研究者業績

山本 大介

ヤマモト ダイスケ  (Daisuke Yamamoto)

基本情報

所属
自治医科大学 感染・免疫学講座 医動物学部門 准教授
学位
博士(理学)(神戸大学)

通称等の別名
YAMAMOTO,Daisuke S.
研究者番号
90597189
J-GLOBAL ID
201401084315530862
researchmap会員ID
B000238569

昆虫を実験材料に、発生、生殖、病原体感染などの生命現象の研究を行っています。
現在は主に、マラリア媒介昆虫であるハマダラカを実験材料に、ゲノム編集や遺伝子組換えを利用した有用系統の作製、個体レベルでの遺伝子機能解析を行っています。これらの成果を蚊の防除やマラリア制御の技術開発につなげることを目指しています。


論文

 44
  • Ahmed Tabbabi, Daiki Mizushima, Daisuke S Yamamoto, Elyes Zhioua, Hirotomo Kato
    PLoS neglected tropical diseases 18(9) e0012458 2024年9月  査読有り
    Phlebotomine sand flies are vectors of the protozoan parasite Leishmania spp. Although the intestinal microbiota is involved in a wide range of biological and physiological processes and has the potential to alter vector competence, little is known about the impact of host species and environment on the gut microbiome. To address this issue, a comparative analysis of the microbiota of sand fly vector populations of Leishmania major and L. tropica in a mixed focus of cutaneous leishmaniasis in Tunisia was performed. Bacterial 16S rRNA gene amplification and Illumina MiSeq sequencing were used to characterize and compare the overall bacterial and fungal composition of field-collected sand flies: Phlebotomus papatasi, Ph. perniciosus, Ph. riouxi, and Ph. sergenti. Thirty-eight bacterial genera belonging to five phyla were identified in 117 female specimens. The similarities and differences between the microbiome data from different samples collected from three collections were determined using principal coordinate analysis (PCoA). Substantial variations in the bacterial composition were found between geographically distinct populations of the same sand fly species, but not between different species at the same location, suggesting that the microbiota content was structured according to environmental factors rather than host species. These findings suggest that host phylogeny may play a minor role in determining the insect gut microbiota, and its potential to affect the transmission of the Leishmania parasite appear to be very low. These results highlight the need for further studies to decode sand fly Leishmania-microbiota interactions, as even the same bacterial species, such as Enterococcus faecalis, can exert completely opposite effects when confronted with different pathogens within various host insects and vice versa.
  • Sakura Ohkubo, Tohki Shintaku, Shotaro Mine, Daisuke S. Yamamoto, Toru Togawa
    Insects 14(12) 941-941 2023年12月11日  査読有り
    Resilin is an elastic protein that is vital to insects’ vigorous movement. Canonical resilin proteins possess the R&R Consensus, a chitin-binding domain conserved in a family of cuticular proteins, and highly repetitive sequences conferring elastic properties. In the malaria vector mosquito, Anopheles gambiae, however, a cuticular protein has been found that has an R&R Consensus resembling that of resilin but lacks the repetitive sequences (here, we call it resilin-related or resilin-r). The relationship between resilin-r and resilin was unclear. It was also unknown whether resilin-r is conserved in mosquitoes. In this paper, phylogenetic and structural analyses were performed to reveal the relationship of resilin homologous proteins from holometabolous insects. Their chitin-binding abilities were also assessed. A resilin-r was found in each mosquito species, and these proteins constitute a clade with resilin from other insects based on the R&R Consensus sequences, indicating an evolutionary relationship between resilin-r and resilin. The resilin-r showed chitin-binding activity as same as resilin, but had distinct structural features from resilin, suggesting that it plays specialized roles in the mosquito cuticle. Another resilin-like protein was found to exist in each holometabolous insect that possesses resilin-like repetitive sequences but lacks the R&R Consensus. These results suggest that similar evolutionary events occurred to create resilin-r and resilin-like proteins.
  • Ahmed Tabbabi, Daiki Mizushima, Daisuke S Yamamoto, Hirotomo Kato
    Parasites & vectors 16(1) 310-310 2023年8月31日  査読有り
    BACKGROUND: Blood-sucking phlebotomine sand flies are vectors of the protozoan parasites Leishmania spp. Although the intestinal microbiota is involved in a wide range of biological and physiological processes and has the potential to alter vector competence, little is known about the factors that modify the gut microbiota composition of sand flies. As a key step toward addressing this issue, we investigated the impact of host species on the gut bacterial composition in Phlebotomus and Lutzomyia sand flies reared under the same conditions. METHODS: Bacterial 16S rRNA gene amplification and Illumina MiSeq sequencing were used to characterize the overall bacterial composition of three laboratory-reared sandflies: Phlebotomus papatasi, Ph. duboscqi, and Lutzomyia longipalpis. RESULTS: Our results showed that the larvae of the three sand fly species harbored almost the same microbes but had different relative abundances. Adult Ph. papatasi and Ph. duboscqi revealed similar microbiome compositions, which were distinct from that of adult Lu. longipalpis. Furthermore, we showed that Ph. papatasi and Ph. duboscqi are hosts for different bacterial genera. The experiment was repeated twice to improve accuracy and increase reliability of the data, and the same results were obtained even when a distinct composition of the microbiome among the same species was identified probably because of the use of different larvae food batch. CONCLUSIONS: The present study provides key insights into the role of host species in the gut microbial content of different sand fly species reared under the same conditions, which may influence their susceptibility to Leishmania infection.
  • Daiki Mizushima, Daisuke S Yamamoto, Ahmed Tabbabi, Meiji Arai, Hirotomo Kato
    Frontiers in cellular and infection microbiology 13 1162918-1162918 2023年  査読有り
    A rare sugar, allose, was reported to inhibit the development of Plasmodium parasites in Anopheles mosquitoes; however, the mechanism remains unknown. The present study addressed the inhibitory mechanism of allose on the development of the Plasmodium parasite by connecting it with bacteria involvement in the midgut. In addition, further inhibitory sugars against Plasmodium infection in mosquitoes were explored. Antibiotic-treated and antibiotic-untreated Anopheles stephensi were fed fructose with or without allose. The mosquitoes were infected with luciferase-expressing Plasmodium berghei, and parasite development was evaluated by luciferase activity. Bacterial composition analysis in gut of their mosquitoes was performed with comprehensive 16S ribosomal RNA sequencing. As the result, allose inhibited the development of oocysts in mosquitoes regardless of prior antibiotic treatment. Microbiome analysis showed that the midgut bacterial composition in mosquitoes before and after blood feeding was not affected by allose. Although allose inhibited transient growth of the midgut microbiota of mosquitoes after blood feeding, neither toxic nor inhibitory effects of allose on the dominant midgut bacteria were observed. Ookinete development in the mosquito midgut was also not affected by allose feeding. Additional 15 sugars including six monosaccharides, four polyols, and five polysaccharides were tested; however, no inhibitory effect against Plasmodium development in mosquitoes was observed. These results indicated that allose inhibits parasite development in midgut stage of the mosquito independently of midgut microbiota. Although further studies are needed, our results suggest that allose may be a useful material for the vector control of malaria as a "transmission-blocking sugar."
  • Satoru Kawahori, Chisato Seki, Daiki Mizushima, Ahmed Tabbabi, Daisuke S Yamamoto, Hirotomo Kato
    Acta tropica 234 106602-106602 2022年7月8日  査読有り
    Transcriptome analysis of the salivary gland cDNA library from a phlebotomine sand fly, Lutzomyia ayacuchensis, identified a transcript coding for the PpSP15/SL1 family protein as the second most abundant salivary component. In the present study, a recombinant protein of the PpSP15/SL1 family protein, designated ayaconin, was expressed in Escherichia coli, and its biological activity was characterized. The recombinant ayaconin purified from the soluble fraction of E. coli lysate efficiently inhibited the intrinsic but not extrinsic blood coagulation pathway. When the target of ayaconin was evaluated using fluorescent substrates of coagulation factors, ayaconin inhibited factor XIIa (FXIIa) activity more efficiently in a dose-dependent manner, suggesting that FXII is the primary target of ayaconin. In addition, incubation of ayaconin with FXII prior to activation effectively inhibited FXIIa activity, whereas such inhibition was not observed when ayaconin was mixed after the production of FXIIa, indicating that ayaconin inhibits the activation process of FXII to produce FXIIa, but not the enzymatic activity of FXIIa. Moreover, ayaconin was shown to bind to FXII, suggesting that the binding of ayaconin to FXII is involved in the inhibitory mechanism against FXII activation. These results suggest that ayaconin plays an important role in the blood-sucking of Lu. ayacuchensis.
  • Naoaki Shinzawa, Chisako Kashima, Hiroka Aonuma, Kei Takahashi, Masayuki Shimojima, Shinya Fukumoto, Erisha Saiki, Daisuke S. Yamamoto, Shigeto Yoshida, Hiroyuki Matsuoka, Yoshihiro Kawaoka, Hirotaka Kanuka
    Frontiers in Tropical Diseases 3 2022年5月19日  査読有り
    Live microbe vaccines are designed to elicit strong cellular and antibody responses without developing the symptoms of the disease, and these are effective in preventing infectious diseases. A flying vaccinator (also known as a flying syringe) is a conceptual, genetically engineered hematophagous insect that is used to deliver vaccines such as an antigen from a parasite produced in mosquito saliva; bites from such insects may elicit antibody production by immunizing the host with an antigen through blood-feeding. In addition to a simple vaccine antigen, a flying vaccinator may potentially load a live attenuated microbe with an appropriate mechanism for sustaining its constitutive proliferation in the insect. In this study, a recombinant vesicular stomatitis virus (VSV) lacking the glycoprotein gene (VSV-G) was used to produce replication-restricted VSV (rrVSV) containing GFP. Transgenic Anopheles stephensi mosquitoes, in which the salivary glands expressed a VSV-G gene driven by an aapp salivary gland-specific promoter, were generated and injected intraperitoneally with rrVSV. The injected rrVSV entered the cells of the salivary gland and stimulated endogenous production of progeny rrVSV particles, as seen in rrVSV-infected Drosophila melanogaster expressing VSV-G. These data suggested the possibility of developing a valuable tool for delivering genetically attenuated virus vaccines via mosquito saliva, although efficient replication-restricted virus production is required.
  • Ahmed Tabbabi, Daiki Mizushima, Daisuke S. Yamamoto, Hirotomo Kato
    Parasitologia 2(2) 71-87 2022年4月11日  査読有り
    Sand flies are a significant public health concern in many parts of the world where they are known to transmit agents of several zoonotic diseases to humans, such as leishmaniasis. Vector control remains a key component of many anti-leishmaniasis programs and probably will remain so until an effective vaccine becomes available. The sand fly gut microbiota has recently emerged as an encouraging field for the exploration of vector-based disease control. In particular, the gut microbiome was previously reported to either enhance or inhibit parasite activity depending on the species of bacteria and, thus, has the potential to alter vector competence. Here, we describe the technological advances that are currently expanding our understanding of microbiota composition in sand flies. The acquisition and composition of microbiomes are influenced by several abiotic and biotic factors, including host immunity, genetics, and the environment. Therefore, the microbiomes of sand flies can vary substantially between individuals, life stages, species, and over geographical space, and this variation likely contributes to differences in host phenotypes, highlighting opportunities for novel vector control strategies.
  • Mohammad Shahnaij, Mitsuhiro Iyori, Hiroaki Mizukami, Mayu Kajino, Iroha Yamagoshi, Intan Syafira, Yenni Yusuf, Ken Fujiwara, Daisuke S Yamamoto, Hirotomo Kato, Nobuhiko Ohno, Shigeto Yoshida
    Frontiers in immunology 12 612910-612910 2021年  査読有り
    Hepatocyte infection by malaria sporozoites is a bottleneck in the life-cycle of Plasmodium spp. including P. falciparum, which causes the most lethal form of malaria. Therefore, developing an effective vaccine capable of inducing the strong humoral and cellular immune responses necessary to block the pre-erythrocytic stage has potential to overcome the spatiotemporal hindrances pertaining to parasite biology and hepatic microanatomy. We recently showed that when combined with a human adenovirus type 5 (AdHu5)-priming vaccine, adeno-associated virus serotype 1 (AAV1) is a potent booster malaria vaccine vector capable of inducing strong and long-lasting protective immune responses in a rodent malaria model. Here, we evaluated the protective efficacy of a hepatotropic virus, adeno-associated virus serotype 8 (AAV8), as a booster vector because it can deliver a transgene potently and rapidly to the liver, the organ malaria sporozoites initially infect and multiply in following sporozoite injection by the bite of an infected mosquito. We first generated an AAV8-vectored vaccine expressing P. falciparum circumsporozoite protein (PfCSP). Intravenous (i.v.) administration of AAV8-PfCSP to mice initially primed with AdHu5-PfCSP resulted in a hepatocyte transduction rate ~2.5 times above that seen with intramuscular (i.m.) administration. This immunization regimen provided a better protection rate (100% sterile protection) than that of the i.m. AdHu5-prime/i.m. AAV8-boost regimen (60%, p < 0.05), i.m. AdHu5-prime/i.v. AAV1-boost (78%), or i.m. AdHu5-prime/i.m. AAV1-boost (80%) against challenge with transgenic PfCSP-expressing P. berghei sporozoites. Compared with the i.m. AdHu5-prime/i.v. AAV1-boost regimen, three other regimens induced higher levels of PfCSP-specific humoral immune responses. Importantly, a single i.v. dose of AAV8-PfCSP recruited CD8+ T cells, especially resident memory CD8+ T cells, in the liver. These data suggest that boost with i.v. AAV8-PfCSP can improve humoral and cellular immune responses in BALB/c mice. Therefore, this regimen holds great promise as a next-generation platform for the development of an effective malaria vaccine.
  • Hirotomo Kato, Abraham G Cáceres, Eduardo A Gomez, Ahmed Tabbabi, Daiki Mizushima, Daisuke S Yamamoto, Yoshihisa Hashiguchi
    Frontiers in cellular and infection microbiology 11 625001-625001 2021年  査読有り
    Approximately 20 Leishmania species are known to cause cutaneous, mucocutaneous, and visceral disorders in humans. Identification of the causative species in infected individuals is important for appropriate treatment and a favorable prognosis because infecting species are known to be the major determinant of clinical manifestations and may affect treatments for leishmaniasis. Although Leishmania species have been conventionally identified by multilocus enzyme electrophoresis, genetic analysis targeting kinetoplast and nuclear DNA (kDNA and nDNA, respectively) is now widely used for this purpose. Recently, we conducted countrywide epidemiological studies of leishmaniasis in Ecuador and Peru to reveal prevalent species using PCR-RFLP targeting nDNA, and identified unknown hybrid parasites in these countries together with species reported previously. Furthermore, comparative analyses of kDNA and nDNA revealed the distribution of parasites with mismatches between these genes, representing the first report of mito-nuclear discordance in protozoa. The prevalence of an unexpectedly high rate (~10%) of genetically complex strains including hybrid strains, in conjunction with the observation of mito-nuclear discordance, suggests that genetic exchange may occur more frequently than previously thought in natural Leishmania populations. Hybrid Leishmania strains resulting from genetic exchanges are suggested to cause more severe clinical symptoms when compared with parental strains, and to have increased transmissibility by vectors of the parental parasite species. Therefore, it is important to clarify how such genetic exchange influences disease progression and transmissibility by sand flies in nature. In addition, our aim was to identify where and how the genetic exchange resulting in the formation of hybrid and mito-nuclear discordance occurs.
  • Ahmed Tabbabi, Shinya Watanabe, Daiki Mizushima, Abraham G Caceres, Eduardo A Gomez, Daisuke S Yamamoto, Longzhu Cui, Yoshihisa Hashiguchi, Hirotomo Kato
    Microorganisms 9(1) 2020年12月29日  査読有り
    Differences in the gut microbial content of Lutzomyia (Lu.) ayacuchensis, a primary vector of Andean-type cutaneous leishmaniasis in Ecuador and Peru, may influence the susceptibility of these sand flies to infection by Leishmania. As a first step toward addressing this hypothesis, a comparative analysis of bacterial and fungal compositions from Lu. ayacuchensis populations with differential susceptibilities to Leishmania was performed. Bacterial 16S rRNA gene amplification and Illumina MiSeq sequencing approaches were used to characterize the bacterial composition in wild-caught populations from the Andean areas of Ecuador and southern Peru at which the sand fly species transmit Leishmania (Leishmania) mexicana and Leishmania (Viannia) peruviana, respectively, and a population from the northern Peruvian Andes at which the transmission of Leishmania by Lu. ayacuchensis has not been reported. In the present study, 59 genera were identified, 21 of which were widely identified and comprised more than 95% of all bacteria. Of the 21 dominant bacterial genera identified in the sand flies collected, 10 genera had never been detected in field sand flies. The Ecuador and southern Peru populations each comprised individuals of particular genera, while overlap was clearly observed between microbes isolated from different sites, such as the number of soil organisms. Similarly, Corynebacterium and Micrococcus were slightly more dominant bacterial genera in the southern Peru population, while Ochrobactrum was the most frequently isolated from other populations. On the other hand, fungi were only found in the southern Peru population and dominated by the Papiliotrema genus. These results suggest that variation in the insect gut microbiota may be elucidated by the ecological diversity of sand flies in Peru and Ecuador, which may influence susceptibility to Leishmania infection. The present study provides key insights for understanding the role of the microbiota during the course of L. (L.) mexicana and L. (V.) peruviana infections in this important vector.
  • Ahmed Tabbabi, Abraham G Cáceres, T Pershing Bustamante Chauca, Chisato Seki, Yanisa Choochartpong, Daiki Mizushima, Daisuke S Yamamoto, Yoshihisa Hashiguchi, Hirotomo Kato
    PLoS neglected tropical diseases 14(10) e0008797 2020年10月  査読有り
    Polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) analysis of the mannose phosphate isomerase (mpi) gene was applied to 134 skin samples collected from patients with cutaneous leishmaniasis (CL) in Peru for identification of the infecting parasite at the species level, and the results were compared with those of cytochrome b (cyt b) gene sequencing obtained in previous studies. Although most results (121/134) including 4 hybrids of Leishmania (Viannia) braziliensis and L. (V.) peruviana corresponded to those obtained in the previous study, PCR-RFLP analyses revealed the distribution of putative hybrid strains between L. (V.) peruviana and L. (V.) lainsoni in two samples, which has never been reported. Moreover, parasite strains showing discordance between kinetoplast and nuclear genes (kDNA and nDNA), so-called mito-nuclear discordance, were identified in 11 samples. Of these, six strains had the kDNAs of L. (V.) braziliensis or L. (V.) peruviana and nDNAs of L. (V.) guyanensis, and three strains had the kDNAs of L. (V.) shawi and nDNAs of L. (V.) braziliensis. The rest were identified as mito-nuclear discordance strains having kDNAs of L. (V.) braziliensis or L. (V.) peruviana and nDNAs of L. (V.) lainsoni, and kDNAs of L. (V.) lainsoni and nDNAs of L. (V.) braziliensis. The results demonstrate that Leishmania strains in Peru are genetically more complex than previously considered.
  • Daiki Mizushima, Ahmed Tabbabi, Daisuke S Yamamoto, Le Trung Kien, Hirotomo Kato
    Acta tropica 210 105473-105473 2020年10月  査読有り
    Salivary gland transcriptome analysis of the Asiatic Triatoma rubrofasciata was performed by high-throughput RNA sequencing. This analysis showed that the majority of reads accounting for 85.38% FPKM (fragments per kilobase of exon per million mapped fragments) were mapped with a secreted class. Of these, the most abundant subclass accounting for 89.27% FPKM was the lipocalin family. In the lipocalin family, the most dominant molecules making up 70.49% FPKM were homologues of procalin, a major allergen identified from T. protracta saliva, suggesting an important role in blood-sucking of T. rubrofasciata. Other lipocalins showed similarities to pallidipin and triplatin, inhibitors of collagen-induced platelet aggregation identified from T. pallidipennis and T. infestans, respectively, Td38 from T. dimidiata with unknown function, triatin-like lipocalin with unknown function, and triafestin, an inhibitor of the activation of the kallikrein-kinin system, identified from T. infestans saliva. Other than lipocalin family proteins, homologues of antigen-5 (3.38% FPKM), Kazal-type serine protease inhibitor (1.36% FPKM), inositol polyphosphate 5-phosphatase (1.32% FPKM), and apyrase/5'-nucleotidase (0.64% FPKM) were identified as abundant molecules in T. rubrofasciata saliva. Through this study, de novo assembly of 42,580,822 trimmed reads generated 35,781 trinity transcripts, and a total of 1,272 coding sequences for the secreted class were deposited in GenBank. The results provide further insights into the evolution of salivary components in blood-sucking arthropods.
  • Jan Philip Oeyen, Patrice Baa-Puyoulet, Joshua B Benoit, Leo W Beukeboom, Erich Bornberg-Bauer, Anja Buttstedt, Federica Calevro, Elizabeth I Cash, Hsu Chao, Hubert Charles, Mei-Ju May Chen, Christopher Childers, Andrew G Cridge, Peter Dearden, Huyen Dinh, Harsha Vardhan Doddapaneni, Amanda Dolan, Alexander Donath, Daniel Dowling, Shannon Dugan, Elizabeth Duncan, Elena N Elpidina, Markus Friedrich, Elzemiek Geuverink, Joshua D Gibson, Sonja Grath, Cornelis J P Grimmelikhuijzen, Ewald Große-Wilde, Cameron Gudobba, Yi Han, Bill S Hansson, Frank Hauser, Daniel S T Hughes, Panagiotis Ioannidis, Emmanuelle Jacquin-Joly, Emily C Jennings, Jeffery W Jones, Steffen Klasberg, Sandra L Lee, Peter Lesný, Mackenzie Lovegrove, Sebastian Martin, Alexander G Martynov, Christoph Mayer, Nicolas Montagné, Victoria C Moris, Monica Munoz-Torres, Shwetha Canchi Murali, Donna M Muzny, Brenda Oppert, Nicolas Parisot, Thomas Pauli, Ralph S Peters, Malte Petersen, Christian Pick, Emma Persyn, Lars Podsiadlowski, Monica F Poelchau, Panagiotis Provataris, Jiaxin Qu, Maarten J M F Reijnders, Björn Marcus von Reumont, Andrew J Rosendale, Felipe A Simao, John Skelly, Alexandros G Sotiropoulos, Aaron L Stahl, Megumi Sumitani, Elise M Szuter, Olivia Tidswell, Evangelos Tsitlakidis, Lucia Vedder, Robert M Waterhouse, John H Werren, Jeanne Wilbrandt, Kim C Worley, Daisuke S Yamamoto, Louis van de Zande, Evgeny M Zdobnov, Tanja Ziesmann, Richard A Gibbs, Stephen Richards, Masatsugu Hatakeyama, Bernhard Misof, Oliver Niehuis
    Genome biology and evolution 12(7) 1099-1188 2020年7月1日  査読有り
    The tremendous diversity of Hymenoptera is commonly attributed to the evolution of parasitoidism in the last common ancestor of parasitoid sawflies (Orussidae) and wasp-waisted Hymenoptera (Apocrita). However, Apocrita and Orussidae differ dramatically in their species richness, indicating that the diversification of Apocrita was promoted by additional traits. These traits have remained elusive due to a paucity of sawfly genome sequences, in particular those of parasitoid sawflies. Here, we present comparative analyses of draft genomes of the primarily phytophagous sawfly Athalia rosae and the parasitoid sawfly Orussus abietinus. Our analyses revealed that the ancestral hymenopteran genome exhibited traits that were previously considered unique to eusocial Apocrita (e.g., low transposable element content and activity) and a wider gene repertoire than previously thought (e.g., genes for CO2 detection). Moreover, we discovered that Apocrita evolved a significantly larger array of odorant receptors than sawflies, which could be relevant to the remarkable diversification of Apocrita by enabling efficient detection and reliable identification of hosts.
  • Daiki Mizushima, Ahmed Tabbabi, Daisuke S Yamamoto, Le Trung Kien, Hirotomo Kato
    Data in brief 30 105647-105647 2020年6月  査読有り
    The dataset in this report is related to the research article entitled: "Salivary gland transcriptome of the Asiatic Triatoma rubrofasciata" [1]. Lipocalin family proteins were identified as the dominant component in T. rubrofasciata saliva, and phylogenetic analysis of the salivary lipocalins resulted in the formation of five major clades (clade I-V). For further characterization, each clade of T. rubrofasciata lipocalin was subjected to alignment and phylogenetic analyses together with homologous triatomine lipocalins: procalin, a major allergen in T. protracta saliva and its homologue Td04 from T. dimidiata (clade I), pallidipin and triplatin, inhibitors of collagen-induced platelet aggregation identified from T. pallidipennis and T. infestans, respectively, and their homologue Pc20 identified from Panstrongylus chinai (clade II), Td30 and Td38 from T. dimidiata with unknown functions (clade III), triatin-like salivary lipocalins, Pc58 and Pc226 identified from P. chinai and Td18 from T. dimidiata (clade IV), and triafestin, an inhibitor of the activation of the kallikrein-kinin system, identified from T. infestans saliva and its homologues, Td25 and Td40 from T. dimidiata and Pc64 from P. chinai (clade V).
  • Tanaka T, Tanaka N, Nagano N, Kanuka H, Yamamoto DS, Yamamoto N, Nanba E, Nishiuchi T
    Journal of Environment and Safety 11(2) 31-35 2020年  査読有り
  • Kato H, Cáceres AG, Seki C, Silupu García CR, Holguín Mauricci C, Castro Martínez SC, Moreno Paico D, Castro Muniz JL, Troyes Rivera LD, Villegas Briones ZI, Guerrero Quincho S, Sulca Jayo GL, Tineo Villafuerte E, Manrique de Lara, Estrada C, Arias FR, Passara FS, Ruelas Llerena N, Kubo M, Tabbabi A, Yamamoto DS, Hashiguchi Y
    PLoS neglected tropical diseases 13(6) e0007496 2019年6月  査読有り
  • Yamamoto DS, Sumitani M, Kasashima K, Sezutsu H, Matsuoka H, Kato H
    Scientific reports 9(1) 8160-8160 2019年6月  査読有り筆頭著者責任著者
  • Amelia F, Iyori M, Emran TB, Yamamoto DS, Genshi K, Otsuka H, Onoue Y, Yusuf Y, Islam A, Yoshida S
    Parasite immunology 41(5) e12624 2019年5月  査読有り
  • Kato H, Gomez EA, Seki C, Furumoto H, Martini-Robles L, Muzzio J, Calvopiña M, Velez L, Kubo M, Tabbabi A, Yamamoto DS, Hashiguchi Y
    PLoS neglected tropical diseases 13(5) e0007403 2019年5月  査読有り
  • Islam A, Emran TB, Yamamoto DS, Iyori M, Amelia F, Yusuf Y, Yamaguchi R, Alam MS, Silveira H, Yoshida S
    Scientific reports 9(1) 3129-3129 2019年2月  査読有り
  • Yusuf Y, Yoshii T, Iyori M, Mizukami H, Fukumoto S, Yamamoto DS, Emran TB, Amelia F, Islam A, Syafira I, Yoshida S
    Frontiers in immunology 10 2412-2412 2019年  査読有り
  • Yusuf Y, Yoshii T, Iyori M, Yoshida K, Mizukami H, Fukumoto S, Yamamoto DS, Alam A, Emran TB, Amelia F, Islam A, Otsuka H, Takashima E, Tsuboi T, Yoshida S
    Frontiers in immunology 10 730-730 2019年  査読有り
  • Shimada M, Hirose Y, Shimizu K, Yamamoto DS, Hayakawa EH, Matsuoka H
    Tropical medicine and health 47 18 2019年  査読有り
  • Emran TB, Iyori M, Ono Y, Amelia F, Yusuf Y, Islam A, Alam A, Tamura M, Ogawa R, Matsuoka H, Yamamoto DS, Yoshida S
    Journal of immunology (Baltimore, Md. : 1950) 201(8) 2441-2451 2018年10月  査読有り
  • Yoshida K, Iyori M, Blagborough AM, Salman AM, Dulal P, Sala KA, Yamamoto DS, Khan SM, Janse CJ, Biswas S, Yoshii T, Yusuf Y, Tokoro M, Hill AVS, Yoshida S
    Scientific reports 8(1) 3896 2018年3月  査読有り
  • Yamamoto DS, Sumitani M, Hatakeyama M, Matsuoka H
    Transgenic Research 27(1) 51-60 2018年2月  査読有り筆頭著者責任著者
  • Iyori M, Yamamoto DS, Sakaguchi M, Mizutani M, Ogata S, Nishiura H, Tamura T, Matsuoka H, Yoshida S
    Malaria journal 16(1) 390 2017年9月  査読有り
  • Yamamoto DS, Sumitani M, Kasashima K, Sezutsu H, Matsuoka H
    PLoS Pathogens 12(9) e1005872 2016年9月  査読有り筆頭著者責任著者
  • Reza M, Yamamoto DS, Matsuoka H
    Medical Entomology and Zoology 65(3) 147-150 2014年9月  査読有り
  • Yamamoto DS, Yokomine T, Sumitani M, Yagi K, Matsuoka H, Yoshida S
    Insect molecular biology 22(6) 685-693 2013年12月  査読有り筆頭著者
  • Yamamoto DS, Hatakeyama M, Matsuoka H
    The Journal of experimental biology 216(15) 2960-2966 2013年8月  査読有り筆頭著者責任著者
  • Sumitani M, Kasashima K, Yamamoto DS, Yagi K, Yuda M, Matsuoka H, Yoshida S
    Insect molecular biology 22(1) 41-51 2013年2月  査読有り
  • Iyori M, Nakaya H, Inagaki K, Pichyangkul S, Yamamoto DS, Kawasaki M, Kwak K, Mizukoshi M, Goto Y, Matsuoka H, Matsumoto M, Yoshida S
    PloS one 8(8) e70819 2013年  査読有り
  • Reza M, Yamamoto DS, Matsuoka H
    Medical Entomology and Zoology 63(3) 217-222 2012年9月  査読有り
  • Matsuoka H, Sano G, Hattori R, Tomita H, Yamamoto DS, Hirai M
    Tropical medicine and health 40(2) 47-52 2012年6月  査読有り
  • Yamamoto DS, Sumitani M, Nagumo H, Yoshida S, Matsuoka H
    Insect molecular biology 21(2) 223-233 2012年  査読有り筆頭著者責任著者
  • Yamamoto DS, Nagumo H, Yoshida S
    Insect molecular biology 19(3) 391-398 2010年6月  査読有り筆頭著者
  • Hatakeyama, M, Sumitani, M, Yamamoto, DS, Lee, JM, Oka, K
    Proceedings of the Arthropodan Embryological Society of Japan 44 1-12 2009年9月  査読有り
  • Yamamoto DS, Tachibana K, Sumitani M, Lee JM, Hatakeyama M
    Mechanisms of development 125(11-12) 996-1008 2008年11月  査読有り筆頭著者
  • Sumitani M, Yamamoto DS, Lee JM, Hatakeyama M
    Insect biochemistry and molecular biology 35(3) 231-240 2005年3月  査読有り
  • Yamamoto DS, Sumitani M, Tojo K, Lee JM, Hatakeyama M
    Development genes and evolution 214(3) 128-133 2004年3月  査読有り筆頭著者
  • Sumitani M, Yamamoto DS, Oishi K, Lee JM, Hatakeyama M
    Insect biochemistry and molecular biology 33(4) 449-458 2003年4月  査読有り
  • Matsumoto K, Yamamoto DS, Sumitani M, Lee JM, Hatakeyama M, Oishi K
    Archives of insect biochemistry and physiology 49(1) 34-40 2002年1月  査読有り

MISC

 9

書籍等出版物

 2

講演・口頭発表等

 124

担当経験のある科目(授業)

 4

所属学協会

 5

共同研究・競争的資金等の研究課題

 13

メディア報道

 5