectroscopy and NMR. The mutant lacked detectable DIF-2 and DIF-3 (the pentanone and deschloro homologues of DIF-1) but four major stalk cell-inducing activities were detected, of which three were identified. Two compounds were predicted intermediates in DIF-1 biosynthesis: the desmethyl, and desmethyl-monochloro analogues of DIF-1 (dM-DIF-1 and Cl-THPH, respectively), supporting the previously proposed pathway of DIF-1 biosynthesis. The third compound was a novel factor and was identified as 4-methyl-5-pentylbenzene-1,3-diol (MPBD) with the structure confirmed by chemical synthesis. To investigate the potential roles of these compounds as signal molecules, their effects on morphological stalk and spore differentiation were examined in cell culture. All three induced morphological stalk cell differentiation. We found that synthetic MPBD also stimulated spore cell differentiation. Now that these factors are known to be produced and released during development, their biological roles can be pursued further. (c) 2005 Elsevier B.V. All rights reserved.
  • L Eichinger, JA Pachebat, G Glockner, MA Rajandream, R Sucgang, M Berriman, J Song, R Olsen, K Szafranski, Q Xu, B Tunggal, S Kummerfeld, M Madera, BA Konfortov, F Rivero, AT Bankier, R Lehmann, N Hamlin, R Davies, P Gaudet, P Fey, K Pilcher, G Chen, D Saunders, E Sodergren, P Davis, A Kerhornou, Nie, X, N Hall, C Anjard, L Hemphill, N Bason, P Farbrother, B Desany, E Just, T Morio, R Rost, C Churcher, J Cooper, S Haydock, N van Driessche, A Cronin, Goodhead, I, D Muzny, T Mourier, A Pain, M Lu, D Harper, R Lindsay, H Hauser, K James, M Quiles, MM Babu, T Saito, C Buchrieser, A Wardroper, M Felder, M Thangavelu, D Johnson, A Knights, H Loulseged, K Mungall, K Oliver, C Price, MA Quail, H Urushihara, J Hernandez, E Rabbinowitsch, D Steffen, M Sanders, J Ma, Y Kohara, S Sharp, M Simmonds, S Spiegler, A Tivey, S Sugano, B White, D Walker, J Woodward, T Winckler, Y Tanaka, G Shaulsky, M Schleicher, G Weinstock, A Rosenthal, EC Cox, RL Chisholm, R Gibbs, WF Loomis, M Platzer, RR Kay, J Williams, PH Dear, AA Noegel, B Barrell, A Kuspa
    NATURE, 435(7038) 43-57, May, 2005  Peer-reviewed
    The social amoebae are exceptional in their ability to alternate between unicellular and multicellular forms. Here we describe the genome of the best-studied member of this group, Dictyostelium discoideum. The gene-dense chromosomes of this organism encode approximately 12,500 predicted proteins, a high proportion of which have long, repetitive amino acid tracts. There are many genes for polyketide synthases and ABC transporters, suggesting an extensive secondary metabolism for producing and exporting small molecules. The genome is rich in complex repeats, one class of which is clustered and may serve as centromeres. Partial copies of the extrachromosomal ribosomal DNA ( rDNA) element are found at the ends of each chromosome, suggesting a novel telomere structure and the use of a common mechanism to maintain both the rDNA and chromosomal termini. A proteome-based phylogeny shows that the amoebozoa diverged from the animal - fungal lineage after the plant - animal split, but Dictyostelium seems to have retained more of the diversity of the ancestral genome than have plants, animals or fungi.
  • A Kato, M Endo, H Kato, T Saito
    PLANT SCIENCE, 168(4) 981-986, Apr, 2005  Peer-reviewed
    The AtRE1retrotransposon of Arabidopsis thaliana is transcribed in both directions and the amount of sense RNA is much less than that of antisense RNA. The characterization of one cDNA derived from an antisense transcript showed that the antisense RNA is complementary to one half of the open reading frame and 5'-LTR. In order to study the function of this antisense RNA, we characterized the promoter activity for the antisense transcript. Primer extension analysis indicated that the antisense RNA is produced from an internal promoter and indicated the possibility of a plural initiation site of transcription. Promoter analysis using beta-glucuronidase (GUS) gene as a reporter gene showed that the promoter sequence is localized within an approximately 200 bp region upstream from initiation sites of antisense RNA. However, no typical promoter sequences were detected in this region. Histochemical staining of GUS activity indicated that antisense RNAs are transcribed in pollens and actively proliferative regions of calluses. This result suggests that the expression of AtRE1 is repressed by antisense RNA but this mechanism functions in only limited organs. (c) 2004 Elsevier Ireland Ltd. All rights reserved.
  • T Saito, A Kato, H Ochiai, N Morita
    MICROBIOLOGY-SGM, 151(1) 113-119, Jan, 2005  Peer-reviewed
    Membrane fluidity is critical for proper membrane function and is regulated in part by the proportion of unsaturated fatty acids present in membrane lipids. The proportion of these lipids in turn varies with temperature and may contribute to temperature adaptation in poikilothermic organisms. The fundamental question posed in this study was whether the unsaturation of fatty acids contributes to the ability to adapt to temperature stress in Dictyostelium. First, fatty acid composition was analysed and it was observed that the relative proportions of dienoic acids changed with temperature. To investigate the role of dienoic fatty acids in temperature adaptation, null mutants were created in the two known Delta5 fatty acid desaturases (FacA and FadB) that are responsible for the production of dienoic fatty acids. The fadB null mutant showed no significant alteration in fatty acid composition or in phenotype. However, the disruption of tadA resulted in a large drop in dienoic fatty acid content from 51(.)2 to 4(.)1% and a possibly compensatory increase in monoenoic fatty acids (40(.)9-92(.)4%). No difference was detected in temperature adaptation with that of wild-type cells during the growth phase. However, surprisingly, mutant cells developed more efficiently than the wild-type at elevated temperatures. These results show that the fatty acid composition of Dictyostelium changes with temperature and suggest that the regulation of dienoic fatty acid synthesis is involved in the development of Dictyostelium at elevated temperatures, but not during the growth phase.
  • H Urushihara, T Morio, T Saito, Y Kohara, E Koriki, H Ochiai, M Maeda, JG Williams, Takeuchi, I, Y Tanaka
    NUCLEIC ACIDS RESEARCH, 32(5) 1647-1653, Mar, 2004  Peer-reviewed
    Dictyostelium is a favored model for studying problems in cell and developmental biology. To comprehend the genetic potential and networks that direct growth and multicellular development, we are performing a large-scale analysis of Dictyostelium cDNAs. Here, we newly determine 7720 nucleotide sequences of cDNAs from the multicellular, slug stage (S) and 10 439 from the unicellular, vegetative stage (V). The combined 26 954 redundant ESTs were computer assembled using the PHRAP program to yield 5381 independent sequences. These 5381 predicted genes represent about half of the estimated coding potential of the organism. One-third of them were classified into 12 functional categories. Although the overall classification patterns of the V and S libraries were very similar, stage-specific genes exist in every category. The majority of V-specific genes function in some aspect of protein translation, while such genes are in a minority in the S-specific and common populations. Instead, genes for signal transduction and multicellular organization are enriched in the population of S-specific genes. Genes encoding the enzymes of basic metabolism are mainly found in the common gene population. These results therefore suggest major differences between growing and developing Dictyostelium cells in the nature of the genes transcribed.
  • K Takeda, T Saito, T Tanaka, T Morio, M Maeda, Y Tanaka, H Ochiai
    GENE, 312 321-333, Jul, 2003  Peer-reviewed
    We describe a novel restriction enzyme-mediated integration (REMI) method for gene trapping in Dictyostelium based on the use of a terminator-deficient vector. The vector has a blasticidin deaminase (bsr) gene as a selectable marker but lacks a terminator containing a poly(A) addition signal (AATAAA). Thus, the vector was expected to integrate into the coding region of a gene to create a fusion transcript flanked by the 3' proximal region of the trapped gene. The trapped gene can be identified by simply amplifying the fusion transcript by 3' rapid amplification of cDNA ends (3'-RACE). In the analysis of 35 integration events into known genes, the vectors were found to be integrated 20 times in close proximity to the 3' ends of the genes and in the direction of transcription. This strictly localized insertion seemed to be mediated by negative selection via the surveillance system referred to nonsense-mediated mRNA decay. In contrast, in 15 events the vector integrated in the opposite direction to transcription and at random positions throughout the coding sequence. Analysis of the trapped 3' sequences showed that the transcription of the fusion gene terminated prematurely without the apparent use of an endogenous terminator; nevertheless the transcript did exhibit a poly(A) tail. Based on these results, we designated the method terminator-REM1. Using this method, we have generated a library of tagged Dictyostelium clones from which we have thus far isolated 242 developmental mutants. (C) 2003 Elsevier Science B.V. All rights reserved.
  • S Matsuoka, T Saito, H Kuwayama, N Morita, H Ochiai, M Maeda
    EUKARYOTIC CELL, 2(3) 638-645, Jun, 2003  Peer-reviewed
    beta-Oxidation of long-chain fatty acids and branched-chain fatty acids is carried out in mammalian peroxisomes by a multifunctional enzyme (MFE) or D-bifunctional protein, with separate domains for hydroxyacyl coenzyme A (CoA) dehydrogenase, enoyl-CoA hydratase, and steroid carrier protein SCP2. We have found that Dictyostelium has a gene, mfeA, encoding MFE1 with homology to the hydroxyacyl-CoA dehydrogenase and SCP2 domains. A separate gene, mfeB, encodes MFE2 with homology to the enoyl-CoA hydratase domain. When grown on a diet of bacteria, Dictyostelium cells in which mfeA is disrupted accumulate excess cyclopropane fatty acids and are unable to develop beyond early aggregation. Axenically grown mutant cells, however, developed into normal fruiting bodies composed of spores and stalk cells. Comparative analysis of whole-cell! lipid compositions revealed that bacterially grown mutant cells accumulated cyclopropane fatty acids that remained throughout the developmental stages. Such a persistent accumulation was not detected in wild-type cells or axenically grown mutant cells. Bacterial phosphatidylethanolamine that contains abundant cyclopropane fatty acids inhibited the development of even axenically grown mutant cells, while dipalmitoyl phosphatidylethanolamine did not. These results suggest that MFE1 protects the cells from the increase of the harmful xenobiotic fatty acids incorporated from their diets and optimizes cellular lipid composition for proper development. Hence, we propose that this enzyme plays an irreplaceable role in the survival strategy of Dictyostelium cells to form spores for their efficient dispersal in nature.
  • K Takeda, T Saito, H Ochiai
    DEVELOPMENT GROWTH & DIFFERENTIATION, 44(3) 213-223, Jun, 2002  Peer-reviewed
    When Dictyostelium cells starve, they express genes necessary for aggregation. Using insertional mutagenesis, we have isolated a mutant that does not aggregate upon starvation and that forms small plaques on bacterial lawns, thus indicating slow growth. Sequencing of the mutated locus showed a strong similarity to the catalytic domain of cdc2-related kinase genes. Phylogenetic analysis further indicated that the amino acid sequence was more close to cyclin-dependent kinase 8 than to the sequence of other cyclin-dependent kinases. Thus, we designated this gene as Ddcdk8 . The Ddcdk8 -null cells do not aggregate and grow somewhat more slowly than parental cells when being shaken in axenic medium or laid on bacterial plates. To confirm whether these defective phenotypes were caused by disruption of this gene, the Ddcdk8 -null cells were complemented with DdCdk8 protein expressed from an endogenous promoter, but not an actin promoter, and when the complemented cells were then allowed to grow on a bacterial lawn, they began to aggregate as the food supply was depleted and finally became fruiting bodies. The results suggest that properly regulated DdCdk8 activity is essential for aggregation. Because, when starved, Ddcdk8 -null cells do not express the acaA transcripts required for aggregation, we deduce that Ddcdk8 is epistatic for acaA expression, indicating that the DdCdk8 products may regulate expression of acaA and/or other genes.
  • N Takaoka, M Fukuzawa, A Kato, T Saito, H Ochiai
    BIOCHIMICA ET BIOPHYSICA ACTA-GENE STRUCTURE AND EXPRESSION, 1574(3) 304-310, Apr, 2002  Peer-reviewed
    gp64 mRNA in Polysphondylium pallidum is expressed extensively during vegetative growth, and begins to rapidly decrease at the onset of development. To examine this unique regulation, 5' deletion analysis of the gp64 promoter vas undertaken, and two growth-phase activated elements have been found: a food-dependent. upstream regulatory region (FUR, -222 to -170) and a vegetatively activated, downstream region (VAD. -110 to -63). Here we concentrate our analysis on in A1 and A2 sequences in the FUR region: Al consists of a GATTTTTTTA sequence called a corresponding sequence and A2 consists of the direct repeat TTTGTTGTG. The cells carrying a combined construct of Al and A2 acted synergistically in a reporter activity. A point mutation analysis in Al indicates that a G residue is required for the activation of Al. From analyses of promoter regulation in a liquid or a solid medium, the promoter activity of the cells fed on bacteria in A-medium (axenic medium for Polysphondylium) or grown in A-medium alone was only one fourth of that of the cells fed on bacteria. 13 the gel retardation, we deteceted a protein bound to the Al sequence. (C) 2002 Elsevier Science B.V. All rights reserved.
  • N Van Driessche, C Shaw, M Katoh, T Morio, R Sucgang, M Ibarra, H Kuwayama, T Saito, H Urushihara, M Maeda, Takeuchi, I, H Ochiai, W Eaton, J Tollett, J Halter, A Kuspa, Y Tanaka, G Shaulsky
    DEVELOPMENT, 129(7) 1543-1552, Apr, 2002  Peer-reviewed
    A distinct feature of development in the simple eukaryote Dictyostelium discoideum is an aggregative transition from a unicellular to a multicellular phase. Using genome-wide transcriptional analysis we show that this transition is accompanied by a dramatic change in the expression of more than 25% of the genes in the genome. We also show that the transcription patterns of these genes are not sensitive to the strain or the nutritional history, indicating that Dictyostelium development is a robust physiological process that is accompanied by stereotypical transcriptional events. Analysis of the two differentiated cell types, spores and stalk cells, and their precursors revealed a large number of differentially expressed genes as well as unexpected patterns of gene expression, which shed new light on the timing and possible mechanisms of cell-type divergence. Our findings provide new perspectives on the complexity of the developmental program and the fraction of the genome that is regulated during development.
  • K Kotani, A Kuroiwa, T Saito, Y Matsuda, T Koda, S Kijimoto-Ochiai
    BIOCHEMICAL AND BIOPHYSICAL RESEARCH COMMUNICATIONS, 286(2) 250-258, Aug, 2001  Peer-reviewed
    We have totally sequenced a cytosolic sialidase [EC 3.2.1.18] by RT-PCR from the murine thymus (murine thymic sialidase, NITS) which has a 1844-base length (encoding 385 amino acids including two sialidase motifs) and is the longest cytosolic sialidase ever reported. MTS has high and relatively low homologies with those of mammalian cytosolic sialidases from the mouse brain (99%), rat (91%), and human skeletal muscle (75%), and those of the mouse lysosomal (47%) and membrane-bound (51%) sialidases, respectively. Chromosomal mapping, being the first report of mouse cytosolic sialidase gene, showed that the MTS gene is localized to the distal part of mouse chromosome 1D and to rat chromosome 9q36. RT-PCR with the site-specific primers revealed that the coding region was expressed in all organs tested, but expressions including the 5'-UTR were barely detectable except for in the upper-thymic fraction. Also, soluble sialidase activity in the thymus was the highest of these organs. There were mRNA instability signals and AT-rich regions in 143 bp of NITS 5'-end. (C) 2001 Academic Press.
  • Okuwa,T, Katayama,T, Morio,T, Saito,T, Masamune,Y, Yasukawa,H
    The Journal of Biochemistry, Molecular Biology and Biophysics, 5 481-487, Aug, 2001  Peer-reviewed
  • M Tsujioka, M Yokoyama, K Nishio, H Kuwayama, T Mori, M Katoh, H Urushihara, T Saito, H Ochiai, Y Tanaka, L Takeuchi, M Maeda
    DEVELOPMENT GROWTH & DIFFERENTIATION, 43(3) 275-283, Jun, 2001  Peer-reviewed
    The spatial expression patterns of genes involved in cyclic adenosine monophosphate (cAMP) responses during morphogenesis in Dictyostelium discoideum were analyzed by in situ hybridization, Genes encoding adenylyl cyclase A (ACA), cAMP receptor 1, G-protein alpha2 and beta subunits, cytosolic activator of ACA (CRAC and Aimless), catalytic subunit of protein kinase A (PKA-C) and cAMP phosphodiesterases (PDE and REG-A) were preferentially expressed in the anterior prestalk (tip) region of slugs, which acts as an organizing center, MAP kinase ERK2 (extracellular signal-regulated kinase-2) mRNA, however, was enriched in the posterior prespore region. At the culmination stage, the expression of ACA, CRAC and PKA-C mRNA increased in prespore cells in contrast with the previous stage, However, no alteration in the site of expression was observed for the other mRNA analyzed. Based on these findings, two and four classes of expression patterns were catalogued for these genes during the slug and culmination stages, respectively, Promoter analyses of genes in particular classes should enhance understanding of the regulation of dynamic and coordinated gene expression during morphogenesis.
  • T Morio, H Yasukawa, H Urushihara, T Saito, H Ochiai, Takeuchi, I, M Maeda, Y Tanaka
    BIOCHIMICA ET BIOPHYSICA ACTA-GENE STRUCTURE AND EXPRESSION, 1519(1-2) 65-69, May, 2001  Peer-reviewed
    We have identified a gene encoding a eukaryotic initiation factor 4E-binding protein (4E-BP) in the EST database of the Dictyostelium cDNA project. The Dictyostelium 4E-BP, designated febA four e-binding), showed significant similarity to mammalian 4E-BPs. Northern blot analysis revealed that febA was expressed at a high level in the vegetative growth phase but the level of expression decreased during late development. The gene was shown to be non-essential since disruption of the gene had no severe effect; the null mutant proliferated normally and formed normal fruiting bodies. However, strains overexpressing the gene could not be established, suggesting that an excess of FebA protein may have a lethal effect on the cells. (C) 2001 Elsevier Science B.V. All rights reserved.
  • T Okuwa, T Morio, T Saito, Y Masamune, H Yasukawa
    BIOLOGICAL & PHARMACEUTICAL BULLETIN, 24(1) 84-87, Jan, 2001  Peer-reviewed
    We sequenced and characterized the expression patterns of the genes (racG, racH, racI and racJ) in the Rho-family, The nucleotide sequences of these genes suggest that racI would be a pseudogene, while the other genes are likely to encode typical Rac proteins which contain either GTP-binding domain or CAAX prenylation motif as observed in other members of the family. The Northern blot analyses show that the expression patterns of these genes are distinctively regulated during development. The racG gene is expressed at almost the same level from the vegetative to the slug stage, but the amount of its transcript gradually decreases after culmination. Expression of the racJ gene is undetectable at the vegetative stage, becomes observable at the mound stage, reaches a peak at the slug stage and then suddenly disappears in the culmination stage. The racH gene is expressed in two forms of transcripts, both of which are undetectable at the vegetatively growing stage but abruptly increase in amount after starvation. Southern blot hybridization analysis demonstrates that these transcripts were derived from a single copy of the gene. Such distinct kinetics of the expression patterns suggests that these genes would have unique roles in Dictyostelium development.
  • M Maeda, H Kuwayama, M Yokoyama, K Nishio, T Morio, H Urushihara, M Katoh, Y Tanaka, T Saito, H Ochiai, K Takemoto, H Yasukawa, Takeuchi, I
    DEVELOPMENTAL BIOLOGY, 223(1) 114-119, Jul, 2000  Peer-reviewed
    We analyzed the spatial expression patterns of the genes involved in myosin function by in situ hybridization at the tipped aggregate and early culmination stages of Dictyostelium. Myosin heavy chain II mRNA was enriched in the anterior prestalk region of the tipped aggregates, whereas it disappeared from there and began to appear in both upper and lower cups of the early culminants. Similarly, mRNAs for essential light chain, regulatory light chain, myosin light chain kinase A, and myosin heavy chain kinase C were enriched in the prestalk region of the tipped aggregates. However, expression of these genes was distinctively regulated in the early culminants. These findings suggest the existence of mechanisms responsible for the expression of particular genes. (C) 2000 Academic Press.
  • T Saito, T Morio, H Ochiai
    EUROPEAN JOURNAL OF BIOCHEMISTRY, 267(6) 1813-1818, Mar, 2000  Peer-reviewed
    A cDNA with homology to fatty acid desaturases was selected by searching the cDNA data bank of Dictyostelium discoideum (http://www.csm.biol.tsukuba.ac.jp/cDNAproject.html) with conserved histidine box motifs. Using this sequence, genomic DNA encoding the Delta 5 desaturase was amplified from the genomic DNA of D. discoideum, and its desaturase activity was confirmed by the overexpression mutation in D. discoideum and the gain-of-function mutation in yeast. The cloned cDNA is 1565 nucleotides in length, and the deduced amino-acid sequence comprised 467 amino-acid residues containing an N-terminal cytochrome b5 domain that shared 43% identity with cytochrome b5 of Oryza sativa. The whole sequence was 42% identical to the Delta 5 desaturase of Mortierella alpina. This desaturase is a novel member of the cytochrome b5-containing Delta 5 fatty acid desaturase. As we have already reported one other Delta 5 desaturase in Dictyostelium, this organism is the first to be confirmed as having two functional Delta 5 fatty acid desaturase genes. The substrate specificities of the two functional Delta 5 desaturases of D. discoideum were also examined.
  • T Saito, H Ochiai
    EUROPEAN JOURNAL OF BIOCHEMISTRY, 265(2) 809-814, Oct, 1999  Peer-reviewed
    cDNA fragments putatively encoding amino acid sequences characteristic of the fatty acid desaturase were obtained using expressed sequence tag (EST) information of the Dictyostelium cDNA project. Using this sequence, we have determined the cDNA sequence and genomic sequence of a desaturase. The cloned cDNA is 1489 nucleotides long and the deduced amino acid sequence comprised 464 amino acid residues containing an N-terminal cytochrome b(5) domain. The whole sequence was 38.6% identical to the initially identified Delta(5)-desaturase of Mortierella alpina. We have confirmed its function as Delta(5)-desaturase by over expression mutation in D. discoideum and also the nain of function mutation in the yeast Saccharomyces cerevisiae. Analysis of the lipids from transformed D. discoideum and yeast demonstrated the accumulation of Delta(5)-desaturated products. This is the first report concering fatty acid desaturase in cellular slime molds.
  • N Takaoka, M Fukuzawa, T Saito, T Sakaitani, H Ochiai
    BIOCHIMICA ET BIOPHYSICA ACTA-GENE STRUCTURE AND EXPRESSION, 1447(2-3) 226-230, Oct, 1999  Peer-reviewed
    We cloned a genomic fragment of the membrane protein gp64 gene of the cellular slime mold Polysphondylium pallidum by inverse PCR. Primer extension analysis identified a major transcription start site 65 bp upstream of the translation start codon. The promoter region of the gp64 gene contains sequences homologous to a TATA box at position -47 to -37 and to an initiator (Inr, PyPyCAPyPyPyPy) at position -3 to +5 from the transcription start site. Successively truncated segments of the promoter were tested for their ability to drive expression of the beta-galactosidase reporter gene in transformed cells; also the difference in activity between growth conditions was compared. The results indicated that there are two positive vegetative regulatory elements extending between -187 and -62 bp from the transcription start site of the gp64 promoter; also their activity was two to three times higher in the cells grown with bacteria in shaken suspension than in the cells grown in an axenic medium. (C) 1999 Elsevier Science B.V. All rights reserved.
  • T Saito, H Ochiai
    LIPIDS, 33(3) 327-332, Mar, 1998  Peer-reviewed
    The cellular slime mold Polysphondylium pallidum was grown upon Escherichia coli B/r, and the fatty acid compositions of total lipids obtained from vegetative amebae and aggregation-competent cells were compared. Fatty acids isolated from vegetative cells included C-17 and C-19 cyclopropane fatty acids and also straight-chain, saturated fatty acids. The cyclopropane fatty acids were derived from the ingested bacteria. Development of amebae to aggregation-competent cells was accompanied by a substantial decrease in saturated cyclopropane fatty acids and a concomitant increase in unsaturated fatty acids and unsaturated cyclopropane fatty acids, mostly as 18:3 (5,9,12). We report here the fatty acid composition and identify the occurrence of Delta 5 desaturation of cyclopropane fatty acids, namely, 9,10-methylene 5-hexadecenoic acid and 11,12-methylene 5-octadecenoic acid. These fatty acids have not been reported previously in the related species Dictyostelium discoideum, which also feeds on E. coli B/r and has Delta 5-desaturation activity.
  • Takahiro Morio, Hideko Urushihara, Tamao Saito, Yoshihiro Ugawa, Hideaki Mizuno, Motonobu Yoshida, Ryuji Yoshino, Biswa Nath Mitra, Min Pi, Tomihiro Sato, Keiko Takemoto, Hiroo Yasukawa, Jeffrey Williams, Mineko Maeda, Ikuo Takeuchi, Hiroshi Ochiai, Yoshimasa Tanaka
    DNA Research, 5(6) 335-340, 1998  Peer-reviewed
    In an effort to identify and characterize genes expressed during multicellular development in Dictyostelium, we have undertaken a cDNA sequencing project. Using size-fractionated subsets of cDNA from the first finger stage, two sets of gridded libraries were constructed for cDNA sequencing. One, library S, consisting of 9984 clones, carries relatively short inserts, and the other, library L, which consists of 8448 clones, has longer inserts. We sequenced all the selected clones in library S from their 3′-ends, and this generated 3093 non-redundant, expressed sequence tags (ESTs). Among them, 246 ESTs hit known Dictyostelium genes and 910 showed significant similarity to genes of Dictyostelium and other organisms. For library L, 1132 clones were randomly sequenced and 471 non-redundant ESTs were obtained. In combination, the ESTs from the two libraries represent approximately 40% of genes expressed in late development, assuming that the non-redundant ESTs correspond to independent genes. They will provide a useful resource for investigating the genetic networks that regulate multicellular development of this organism.
  • Ochiai, H, Saito, T, Funamoto, S, SAITO TAMAO
    Dictyostelium : a model system for cell and developmental biology : proceedings of the Yamada Conference XLVI on International Dictyostelium Conference, held on October 14-18, 1996, in Sendai, Japan, 123-136, Oct, 1997  

Misc.

 11

Books and Other Publications

 3

Presentations

 29

Research Projects

 20