2023

329. Oishi S, Moriyama M, Fukatsu T. (2023) Structural remodeling of midgut symbiotic organ and altered food flow upon metamorphosis of the stinkbug Plautia stali. Applied Entomology and Zoology in press. [Abstract]
330. Fukatsu T, Gottlieb Y, Duron O, Graf J. (2023) Editorial: Microbial associates of blood-sucking arthropods and other animals: relevance to their physiology, ecology and evolution. Frontiers in Microbiology. [Full text]
331. Salem H, Biedermann P, Fukatsu T. (2023) Editorial: Diversity of beetles and associated microorganisms. Frontiers in Microbiology. [Full text]
332. Hu F.-S., Futahashi R. (2023) Molecular phylogenetic analysis and its impact on the conservation of Ischnura rubilio Selys, 1876 (Odonata: Coenagrionidae) in Taiwan. International Journal of Odonatology, 26: 63–73. [Abstract]
333.  Kiefer JST, Bauer E, Okude G, Fukatsu T, Kaltenpoth M, Engl T. (2023) Cuticle supplementation and nitrogen recycling by a dual bacterial symbiosis in a family of xylophagous beetles (Coleoptera: Bostrichidae). ISME Journal 17, 1029–1039 [Full text]
334. Hirota B, Koga R, Fukatsu T. (2023) Localization of symbiotic bacteria in embryogenesis of the lesser grain borer Rhyzopertha dominica and the African powderpost beetle Lyctus africanus (Coleoptera: Bostrichidae). Applied Entomology and Zoology in press.  [Abstract]

2022

323. Sasamoto A., Kotabe A., Takuma Y., Kawashima I., Okude G., Futahashi R. (2022) Description of larva of Anax ephippiger (Burmeister,1839) from Japan, including changes and developments in external morphology (Odonata: Aeshnidae). Tombo 65: 28-37.
324. Sasamoto A., Cho S., Futahashi R. (2022) Genetic similarity between Paracercion sieboldii and P. v-nigrum, with special reference to the population of Tsushima Island (Zygoptera: Coenagrionidae). Tombo 65: 21-27.
325. Kiyama H, Kakizawa S, Sasajima Y, Tahara YO, Miyata M. (2022) Reconstitution of a minimal motility system based on Spiroplasma swimming by two bacterial actins in a synthetic minimal bacterium. Science Advances 8(48): eabo7490. [Full text]
326. Kalkman V. J., Boudot J-P., Futahashi R., Abbott J. C., Bota-Sierra C. A., Guralnick R., Bybee S., Ware J., Belitz M. W. (2022) Diversity of Palaearctic Dragonflies and Damselflies (Odonata). Diversity 14: 966. [Full text]
327. *Kakizawa S, *Hosokawa T, Oguchi K, Miyakoshi K, Fukatsu T. (2022) Spiroplasma as facultative bacterial symbionts of stinkbugs. Frontiers in Microbiology 13: 1044771. (*Equal contributions) [Full text]
328. Nishide Y, Nagamine K, Kageyama D, Moriyama M, Futahashi R, Fukatsu T. (2022) A new antimicrobial peptide, Pentatomicin, from the stinkbug Plautia stali. Scientific Reports 12: 16503. [Full text]
329. Moriyama M, Fukatsu T. (2022) Host’s demand for essential amino acids is compensated by an extracellular bacterial symbiont in a hemipteran insect model. Frontiers in Physiology 13: 1028409. [Full text]
330. Koga R, Moriyama M, Onodera-Tanifuji N, Ishii Y, Hiroki Takai H, Mizutani M, Oguchi K, Okura R, Suzuki S, Goto Y, Hayashi T, Seki M, Suzuki Y, Nishide Y, Hosokawa T, Wakamoto Y, Furusawa C, Fukatsu T. (2022) Single mutation makes Escherichia coli an insect mutualist. Nature Microbiology 7: 1141-1150. [Full text]
331. Nishide Y*, Oguchi K*, Murakami M, Moriyama M, Koga R, Fukatsu T. (2022) Endosymbiotic bacteria of the boar louse Haematopinus apri (Insecta: Phthiraptera: Anoplura). Frontiers in Microbiology 13: 962252. (*Equal contributions) [Full text]
332. Moriyama M.*, Hayashi T.*, Fukatsu T. (2022) A mucin protein predominantly expressed in the female-specific symbiotic organ of the stinkbug Plautia stali. Scientific Reports 12: 7782. (*Equal contributions) [Full text]
333. Harumoto T., Fukatsu T. (2022) Perplexing dynamics of Wolbachia proteins for cytoplasmic incompatibility. PLOS Biology 20(5): e3001644. [Full text]
334. Futahashi R., Koshikawa S., Okude G., Osanai-Futahashi M. (2022) Diversity of melanin synthesis genes in insects. Advances in Insect Physiology 62: 339-376. [Abstract]
335. Okude G., Moriyama M., Kawahara-Miki R., Yajima S., Fukatsu T., Futahashi R. (2022) Molecular mechanisms underlying metamorphosis in the most ancestral winged insect. Proceedings of the National Academy of Sciences of the United States of America 119 (9): e2114773119 [Full text]

2021

310. Fukumori K.*, Oguchi K.*, Ikeda H., Shinohara T., Tanahashi M., Moriyama M., Koga R., Fukatsu T. (2021) Evolutionary dynamics of host organs for microbial symbiosis in tortoise leaf beetles (Coleoptera: Chrysomelidae: Cassidinae). mBio 13(1): e03691-21.  (*Equal contributions) [Full text]
311. Shibao H., Kutsukake M., Matsuyama S., Fukatsu T. (2021) Linoleic acid as corpse recognition signal in a social aphid. Zoological Letters 8: 2. [Full text]
312. Sun J., Futahashi R., Yamanaka T. (2021) Improving the accuracy of species identification by combining deep learning with field occurrence records. Frontiers in Ecology and Evolution, 9: 762173. [Full text]
313. Deng J., Assandri G., Chauhan P., Futahashi R., Galimberti A., Hansson B., Lancaster L.T., Takahashi Y., Svensson E.I., Duplouy A. (2021) Wolbachia-driven selective sweep in a range expanding insect species. BMC Ecology and Evolution, 21(1): 181. [Full text]
314. Aoki, S., Kurosu, U., Fukatsu, T., Hsin-Ting, Y., Kutsukake, M. (2021) Revision of the Japanese species of Metanipponaphis (Hemiptera, Aphididae) and its allied genera. Entomological Science 24(3): 302-319. [Abstract]
315. Kompier T., Karube H., Futahashi R., Toan Q. (2021) The genus Planaeschna McLachlan, 1895 and its subgroupings in Vietnam, with descriptions of three new species (Odonata: Aeshnidae). Zootaxa, 5027(1): 1-35. [Abstract]
316. Tomihara K., Satta K., Matsuzaki S., Yoshitake K., Yamamoto K., Uchiyama H., Yajima S., Futahashi R., Katsuma S., Osanai-Futahashi M., Kiuchi T. (2021) Mutations in a β-group of solute carrier gene are responsible for egg and eye coloration of the brown egg 4 (b-4) mutant in the silkworm, Bombyx mori. Insect Biochemistry and Molecular Biology, 137: 103624. [Abstract]
317. *Koga R., *Tanahashi M., Nikoh N., Hosokawa T., Meng X. Y., Moriyama M., Fukatsu T. (2021) Host’s guardian protein counters degenerative symbiont evolution. Proceedings of the National Academy of Sciences of the United States of America 118 (25): e2103957118. (*Equal contributions) [Full text]
318. Takahashi M., Okude G., Futahashi R., Takahashi Y., Kawata M. (2021) The effect of the doublesex gene in body color masculinization of the damselfly Ischnura senegalensis. Biology Letters 17: 20200761. [Abstract]
319. *Nishino T., *Hosokawa T., Meng X. Y., Koga R., Moriyama M., Fukatsu T. (2021) Environmental acquisition of gut symbiotic bacteria in the saw-toothed stinkbug Megymenum gracilicorne (Hemiptera: Pentatomoidea: Dinidoridae). Zoological Science 38 (3) : 213-222. (*Equal contributions) [Full Text]
320. Kiefer J. S. T., Batsukh S., Bauer E., Hirota B., Weiss, B., Wiertz J. C., Fukatsu T., Kaltenpoth M., Engl T. (2021) Inhibition of a nutritional endosymbiont by glyphosate abolishes mutualistic benefit on cuticle synthesis. Communications Biology 4: 554. [Full text]
321. Ogoh K, Futahashi R, Ohmiya Y. (2021) Intraspecific nucleotide polymorphisms in seven complete sequences of mitochondrial DNA of the luminous ostracod, Vargula hilgendorfii (Crustacea, Ostracoda). Gene Reports 23: 101074. [Full Text]
322. Okude G., Fukatsu T., Futahashi R. (2021) Comprehensive comparative morphology and developmental staging of final instar larvae toward metamorphosis in the insect order Odonata. Scientific Reports 11: 5164. [Full Text]
323. Fukatsu T. (2021) The long and winding road for symbiont and yolk protein to host oocyte. mBio 12(1): e02997-20. [Full text]
324. Okude G., Fukatsu T., Futahashi R. (2021) Electroporation-mediated RNA interference method in Odonata. Journal of Visualized Experiments 168: e61952. [Full Text]
325. Okude G., Futahashi R. (2021) Pigmentation and color pattern diversity in Odonata. Current Opinion in Genetics and Development 69: 14-20. [Full Text]
326. Nishide Y., Kageyama D., Tanaka Y., Yokoi K., Jouraku A., Futahashi R., Fukatsu T. (2021) Effectiveness of orally-delivered double-stranded RNA on gene silencing in the stinkbug Plautia stali. PLoS One 16(1): e0245081. [Full Text]
327. Shibao H., Kutsukake M., Fukatsu T. (2021) Temporal division of labor in an aphid social system. Scientific Reports 11: 1183. [Full Text]

2020

292. Hirota B., Meng X. Y., Fukatsu T. (2020) Bacteriome-associated endosymbiotic bacteria of Nosodendron tree sap beetles. Frontiers in Microbiology 11: 588841. [Full text]
293. Nikoh N., Tsuchida T., Koga R., Oshima K., Hattori M., Fukatsu T. (2020) Genome analysis of “Candidatus Regiella insecticola” strain TUt, facultative bacterial symbiont of the pea aphid Acyrthosiphon pisum. Microbiology Resource Announcements 9: e00598-20. [Full text]
294. Futahashi R. (2020) Diversity of UV reflection patterns in Odonata. Frontiers in Ecology and Evolution 8: 201. [Full text]
295. Noda T., Okude G., Meng X. Y., Koga R., Moriyama M., Fukatsu T. (2020) Bacteriocytes and Blattabacterium endosymbionts of the German cockroach Blattella germanica, the forest cockroach B. nipponica, and other cockroach species. Zoological Science 37(5): 399-410. [Full text]
296. Kubota K., Watanabe K., Zhu X. J., Kawakami K., Tanahashi M., Fukatsu T. (2020) Evolutionary relationship between Platycerus stag beetles and their mycangium-associated yeast symbionts Frontiers in Microbiology 11: 1436. [Full text]
297. Salem H., Kirsch R., Pauchet Y., Berasategui A., Fukumori K., Moriyama M., Cripps M., Windsor D., Fukatsu T., Gerardo N. M. (2020) Symbiont digestive range reflects host plant breadth in herbivorous beetles. Current Biology 30: 2875-2886. [Abstract]
298. Egan S., Fukatsu T., Francino M. P. (2020) Opportunities and challenges to microbial symbiosis research in the microbiome era. Frontiers in Microbiology 11: 1150. [Full text]
299. Sasamoto A., Yanagisawa T., Yokoi N., Zhang H., Souphanthong V., Futahashi R. (2020) The record of dark color form of Merogomphus pavici from Laos (Odonata: Gomphidae). Tombo, 62: 73-76.
300. Reis F., Kirsch R., Pauchet Y., Bauer E., Bilz L. C., Fukumori K., Fukatsu T., Kölsch G., Kaltenpoth M. (2020) Bacterial symbionts provide life stage-specific benefits that support larval sap feeding and adult folivory in aquatic reed beetles. Nature Communications 11: 2964. [Full text]
301. Okude G., Futahashi R. (2020) Interspecific hybrid between Paracercion sieboldii and P. melanotum from Japan (Odonata: Coenagrionidae). Notulae odonatologicae 9(5): 204-208.
302. Okude G., Fukatsu T., Futahashi R. (2020) Interspecific crossing between blue-tailed damselflies Ischnura elegans and I. senegalensis in the laboratory. Entomological Science 23(2): 165-172. [Abstract]
303. Mondal S. I., Akter A., Koga R., Hosokawa T., Dayi M., Murase K., Tanaka R., Shigenobu S., Fukatsu T., Kikuchi T. (2020) Reduced genome of the gut symbiotic bacterium “Candidatus Benitsuchiphilus tojoi” provides insight into its possible roles in ecology and adaptation of the host insect. Frontiers in Microbiology 11: 840. [Full text]
304. Hosokawa T., Fukatsu T. (2020) Relevance of microbial symbiosis to insect behavior. Current Opinion in Insect Science 39: 91-100. [Full text]
305. Nishide Y., Kageyama D., Hatakeyama M., Yokoi K., Jouraku A., Tanaka H., Koga R., Futahashi R., Fukatsu T. (2020) Diversity and function of multicopper oxidase genes in the stinkbug Plautia stali. Scientific Reports 10: 3464. [Full text]

2019

278. Conniff K., Sasamoto A., Futahashi R., Singh Limbu M. (2019) Revision of the status of Anaciaeschna donaldi and A. martini, with allied species, and distributional notes (Odonata: Aeshnidae). Odonatologica, 48(3/4): 265-284. [Abstract]
279. Aoki S., Kurosu U., Uematsu K., Fukatsu T., Kutsukake M. (2019) Dimorphic sessile apterae of the aphid Neothoracaphis glaucae (Hemiptera) on the evergreen oak Quercus glauca. Psyche 2019: 1280414. [Full text]
280. Fukatsu T. (2019) Grand challenges to launching an ideal platform for publishing microbe-insect symbiosis studies. Frontiers in Microbiology 10: 2542. [Full text]
281. Kuechler S., Fukatsu T., Matsuura Y. (2019) Repeated evolution of bacteriocytes in lygaeoid stinkbugs. Environmental Microbiology 21(11): 4378-4394. [Abstract]
282. Hosokawa T., Imanishi M., Koga R., Fukatsu T. (2019) Diversity and evolution of bacterial symbionts in the gut symbiotic organ of jewel stinkbugs (Hemiptera: Scutelleridae). Applied Entomology and Zoology 54(4): 359-367. [Abstract]
283. Togawa Y., Shinji J., Fukatsu T., Miura T. (2019) Development of cerata in the cladobranchian sea slug Pteraeolidia semperi (Mollusca: Gastropoda: Nudibranchia). Zoological Science 36(5): 387-394. [Abstract]
284. Mitani Y., Yasuno R., Futahashi R., Oakley T.H., Ohmiya Y. (2019) Luciferase gene of a Caribbean fireworm (Syllidae) from Puerto Rico. Scientific Reports, 9(1):13015. [Full text]
285. Kutsukake M., Uematsu K., Fukatsu T. (2019) Plant manipulation by gall-forming social aphids for waste management. Frontiers in Plant Science 10: 933. [Full text]
286. Oishi S., Moriyama M., Koga R., Fukatsu T. (2019) Morphogenesis and development of midgut symbiotic organ of the stinkbug Plautia stali (Hemiptera: Pentatomidae). Zoological Letters 5: 16. [Full text] [PDF]
287. Ohbayashi T., Futahashi R., Terashima M., Barriere Q., Meng X. Y., Mitani Y., Sone T., Shigenobu S., Fukatsu T., Mergaert P., Kikuchi Y. (2019) Comparative cytology, physiology and transcriptomics Burkholderia insecticola in symbiosis with the bean bug Riptortus pedestris and in culture. ISME Journal 13(6): 1469-1483.
     https://www.nature.com/articles/s41396-019-0361-8
     [Abstract]
288. Aoki S., Kurosu U., Uematsu K., Fukatsu T., Kutsukake M. (2019) Two closely related species of Nipponaphis (Hemiptera: Aphididae) that migrate between Distylium racemosum and Machilus trees in Japan. Entomological Science 22(2): 220-229.
     https://onlinelibrary.wiley.com/doi/abs/10.1111/ens.12358
     [Abstract]
289. Nikoh N., Koga R., Oshima K., Hattori M., Fukatsu T. (2019) Genome sequence of “Candidatus Serratia symbiotica” strain IS, facultative bacterial symbiont of the pea aphid Acyrthosiphon pisum. Microbiology Resource Announcements 8: e00272-19. [Full text] [PDF]
290. Kutsukake M., Moriyama M., Shigenobu S., Meng X. Y., Nikoh N., Noda C., Kobayashi S., Fukatsu T. (2019) Exaggeration and co-option of innate immunity for social defense. Proceedings of the National Academy of Sciences of the United States of America 116 (18) 8950-8959.
     https://www.pnas.org/content/early/2019/04/09/1900917116.abstract
     [Full text] [PDF]
291. Koto A., Motoyama N., Tahara H., McGregor S., Moriyama M., Okabe T., Miura M., Keller L. (2019) Oxytocin/vasopressin-like peptide inotocin regulates cuticular hydrocarbon synthesis and water balancing in ants. Proceedings of the National Academy of Sciences of the United States of America 116 (12) 5597-5606.
     https://doi.org/10.1073/pnas.1817788116
     [Full Text] [PDF]
292. Moriyama M., Numata H. (2019) Eco-physiological responses to climate change in cicadas. Physiological Entomology 44(2): 65-76.
     https://doi.org/10.1111/phen.12283
     [Abstract]
293. Sasamoto A., Yokoi N, Souphanthong V., Phan Q. T., Futahashi R. (2019) Discovery of a third species of the genus Noguchiphaea Asahina, 1976 –Noguchiphaea laotica sp. n. from Laos (Odonata: Calopterygidae) International Journal of Odonatology 22(1): 59-71. [Abstract]
294. Nishide Y., Kageyama D., Yokoi K., Tanaka H., Futahashi R., Fukatsu T. (2019) Functional crosstalk across IMD and Toll pathways: insight into the evolution of incomplete immune cascades. Proceedings of the Royal Society B 286: 20182207.
     https://royalsocietypublishing.org/doi/10.1098/rspb.2018.2207[Abstract]
295. Futahashi R., Yamahama Y., Kawaguchi M., Mori N., Ishii D., Okude G., Hirai Y., Kawahara-Miki R., Yoshitake K., Yajima S., Hariyama T., Fukatsu T. (2019) Molecular basis of wax-based color change and UV reflection in dragonflies. eLife 8: e43045.
     https://doi.org/10.7554/eLife.43045 [Full Text] [PDF]
     

2018

260. Uematsu K., Kutsukake M., Fukatsu T. (2018) Water-repellent plant surface structure induced by gall-forming insects for waste management. Biology Letters 14(10). pii: 20180470. DOI: 10.1098/rsbl.2018.0470
     http://rsbl.royalsocietypublishing.org/content/14/10/20180470
261. Mitani Y., Isaka M., Mitsuda N., Futahashi R., Kamagata Y., Ohmiya Y. (2018) Novel gene encoding a unique luciferase from the fireworm Odontsyllis undecimdonta. Scientific Reports 8(1):12789. DOI: 10.1038/s41598-018-31086-1 [Abstract] [PDF]
262. Nikoh N., Tsuchida T., Maeda T., Yamaguchi K., Shigenobu S., Koga R., Fukatsu T. (2018) Genomic insight into symbiosis-induced insect color change by a facultative bacterial endosymbiont “Candidatus Rickettsiella viridis”. mBio 9(3): e00890-18. [Abstract] [PDF]
263. Matsuura Y., Moriyama M., Łukasik P., Vanderpool D., Tanahashi M., Meng X. Y., McCutcheon J. P., Fukatsu T. (2018) Recurrent symbiont recruitment from fungal parasites in cicadas. Proceedings of the National Academy of Sciences of the United States of America 115(26):E5970-E5979. DOI: 10.1073/pnas.1803245115. [Abstract] [PDF]
264. Tanahashi M., Fukatsu T. (2018) Natsumushi – An image measuring software for entomological studies. Entomological Science 21(3): 347-360. doi: 10.1111/ens.12315. [Abstract]
265. Harumoto T., Fukatsu T., Lemaitre B. (2018) Common and unique strategies of male killing evolved in two distinct Drosophila symbionts. Proceedings of the Royal Society B 285(1875): 20172167. [Abstract]
266. Aoki S., Kurosu U., Uematsu K., Fukatsu T., Kutsukake M. (2018) Dermaphis coccidiformis sp. nov. (Hemiptera), an aphid species with asynmetrically sclerotized apterae and “winter alates”. Entomological Science 21(1): 142-53. [Abstract]
267. Sasamoto A., Kawashima I., Kompier T., Futahashi R. (2018) Consideration of the taxonomical relationship of Sympetrum speciosum and its subspecies haematoneura based on adult and larval morphology and genetic analyses, with a first record of speciosum from Vietnam and larval description of haematoneura (Anisoptera: Libellulidae). Tombo, 60: 79-89.

2017

252. Tanahashi M., Kim J. K., Watanabe K., Fukatsu T., Kubota K. (2017) Specificity and genetic diversity of xylose-fermenting Scheffersomyces yeasts associated with small blue stag beetles of the genus Platycerus in East Asia. Mycologia 109(4): 630-642. [Abstract]
253. Yan HY., Mita K., Zhao X., Tanaka Y., Moriyama M., Wang H., Iwanaga M., Kawasaki H. (2017) The angiotensin-converting enzyme (ACE) gene family of Bombyx mori. Gene 608:58-65. [Abstract]
254. Salem H., Bauer E., Kirsch R., Berasategui A., Cripps M., Weiss B., Koga R., Fukumori K., Vogel H., Fukatsu T., Kaltenpoth M. (2017) Drastic genome reduction in an herbivore’s pectinolytic symbiont. Cell 171(7): 1520-1531. [Abstract] [PDF]
255. Fukumori K., Koga R., Nikoh N., Fukatsu T. (2017) Symbiotic bacteria associated with gut symbiotic organ and female genital accessory organ of the leaf beetle Bromius obscurus (Coleoptera: Chrysomelidae). Applied Entomology and Zoology 52(4): 589-598. [Abstract]
256. Okude G., Futahashi R., Tanahashi M., Fukatsu T. (2017) Laboratory rearing system for Ischnura senegalensis (Insecta: Odonata) enables detailed description of larval development and morphogenesis in dragonfly. Zoological Science 34(5): 386-397. [Abstract]
257. *Leclair M., *Polin S., Jousseaume T., Simon J. C., Sugio A., Morliere S., Fukatsu T., Tsuchida T., Outreman Y. (2017) Consequences of co-infection with protective symbionts on the host phenotype and symbiont titers in the pea aphid system. Insect Science 24(5): 798-808. (*Equal contributions) [Abstract]
258. *Anbutsu H., *Moriyama M., *Nikoh N., Hosokawa T., Futahashi R., Tanahashi M., Meng X. Y., Kuriwada T., Mori N., Oshima K., Hattori M., Fujie M., Satoh N., Maeda T., Shigenobu S., Koga R., Fukatsu T. (2017) Small genome symbiont underlies cuticle hardness in beetles. Proceedings of the National Academy of Sciences of the United States of America 114(40): E8382-E8391. (*Equal contributions) [Abstract] [PDF]
259. Hirota B., Okude G., Anbutsu H., Futahashi R., Moriyama M., Meng X. Y., Nikoh N., Koga R., Fukatsu T. (2017) A novel, extremely elongated, and endocellular bacterial symbiont supports cuticle formation of a grain pest beetle. mBio 8(5): e01482-17. [Abstract] [PDF]
260. Okude G., Koga R., Hayashi T., Nishide Y., Meng X. Y., Nikoh N., Miyanoshita A., Fukatsu T. (2017) Novel bacteriocyte-associated pleomorphic symbiont of the grain pest beetle Rhyzopertha dominica (Coleoptera: Bostrichidae). Zoological Letters 3: 13. [Full text]
261. Nishide Y., Onodera-Tanifuji N., Tanahashi M., Moriyama M., Fukatsu T., Koga R. (2017) Aseptic rearing procedure for the stinkbug Plautia stali (Hemiptera: Pentatomidae) by sterilizing food-derived bacterial contaminants. Applied Entomology and Zoology 53(3): 407-415. [Abstract]
262. Okude G., Futahashi R., Kawahara-Miki R., Yoshitake K., Yajima S., Fukatsu T. (2017) Electroporation-mediated RNA interference reveals a role of multicopper oxidase 2 gene in dragonfly cuticular pigmentation. Applied Entomology and Zoology 53(3): 379-387. [Abstract]
263. Tanahashi M., Meng X. Y., Fukatsu T. (2017) A novel symbiotic ciliate (Ciliophora: Peritrichia) in the hindgut of a stag beetle (Coleoptera: Lucanidae). Zoological Science 34(3): 217-222. [Abstract]
264. Kuratani S., Fukatsu T. (2017) Paleontological studies integrated into a new evolutionary zoology. Zoological Science 34(1): 1-4. [Abstract] [PDF]
265. Itoh H., Matsuura Y., Hosokawa T., Fukatsu T., Kikuchi Y. (2017) Obligate gut symbiotic association in the sloe bug Dolycoris baccarum (Hemiptera: Pentatomidae). Applied Entomology and Zoology 52(1): 51-59. [Abstract]
266. Lee J. B., Park K. E., Lee S. A., Eo H. J., Jang H. A., Kim C. H., Ohbayashi T., Matsuura Y., Kikuchi Y., Futahashi R., Fukatsu T., Lee B. L. (2017) Gut symbiotic bacteria stimulate insect growth and egg production by modulating hexamerin and vitellogenin gene expression. Developmental and Comparative Immunology 69: 12-22. [Abstract] 
267. Sasamoto A., Futahashi R. (2017) What are Bartenev’s (1930) forgotten Japanese species »Gomphus acutus« and »Gomphus excavatus« (Odonata: Gomphidae)? Notulae Odonatologicae, 8(9), 319-325. [PDF]
268. Sasamoto A., Futahashi R., Kosterin O.E., Malikova E. I. (2017) Note on Othetrum melania (Anisoptera: Libellulidae) from Kunashir Island with a reference to its subspecific status. Tombo, 59: 74-76. [Link]
269. Nagahata Y., Futahashi R., Tshistjakov Y. A. (2017) New record of Sympetrum darwinianum from Russia. Tombo, 59: 84. [Link]
270. Mitani Y., Futahashi R., Liu Z., Liang Z., Ohmiya Y. (2017) Tibetan firefly luciferase with low temperature adaptation. Photochemistry and Photobiology, 93(2): 466-472. [Abstract]
271. Łukasik P., Newton J.A., Sanders J.G., Hu Y., Moreau C.S., Kronauer D.J.C., O’Donnell S., Koga R., Russell J.A.  (2017). The structured diversity of specialized gut symbionts of the New World army ants. Molecular Ecology, 26(14), 3808–3825. [Abstract]
272. Sanders J.G., Łukasik P., Frederickson M.E., Russell J.A., Koga R., Knight R., Pierce N.E. (2017). Dramatic differences in gut bacterial densities correlate with diet and habitat in rainforest ants. Integrative and Comparative Biology, 57(4), 705–722. [Abstract]

2016

231. Hosokawa T., Matsuura Y., Kikuchi Y., Fukatsu T. (2016) Recurrent evolution of gut symbiotic bacteria in pentatomid stinkbugs. Zoological Letters 2: 34. [Full text] [PDF]
232. Fukatsu T., Futahashi R. (2016) Molecular basis of insect colors and patterns. Current Opinion in Insect Science 17: vi-viii. [Abstract]
233. Kurosu U., Aoki S., Kutsukake M., Fukatsu T. (2016) Defensive nymphs of the wooly aphid Thoracaphis kashifolia (Hemiptera) on the oak Quercus glauca. Psyche 2016: 4036571. [Full text]
234. Kikuchi Y., Tada A., Musolin D., Hari N., Hosokawa T., Fujisaki K., Fukatsu T. (2016) Collapse of insect-microbe symbiosis under simulated climate change. mBio 7(5): e01578-16. [Full text]
235. Harumoto T., Anbutsu H., Lemaitre B., Fukatsu T. (2016) Male-killing symbiont damages host’s dosage-compensated sex chromosome to induce embryonic apoptosis. Nature Communications 7: 12781. [Full text]
236. Nishino T., Tanahashi M., Lin C. P., Koga R., Fukatsu T. (2016) Fungal and bacterial endosymbionts of eared leafhoppers of the subfamily Ledrinae (Hemiptera: Cicadellidae). Applied Entomology and Zoology 51(3): 465-477. [Abstract]
237. Kim J. K., Lee J. B., Jan H. A., Fukatsu T., Lee B. L. (2016) Understanding regulation ofthe host-mediated gut symbiont population and the symbiont-mediated host immunity in the Riptortus-Burkholderia symbiosis system. Developmental and Comparative Immunology 64: 75-81. [Abstract]
238. Boyd B. M., Allen J. M., Koga R., Fukatsu T., Sweet A. D., Johnson K. P., Reed D. L. (2016) Two bacterial genera, Sodalis and Rickettsia, associated with the seal louse Proechinophthirus fluctus (Phthiraptera: Anoplura). Applied and Environmental Microbiology 82(11): 3185-3197. [Abstract] [PDF]
239. Shibao H., Takahashi T., Kutsukake M., Matsuyama S., Shimada M., Fukatsu T. (2016) Social aphids use their antennae to perceive density cue for soldier production. Entomological Science 19(2): 147-151. [Abstract]
240. Moriyama M., Hosokawa T., Tanahashi M., Nikoh N., Fukatsu T. (2016) Suppression of bedbug’s reproduction by RNA interference of vitellogenin. PLoS One 11(4): e0153984. [Full Text]
241. Fukatsu T., Kuratani S. (2016) Launch of Zoological Letters. Zoological Science 33(1): 1-5. [Abstract] [PDF]
242. Fukatsu T. (2016) Entomological journals and publishing in Japan. Applied Entomology and Zoology 51(1): 1-10. [Abstract] [Full Text]
243. Hosokawa T., Ishii Y., Nikoh N., Fujie M., Satoh N., Fukatsu T. (2016) Obligate bacterial mutualists evolving from environmental bacteria in natural insect populations. Nature Microbiology 1: 15011. [Full Text]  
244. Bybee S., Cordoba-Aguilar A., Duryea M.C., Futahashi R., Hansson B., Lorenzo-Carballa M.O., Schilder R., Stoks R., Suvorov A., Svensson E.I., Swaegers J., Takahashi Y., Watts P.C., Wellenreuther M. (2016) Odonata (dragonflies and damselflies) as a bridge between ecology and evolutionary genomics. Frontiers in Zoology, 13: 46. [Full Text] 
245. Futahashi R. (2016) Color vision and color formation in dragonflies. Current Opinion in Insect Science, 17: 32-39. [Full Text]
246. Kompier T., Futahashi R. (2016) A new subspecies of Orthetrum melania from Vietnam (Odonata: Libellulidae). Tombo, 58: 27-33. [Link]
247. Osanai-Futahashi M., Tatematsu K., Futahashi R., Narukawa J., Takasu Y., Kayukawa T., Shinoda T., Ishige T., Yajima S., Tamura T., Yamamoto K., Sezutsu H. (2016) Positional cloning of a Bombyx pink eyed white egg locus reveals the major role of cardinal in ommochrome synthesis. Heredity, 116(2): 135-145. [Full Text]

2015

214. *Moriyama M., *Nikoh N., Hosokawa T., Fukatsu T. (2015) Riboflavin provisioning underlies Wolbachia‘s fitness contribution to its insect host. mBio6(6): e01732-15. (*Equal contributions) [Abstract] [PDF]
215. Aoki S., Kutsukake M., Kurosu U., Yeh H. T., Sano M., Fukatsu T. (2015) Nipponaphis species (Aphididae: Hormaphidinae) that form green galls on Distylium racemosum in Japan. Entomological Science 18(4): 420-434. [Abstract]
216. Ohbayashi T., Takeshita K., Kitagawa W., Nikoh N., Koga R., Meng X. Y., Tago K., Hori T., Hayatsu M., Asano K., Kamagata Y., Lee B. L., Fukatsu T., Kikuchi Y. (2015) Insect’s intestinal organ for symbiont sorting. Proceedings of the National Academy of Sciences of the United States of America 112(37): E5179-E5188. [Abstract] [PDF]
217. Kim J. K., Son D. W., Kim C. H., Cho J. H., Marchetti R., Silipo A., Sturiale L., Park H. Y., Huh Y. R., Nakayama H., Fukatsu T., Molinaro A., Lee B. L. (2015) Insect gut symbiont susceptibility to host antimicrobial peptides caused by alteration of the bacterial cell envelope. Journal of Biological Chemistry 290(34): 21042-21053. [Abstract] [PDF]
218. Matsuura Y., Kikuchi Y., Miura T., Fukatsu T. (2015) Ultrabithorax is essential for bacteriocyte development. Proceedings of the National Academy of Sciences of the United States of America 112(30): 9376–9381. [Abstract] [PDF]
219. Ukuda-Hosokawa R., Sadoyama Y., Kishaba M., Kuriwada T., Anbustu H., Fukatsu T. (2015) Infection density dynamics of the citrus greening bacterium ‘Candidatus Liberibacter asiaticus’ in field populations of the psyllid Diaphorina citri and its relevance to the efficiency of pathogen transmission to citrus plants. Applied and Environmental Microbiology81(11): 3728-3736. [Abstract]
220. Hosokawa T., Koga R., Tanaka K., Moriyama M., Anbustu H., Fukatsu T. (2015) Nardonella endosymbionts of Japanese pest and non-pest weevils (Coleoptera: Curculionidae). Applied Entomology and Zoology50(2): 223-229. [Abstract]
221. Futahashi R., Kawahara-Miki R., Kinoshita M., Yoshitake K., Yajima S., Arikawa K., Fukatsu T. (2015) Extraordinary diversity of visual opsin genes in dragonflies. Proceedings of the National Academy of Sciences of the United States of America 112(11): E1247-E1256. [Abstract] [PDF]
222. Hayashi T., Hosokawa T., Meng X. Y., Koga R., Fukatsu T. (2015) Female-specific specialization of a posterior end region of the midgut symbiotic organ in Plautia splendens and allied stinkbugs. Applied and Environmental Microbiology81(7): 2603-2611. [Abstract]
223. Hosokawa T., Kaiwa N., Matsuura Y., Kikuchi Y., Fukatsu T. (2015) Infection prevalence of Sodalis symbionts among stinkbugs. Zoological Letters1: 5. [Abstract] [PDF]  
224. Kosterin O.E., Karube H., Futahashi R. (2015) Two new subspecies of Hemicordulia tenera Lieftinck, 1930 (Corduliidae) from Cambodia and Thailand. IDF-Report, 82: 1-19. [PDF]

2014

203. *Kaiwa N., *Hosokawa T., Nikoh N., Tanahashi M., Moriyama M., Meng X. Y., Maeda T., Yamaguchi K., Shigenobu S., Ito M., Fukatsu T. (2014) Symbiont-supplemented maternal investment underpinning host’s ecological adaptation. Current Biology 24(20): 2465-2470. (*Equal contributuions) [Abstract] [PDF]
204. *Nikoh N., *Hosokawa T., *Moriyama M., Oshima K., Hattori M., Fukatsu T. (2014) Evolutionary origin of insect-Wolbachia nutritional mutualism. Proceedings of the National Academy of Sciences of the United States of America 111(28): 10257-10262. (*Equal contributuions) [Abstract] [PDF]
205. Kim J. K., Kwon J. Y., Kim S. K., Han S. H., Won Y. J., Lee J. H., Kim C. H., Fukatsu T., Lee B. L. (2014) Purine biosynthesis, biofilm formation, and persistence of an insect-microbe gut symbiosis. Applied and Environmental Microbiology 80(14): 4374-4382. [Abstract] [PDF]
206. Takeshita K., Shibata T. F., Nikoh N., Yamaguchi K., Nishiyama T., Hasebe M., Fukatsu T., Shigenobu S., Kikuchi Y. (2014) Whole-genome sequence of Burkholderia sp. strain RPE67, a bacterial gut symbiont of the bean bug Riptortus pedestris. Genome Announcements 2(3): e00556-14. [Abstract] [PDF]
207. Watanabe K., Yukuhiro F., Matsuura Y., Fukatsu T., Noda H. (2014) Intrasperm vertical symbiont transmission. Proceedings of the National Academy of Sciences of the United States of America 111(20): 7433-7437. [Abstract] [PDF]
208. Matsuura Y., Hosokawa T., Serracin M.,Tulgetske G. M., Miller T. A., Fukatsu T. (2014) Bacterial symbionts of a devastating coffee plant pest, the stinkbug Antestiopsis thunbergii (Hemiptera: Pentatomidae). Applied and Environmental Microbiology 80(12): 3769-3775. [Abstract] [PDF]
209. Kikuchi Y., Fukatsu T. (2014) Live imaging of symbiosis: spatiotemporal infection dynamics of a GFP-labeled Burkholderia symbiont in the bean bug Riptortus pedestris. Molecular Ecology 23(6): 1445-1456. [Abstract] [PDF]
210. Kim J. K., Jang H. A., Won Y. J., Kikuchi Y., Han S. H., Kim C. H., Nikoh N., Fukatsu T., Lee B. L. (2014) Purine biosynthesis-deficient Burkholderia mutants are incapable of symbiotic accommodation in the stinkbug. The ISME Journal 8: 552-563. [Abstract] [PDF]
211. Harumoto T., Anbutsu H., Fukatsu T. (2014) Male-killing Spiroplasma induces sex-specific cell death via host apoptotic pathway. PLoS Pathogens 10(2): e1003956. [Full Text]
212. Hosokawa T., Nikoh N., Fukatsu T. (2014) Fine-scale geographical origin of an insect pest invading North America. PLoS One 9(2): e89107. [Full Text]
213. Kim J. K., Han S. H., Kim C. H., Jo Y. H., Futahashi R., Kikuchi Y., Fukatsu T., Lee B. L. (2014) Molting-associated supression of symbiont population and up-regulation of antimicrobial activity in the midgut symbiotic organ of the Riptortus-Burkholderia symbiosis. Developmental and Comparative Immunology 43(1): 10-14. [Abstract] [PDF]
214. Tsuchida T., Koga R., Fujiwara A., Fukatsu T. (2014) Phenotypic effect of “Candidatus Rickettsiella viridis,” a facultative symbiont of the pea aphid (Acyrthosiphon pisum), and its interaction with a coexisting symbiont. Applied and Environmental Microbiology 80(2): 525-533. [Abstract] [PDF]  
215. Koga, R., & Moran, N. A. (2014). Swapping symbionts in spittlebugs: evolutionary replacement of a reduced genome symbiont. The ISME Journal, 8(6), 1237–1246. [Full Text] [PDF]
216. Aikawa T., Nikoh N., Anbutsu H., Togashi K. (2014) Prevalence of laterally transferred Wolbachia genes in Japanese pine sawyer, Monochamus alternatus (Coleoptera: Cerambycidae). Applied Entomology and Zoology 49 (2): 337-346. [Abstract] [PDF]

2013

189. Nakabachi A., Nikoh N., Oshima K., Inoue H., Ohkuma M., Hongoh Y., Miyagishima S., Hattori M., Fukatsu T. (2013) Horizontal gene acquisition of Liberibacter plant pathogens from a bacteriome-confined endosymbiont of their psyllid vector. PLoS One 8(12): e82612. [Full Text]
190. Kim J. K., Kim N. H., Jang H. A., Kikuchi Y., Kim C. H., Fukatsu T., Lee B. L. (2013) Specific midgut region controlling the symbiont population in an insect-microbe gut symbiotic association. Applied and Environmental Microbiology 79(23): 7229-7233. [Abstract] [PDF]
191. Nakabachi A., Ueoka R., Oshima K., Teta R., Mangoni A., Gurgui M., Oldham N. J., van Echten-Deckert G., Okamura K., Yamamoto K., Inoue H., Ohkuma M., Hongoh Y., Miyagishima S., Hattori M., Piel J., Fukatsu T. (2013) Defensive bacteriome symbiont with a drastically reduced genome. Current Biology 23(15): 1478-1484. [Abstract] [PDF]
192. Ishii Y., Matsuura Y., Kakizawa S., Nikoh N., Fukatsu T. (2013) Diversity of bacterial endosymbionts associated with Macrosteles leafhoppers vectoring phytopathogenic phytoplasmas. Applied and Environmental Microbiology 79(16): 5013-5022. [Abstract] [PDF]
193. Kim J. K., Lee H. J., Kikuchi Y., Kitagawa W., Nikoh N., Fukatsu T., Lee B. L. (2013) Bacterial cell wall synthesis gene uppP is required for Burkholderia colonization of the stinkbug gut. Applied and Environmental Microbiology 79(16): 4879-4886. [Abstract] [PDF]
194. Shibata T. F., Maeda T., Nikoh N., Yamaguchi K., Oshima K., Hattori M., Nishiyama T., Hasebe M., Fukatsu T., Kikuchi Y., Shigenobu S. (2013) Complete genome sequence of Burkholderia sp. strain RPE64, bacterial symbiont of the bean bug Riptortus pedestris. Genome Announcements 1(4): e00441-13. [Abstract] [PDF]
195. Kim J. K.,Won Y. J., Nikoh N., Nakayama H., Han S. H., Kikuchi Y., Rhee Y. H., Park H. Y., Kwon J. Y., Kurokawa K., Dohmae N., Fukatsu T., Lee B. L. (2013) Polyester synthesis genes associated with stress resistance are involved in an insect-bacterium symbiosis. Proceedings of the National Academy of Sciences of the United States of America 110(26): E2381-E2389. [Abstract] [PDF]
196. Toju H., Tanabe A. S., Notsu Y., Sota T., Fukatsu T. (2013) Diversification of endosymbiosis: replacements, co-speciation and promiscuity of bacteriocyte symbionts in weevils. The ISME Journal 7: 1378-1390. [Abstract] [PDF]
197. Husnik F., Nikoh N., Koga R., Ross L., Duncan R. P., Fujie M., Tanaka M., Satoh N., Bachtrog D., Wilson A. C. C., von Dohlen C. D., Fukatsu T., McCutcheon J. P. (2013) Horizontal gene transfer from diverse bacteria to an insect genome enables a tripartite nested mealybug symbiosis. Cell 153(7): 1567-1578. [Abstract] [PDF]
198. Smith W. A., Oakeson K. F., Johnson K. P., Reed D. L., Carter T., Smith K. L., Koga R., Fukatsu T., Clayton D. H., Dale C. (2013) Phylogenetic analysis of symbionts in feather-feeding lice of the genus Columbicola: evidence for repeated symbiont replacements. BMC Evolutionary Biology 13: 109. [Abstract] [PDF]
199. Hosokawa T., Hironaka M., Inadomi K., Mukai H., Nikoh N., Fukatsu T. (2013) Diverse strategies for vertical symbiont transmission among subsocial stinkbugs. PLoS One 8(5): e65081. [Full Text]
200. Futahashi R., Tanaka K., Tanahashi M., Nikoh N., Kikuchi Y., Lee B. L., Fukatsu T. (2013) Gene expression in gut symbiotic organ of stinkbug affected by extracellular bacterial symbiont. PLoS One 8(5): e64557. [Full Text]
201. Montagna M., Sassera D., Epis S., Bazzocchi C., Vannini C., Lo N., Sacchi L., Fukatsu T., Petroni G., Bandi C. (2013) “Candidatus Midichloriaceae” fam. nov. (Rickettsiales), an ecologically widespread clade of intracellular alphaproteobacteria. Applied and Environmental Microbiology 79(10): 3241-3248. [Abstract] [PDF]
202. Aoki S., Kurosu U., Kutsukake M., Hsieh T. J., Yang M. M., Choe J., Fukatsu T. (2013) The aphid Ceratocavuna nekoashi (Hemiptera: Aphididae: Hormaphidinae) and its allied species in Korea, Japan and Taiwan. Entomological Science 16(2): 203-221. [Abstract]
203. Koga R., Nikoh N., Matsuura U., Meng X. Y., Fukatsu T. (2013) Mealybugs with distinct endosymbiotic systems living on the same host plant. FEMS Microbiology Ecology 83(1): 93-100. [Abstract]
204. Inoue K., Sasamoto A., Futahashi R. (2013) The true status of Somatochlora taiwana Inoue & Yokota: A genuine species or a synonym of S. dido Needham? (Anisoptera: Corduliidae). Odonatologica, 42(4): 325-334. [Link]
205. *Suetsugu Y., *Futahashi R., Kanamori H., Kadono-Okuda K., Sasanuma S., Narukawa J., Ajimura M., Jouraku A., Namiki N., Shimomura M., Sezutsu H., Osanai-Futahashi M., Suzuki M.G., Daimon T., Shinoda T., Taniai K., Asaoka K., Niwa R., Kawaoka S., Katsuma S., Tamura T., Noda H., Kasahara M., Sugano S., Suzuki Y., Fujiwara H., Kataoka H., Arunkumar K.P., Tomar A., Nagaraju J., Goldsmith M.R., Feng Q., Xia Q., Yamamoto K., Shimada T., Mita K. (2013) Large scale full-length cDNA sequencing reveals a unique genomic landscape in a lepidopteran model insect, Bombyx mori. G3: Genes, Genomes, Genetics, 3(9): 1481-1492. * Equally contributed [Full Text]
206. Mitani Y., Futahashi R., Niwa K., Ohba N., Ohmiya Y. (2013) Cloning and characterization of luciferase from a Fijian luminous click beetle. Photochemistry and Photobiology, 89: 1163-1169. [Abstract]
207. Sasamoto A., Futahashi R. (2013) Taxonomic revision of the status of Orthetrum triangulare and melania group (Anisoptera: Libellulidae) based on molecular phylogenetic analyses and morphological comparisons, with a description of three new subspecies of melania. Tombo, 55: 57-82. [Link]
208. Koga R., Bennett G.M., Cryan J.R., Moran N.A. (2013). Evolutionary replacement of obligate symbionts in an ancient and diverse insect lineage. Environmental Microbiology, 15(7), 2073–2081. [Abstract] [PDF]
209. Engel, P., James R.R., Koga R., Kwong W.K., McFrederick Q.S., Moran N.A. (2015). Standard methods for research on Apis melliferagut symbionts. Journal of Apicultural Research, 52(4), 1–24. [Abstract] [PDF]

2012

168. Fukatsu T. (2012) Next generation sequencing sheds light on intricate regulation of insect gut microbiota. Molecular Ecology 21(24): 5908-5910. [Abstract] [PDF]
169. Kutsukake M., Meng X. Y., Katayama N., Nikoh N., Shibao H., Fukatsu T. (2012) An insect-induced novel plant phenotype for sustaining social life in a closed system. Nature Communications 3: 1187. [Full Text] [PDF]
170. Furukawa S., Tanaka K., Ikeda T., Fukatsu T., Sasaki T. (2012) Quantitative analysis of the lytic cycle of WO phages infecting Wolbachia. Applied Entomology and Zoology 47(4): 449-456. [Abstract]
171. Moriyama M., Koga R., Hosokawa T., Nikoh N., Futahashi R., Fukatsu T. (2012) Comparative transcriptomics of the bacteriome and the spermalege of the bedbug Cimex lectularius (Hemiptera: Cimicidae). Applied Entomology and Zoology 47(3): 233-243. [Abstract]
172. Noda H., Watanabe K., Kawai S., Yukuhiro F., Miyoshi T., Tomizawa M., Koizumi Y., Nikoh N., Fukatsu T. (2012) Bacteriome-associated endosymbionts of the green rice leafhopper Nephotettix cincticeps (Hemiptera: Cicadellidae). Applied Entomology and Zoology 47(3): 217-225. [Abstract]
173. Futahashi R., Kurita R., Mano H., Fukatsu T. (2012) Redox alters yellow dragonflies into red. Proceedings of the National Academy of Sciences of the United States of America 109(31): 12626-12631. [Abstract] [PDF] [Supporting Information]
174. Toki W., Tanahashi M., Togashi K., Fukatsu T. (2012) Fungal farming in a non-social beetle. PLoS One 7(7): e41893. [Full Text]
175. Hosokawa T., Kikuchi Y., Nikoh N., Fukatsu T. (2012) Polyphyly of gut symbionts in stinkbugs of the family Cydnidae. Applied and Environmental Microbiology 78(13): 4758-4761. [Abstract] [PDF]
176. Kikuchi Y., Hayatsu M., Hosokawa T., Nagayama A., Tago K., Fukatsu T. (2012) Symbiont-mediated insecticide resistance. Proceedings of the National Academy of Sciences of the United States of America 109(22): 8618-8622. [Abstract] [PDF] [Supporting Information]
177. Matsuura Y., Kikuchi Y., Meng X. Y., Koga R., Fukatsu T. (2012) Novel clade of alphaproteobacterial endosymbionts associated with stinkbugs and other arthropods. Applied and Environmental Microbiology 78(12): 4149-4156.[Abstract] [PDF]
178. Koga R., Meng X. Y., Tsuchida T., Fukatsu T. (2012) Cellular mechanism for selective vertical transmission of an obligate insect symbiont at the bacteriocyte-embryo interface. Proceedings of the National Academy of Sciences of the United States of America 109(20): E1230–E1237. [Abstract] [PDF] [Supporting Information] [Author Summary]
179. *Hosokawa T., *Nikoh N., *Koga R., Sato M., Tanahashi M., Meng X. Y., Fukatsu T. (2012) Reductive genome evolution, host-symbiont co-speciation, and uterine transmission of endosymbiotic bacteria in bat flies. The ISME Journal6: 577-587. (*Equal contributions) [Abstract] [PDF]
180. Kikuchi Y., Hosokawa T., Nikoh N., Fukatsu T.(2012) Gut symbiotic bacteria in the cabbage bugs Eurydema rugosa and Eurydema dominulus (Heteroptera: Pentatomidae). Applied Entomology and Zoology 47(1): 1-8. [Abstract]
181. Matsuura Y., Kikuchi Y., Hosokawa T., Koga R., Meng X. Y., Kamagata Y., Nikoh N., Fukatsu T. (2012) Evolution of symbiotic organs and endosymbionts in lygaeid stinkbugs. The ISME Journal 6: 397-409. [Abstract] [PDF]
182. Hosokawa T., Hironaka M., Mukai H., Inadomi K., Suzuki N., Fukatsu T.(2012) Mothers never miss the moment: a fine-tuned mechanism for vertical symbiont transmission in a subsocial insect. Animal Behaviour 83(1): 293-300. [Abstract]  
183. Osanai-Futahashi M., Ohde T., Hirata J., Uchino K., Futahashi R., Tamura T., Niimi T., Sezutsu H. (2012) A visible dominant marker for insect transgenesis. Nature Communications, 3: 1295. [Full Text]
184. Futahashi R., Shirataki H., Narita T., Mita K., Fujiwara H. (2012) Comprehensive microarray-based analysis for stage-specific larval camouflage pattern-associated genes in the swallowtail butterfly, Papilio xuthus. BMC Biology, 10(1): 46. [Full Text]
185. Futahashi R., Sasamoto A. (2012) Revision of the Japanese species of the genus Rhipidolestes (Megapodagrionidae) based on nuclear and mitochondrial gene genealogies, with a special reference of Kyushu-Yakushima population and Taiwan-Yaeyama population. Tombo, 54: 107-122. [Link]
186. Karube H., Futahashi R., Sasamoto A., Kawashima I. (2012) Taxonomic revision of Japanese odonate species, based on nuclear and mitochondrial gene genealogies and morphological comparison with allied species. Part I. Tombo, 54: 75-106. [Link]

2011

149. Tada A., Kikuchi Y., Hosokawa T., Musolin D. L., Fujisaki K., Fukatsu T. (2011) Obligate association with gut bacterial symbiont in Japanese populations of southern green stinkbug Nezara viridula (Heteroptera: Pentatomidae). Applied Entomology and Zoology 46(4): 483-488. [Abstract]
150. Oba Y., Branham M., Fukatsu T. (2011) The terrestrial bioluminescent animals of Japan. Zoological Science 28(11): 771-789. [Abstract] [Full text]
151. Nikoh N., Sato M., Kondo N., Fukatsu T. (2011) Phylogenetic comparison between nycteribiid bat flies and their host bats. Medical Entomology and Zoology62(3): 185-194. [Abstract] [PDF]
152. Nikoh N., Hosokawa T., Oshima K., Hattori M., Fukatsu T. (2011) Reductive evolution of bacterial genome in insect gut environment. Genome Biology and Evolution 3: 702-714. [Full text] [PDF]
153. Simon J.-C., Boutin S., Tsuchida T., Koga R., Le Gallic J.-F., Frantz A., Outreman Y., Fukatsu T. (2011) Facultative symbiont infections affect aphid reproduction. PLoS One6(7): e21831. [Full text]
154. Kondo N. I., Tuda M., Toquenaga Y., Lan Y. C., Buranapanichpan S., Horng S. B., Shimada M., Fukatsu T. (2011) Wolbachia infections in world populations of bean beetles (Coleoptera: Chrysomelidae: Bruchinae) infesting cultivated and wild legumes. Zoological Science 28(7): 501-508. [Abstract]
155. Kikuchi Y., Hosokawa T., Fukatsu T. (2011) Specific developmental window for establishment of an insect-microbe gut symbiosis. Applied and Environmental Microbiology 77(12): 4075-4081. [Abstract] [PDF]
156. Hughes G.,Koga R., Xue P., Fukatsu T., Rasgon J. (2011) Wolbachia infections are virulent and inhibit the human malaria parasite Plasmodium falciparum in Anopheles gambiae. PLoS Pathogens 7(5): e1002043. [Full text]
157. Higashiura Y., Yamaguchi H., Ishihara M., Ono N., Tsukagoshi H., Yokobori S., Tokishita S., Yamagata H., Fukatsu T. (2011) Male death resulting from hybridisation between subspecies of the gypsy moth, Lymantria dispar. Heredity106: 603-613. [Abstract] [PDF]
158. Anbutsu H., Fukatsu T. (2011) Spiroplasma as a model insect endosymbiont. Environmental Microbiology Reports 3(2): 144-153. [Abstract]
159. Tsuchida T., Koga R., Matsumoto S., Fukatsu T. (2011) Interspecific symbiont transfection confers a novel ecological trait to the recipient insect. Biology Letters7: 245-248. [Abstract] [PDF]
160. Kaiwa N., Hosokawa T., Kikuchi Y., Nikoh N., Meng X. Y., Kimura N., Ito M., Fukatsu T. (2011) Bacterial symbionts of the giant jewel stinkbug Eucoryssus grandis (Hemiptera: Scutelleridae). Zoological Science 28(3): 169-174. [Abstract]
161. Kikuchi Y., Hosokawa T., Fukatsu T. (2011) An ancient but promiscuous host-symbiont association between Burkholderia gut symbionts and their heteropteran hosts. The ISME Journal 5: 446-460. [Abstract] [PDF]
162. *Futahashi R., *Tanaka K., Matsuura Y., Tanahashi M., Kikuchi Y., Fukatsu T. (2011) Laccase2 is required for cuticular pigmentation in stinkbugs. Insect Biochemistry and Molecular Biology 41(3): 191-196. (*Equal contributions) [Abstract]
163. Toju H., Fukatsu T. (2011) Diversity and infection prevalence of endosymbionts in natural populations of the chestnut weevil: relevance of local climate and host plants. Molecular Ecology 20(4): 853-868. [Abstract]
164. Futahashi R. (2011) Whole-mount in situ hybridization of sectioned tissues of species hybrids to detect cis-regulatory changes in gene expression pattern. Methods in Molecular Biology, 772: 319-328. Molecular Methods for Evolutionary Genetics (eds. Virginie Orgogozo, Matt Rockman) [Abstract]
165. Terenius O., Papanicolaou A., Garbutt J.S., Eleftherianos I., Huvenne H., Sriramana K., Albrechtsen M., An C., Aymeric J., Barthel A., Bebas P., Bitra K., Bravo A., Chevalier F., Collinge D.P., Crava C.M., de Maagd R.A., Duvic B., Erlandson M., Faye I., Felföldi G., Fujiwara H., Futahashi R., Gandhe A.S., Gatehouse H.S., Gatehouse L.N., Giebultowicz J., Gómez I., Grimmelikhuijzen C.J., Groot A.T., Hauser F., Heckel D.G., Hegedus D.D., Hrycaj S., Huang L., Hull J.J., Iatrou K., Iga M., Kanost M.R., Kotwica J., Li C., Li J., Liu J., Lundmark M., Matsumoto S., Meyering-Vos M., Millichap P.J., Monteiro A., Mrinal N., Niimi T., Nowara D., Ohnishi A., Oostra V., Ozaki K., Papakonstantinou M., Popadic A., Rajam M.V., Saenko S., Simpson R.M., Soberón M., Strand M.R., Tomita S., Toprak U., Wang P., Wee C.W., Whyard S., Zhang W., Nagaraju J., ffrench-Constant R.H., Herrero S., Gordon K., Swevers L., Smagghe G. (2011) RNA interference in Lepidoptera: an overview of successful and unsuccessful studies and implications for experimental design. Journal of Insect Physiology, 57(2): 231-245. [Abstract]

2010

132. *Tsuchida T., *Koga R., Horikawa M., Tsunoda T., Maoka T., Matsumoto S., Simon J.-C., Fukatsu T. (2010) Symbiotic bacterium modifies aphid body color. Science 330(6007): 1102-1104. (*Equal contributions) [Abstract] [PDF] [Full text]
133. *Kuriwada T., *Hosokawa T., Kumano N., Shiromoto K., Haraguchi D., Fukatsu T. (2010) Biological role of Nardonella endosymbiont in its weevil host. PLoS One 5(10): e13101. (*Equal contributions) [Full text]
134. Uematsu K., Kutsukake M., Fukatsu T., Shimada M., Shibao H. (2010) Altruistic colony defense by menopausal female insects. Current Biology20(13): 1182-1186. [Abstract] [PDF]
135. Anbutsu H., Fukatsu T. (2010) Evasion, suppression and tolerance of Drosophila innate immunity by a male-killing Spiroplasma endosymbiont. Insect Molecular Biology 19(4): 481-488. [Abstract]
136. Shibao H., Shimada M., Fukatsu T. (2010) Defensive behavior and life history strategy of the galling aphid Hamamelistes kagamii (Homoptera: Aphididae: Hormaphidinae). Sociobiology 55(1B): 117-132. [Abstract]
137. Hosokawa T., Kikuchi Y., Nikoh N., Meng X. Y., Hironaka M., Fukatsu T. (2010) Phylogenetic position and peculiar genetic traits of a midgut bacterial symbiont of the stinkbug Parastrachia japonensis. Applied and Environmental Microbiology76(13): 4130-4135. [Abstract] [PDF]
138. Kaiwa N., Hosokawa T., Kikuchi Y., Nikoh N., Meng X. Y., Kimura N., Ito M., Fukatsu T. (2010) Primary gut symbiont and secondary, Sodalis-allied symbiont in the scutellerid stinkbug Cantao ocellatus. Applied and Environmental Microbiology76(11): 3486-3494. [Abstract] [PDF]
139. Fukatsu T. (2010) A fungal past to insect color. Science 328(5978): 574-575. [Abstract] [Full text] [PDF]
140. Hosokawa T., Fukatsu T. (2010) Nardonella endosymbiont in the West Indian sweet potato weevil Euscepes postfasciatus (Coleoptera: Curculionidae). Applied Entomology and Zoology 45(1): 115-120. [Abstract] [PDF]

126. The International Aphid Genomics Consortium (including Fukatsu T. and Koga R. as authors) (2010) Genome sequence of the pea aphid Acyrthosiphon pisum. PLoS Biology 8(2): e1000313. [Full Text]
127. Shigenobu S., Richards S., Cree A. G., Morioka M., Fukatsu T., Kudo T., Miyagishima S., Gibbs R. A., Stern D. L., Nakabachi A. (2010) A full-length cDNA resource for the pea aphid, Acyrthosiphon pisum. Insect Molecular Biology 19 (s2): 23-31. [Abstract] [PDF]
128. Hosokawa T., Koga R., Kikuchi Y., Meng X.-Y., Fukatsu T. (2010) Wolbachia as a bacteriocyte-associated nutritional mutualist. Proceedings of the National Academy of Sciences of the United States of America 107(2): 769-774. [Abstract] [PDF]
129. Shibao H., Kutsukake M., Matsuyama S., Fukatsu T., Shimada M. (2010) Mechanisms regulating caste differentiation in an aphid social system. Communicative and Integrative Biology 3(1): 1-5. [Abstract] [PDF]
130. Toju H., Hosokawa T., Koga R., Nikoh N., Meng X.-Y., Kimura N., Fukatsu T. (2010) “Candidatus Curculioniphilus buchneri”, a novel clade of bacterial endocellular symbionts from weevils of the genus Curculio. Applied and Environmental Microbiology76(1): 275-282. [Abstract] [PDF]
131. Liu C., Yamamoto K., Cheng T.C., Kadono-Okuda K., Narukawa J., Liu S.P., Han Y., Futahashi R., Kidokoro K., Noda H., Kobayashi I., Tamura T., Ohnuma A., Banno Y., Dai F.Y., Xiang Z.H., Goldsmith M.R., Mita K., Xia Q.Y. (2010) Repression of tyrosine hydroxylase is responsible for the sex-linked chocolate mutation of the silkworm, Bombyx mori. Proceedings of the National Academy of Sciences of the United States of America, 107(29): 12980-12985. [Full Text]
132. *Shirataki H., *Futahashi R., Fujiwara H. (2010) Species-specific coordinated gene expression and trans-regulation of larval color pattern in three swallowtail butterflies. Evolution and Development 12(3): 305-314. * Equally contributed [Abstract]
133. Futahashi R., Banno Y., Fujiwara H. (2010) Caterpillar color patterns are determined by a two-phase melanin gene pre-patterning process: new evidence from tan and laccase2. Evolution and Development 12(2): 157-167. [Abstract]

2009

118. Aikawa T., Anbutsu H., Nikoh N., Kikuchi T., Shibata F., Fukatsu T. (2009) Longicorn beetle that vectors pinewood nematode carries many Wolbachia genes on an autosome. Proceedings of the Royal Society B: Biological Sciences276(1674): 3791-3798. [Abstract] [PDF]
119. Tanaka T., Furukawa S., Nikoh N., Sasaki T., Fukatsu T. (2009) Complete WO phage sequences reveal their dynamic evolutionary trajectories and putative functional elements required for integration into the Wolbachia genome. Applied and Environmental Microbiology75(17): 5676-5686. [Abstract] [PDF]
120. Matsuura Y., Koga R., Nikoh N., Meng X.-Y., Hanada S., Fukatsu T. (2009) Huge symbiotic organs in giant scale insects of the genus Drosicha (Coccoidea: Monophlebidae) harbor flavobacterial and enterobacterial endosymbionts. Zoological Science26(7): 448-456. [Abstract]
121. Koga R., Tsuchida T., Fukatsu T. (2009) Quenching autofluorescence of insect tissues for in situ detecton of endosymbionts. Applied Entomology and Zoology 44(2): 281-291. [Abstract] [PDF]
122. Fukatsu T., Hosokawa T., Koga R., Nikoh N., Kato T., Hayama S., Takefushi H., Tanaka I. (2009) Intestinal endocellular symbiotic bacterium of the macaque louse Pedicinus obtusus: distinct endosymbiont origins in anthropoid primate lice and the Old World monkey louse. Applied and Environmental Microbiology 75(11): 3796-3799. [Abstract] [PDF]
123. Kageyama D., Anbutsu H., Shimada M., Fukatsu T. (2009) Effects of host genotype against the expression of spiroplasma-induced male killing in Drosophila melanogaster. Heredity102: 475-482. [Abstract] [PDF]
124. Kutsukake M., Shibao H., Uematsu K., Fukatsu T. (2009) Scab formation and wound healing of plant tissue by soldier aphid. Proceedings of the Royal Society B: Biological Sciences276(1662): 1555-1563. [Abstract] [PDF]
125. Kikuchi Y., Hosokawa T., Nikoh N., Meng X. Y., Kamagata Y., Fukatsu T. (2009) Host-symbiont co-speciation and reductive genome evolution in gut symbiotic bacteria of acanthosomatid stinkbugs. BMC Biology7: 2. [Full Text]

2008

110. Furukawa S., Tanaka K., Fukatsu T., Sasaki T. (2008) In vitro infection of Wolbachia in insect cell lines. Applied Entomology and Zoology 43: 519-525. [Abstract] [PDF]
111. Kutsukake M., Nikoh N., Shibao H., Rispe C., Simon J.-C., Fukatsu T. (2008) Evolution of soldier-specific venomous protease in social aphids. Molecular Biology and Evolution25(12): 2617-2641. [Abstract] [PDF]
112. Anbutsu H., Goto S., Fukatsu T. (2008) High and low temperatures differently affect infection density and vertical transmission of male-killing Spiroplasma symbionts in Drosophila hosts. Applied and Environmental Microbiology 74(19): 6053-6059. [Abstract] [PDF]
113. Kono M., Koga R., Shimada M., Fukatsu T. (2008) Infection dynamics of coexisting beta- and gammaproteobacteria in the nested endosymbiotic system of mealybugs. Applied and Environmental Microbiology 74(13): 4175-4184. [Abstract] [PDF]
114. Kurosu U., Kutsukake M., Aoki S., Wang C.-C., Lee H.-J., Fukatsu T. (2008) Galls of Cerataphis bambusifoliae (Hemiptera, Aphididae) found on Styrax suberifolius in Taiwan. Zoological Studies 47(2): 191-199. [PDF]
115. Nikoh N., Tanaka K., Shibata F., Kondo N., Hizume M., Shimada M., Fukatsu T. (2008) Wolbachia genome integrated in an insect chromosome: evolution and fate of laterally transferred endosymbiont genes. Genome Research 18: 272-280. [Abstract] [PDF]
116. Rispe C., Kutsukake M., Doublet V., Hudaverdian S., Legeai F., Simon J.-C., Tagu D., Fukatsu T.(2008) Large gene family expansion and variable selective pressures for cathepsin B in aphids. Molecular Biology and Evolution 25(1): 5-17. [Abstract] [PDF]
117. Hosokawa T., Kikuchi Y., Shimada M., Fukatsu T. (2008) Symbiont acquisition alters behaviour of stinkbug nymphs. Biology Letters 4: 45-48. [Abstract] [PDF]

2007

102. Hosokawa T., Kikuchi Y., Fukatsu T. (2007) How many symbionts are provided by mothers, acquired by offspring, and needed for successful vertical transmission in an obligate insect-bacterium mutualism? Molecular Ecology 16(24): 5316-5325. [Abstract]
103. Uematsu K., Kutsukake M., Fukatsu T., Shimada M., Shibao H. (2007) Altruistic defenders in a Japanese gall-forming aphid, Quadrartus yoshinomiyai (Homoptera: Aphididae: Hormaphidinae). Sociobiology 50(3): 712-724. [Abstract]
104. Fukatsu T., Koga R., Smith W. A., Tanaka K., Nikoh N., Sasaki-Fukatsu K., Yoshizawa K., Dale C., and Clayton D. H. (2007) Bacterial endosymbiont of the slender pigeon louse, Columbicola columbae, allied to endosymbionts of grain weevils and tsetse flies. Applied and Environmental Microbiology 73(20): 6660-6668. [Abstract] [PDF]
105. Hosokawa T., Kikuchi Y., Shimada M., Fukatsu T. (2007) Obligate symbiont involved in pest status of host insect. Proceedings of the Royal Society B: Biological Sciences 274(1621): 1979-1984. [Abstract] [PDF]
106. Narita S., Kageyama D., Nomura M., Fukatsu T. (2007) Unexpected mechanism of symbiont-induced reversal of insect sex: feminizing Wolbachia continuously acts on the butterfly Eurema hecabe during larval development. Applied and Environmental Microbiology 73(13): 4332-4341. [Abstract] [PDF]
107. Kikuchi Y., Hosokawa T., Fukatsu T. (2007) Insect-microbe mutualism without vertical transmission: a stinkbug acquires a beneficial symbiont from the environment every generation. Applied and Environmental Microbiology 73(13): 4308-4316. [Abstract] [PDF]
108. Koga R., Tsuchida T., Sakurai M., Fukatsu T. (2007) Selective elimination of aphid endosymbionts: effects of antibiotic dose and host genotype, and fitness consequences. FEMS Microbiology Ecology60(2): 229-239. [Abstract] [PDF]
109. Fukui S., Fukatsu T., Ikegami T., Shimada M. (2007) Endosymbiosis as a compact ecosystem with material cycling: parasitism or mutualism? Journal of Theoretical Biology 246(4): 746-754. [Abstract]
110. Simon J.-C., Sakurai M., Bonhomme J., Tsuchida T., Koga R., Fukatsu T. (2007) Elimination of a specialized facultative symbiont does not affect the reproductive mode of its aphid host. Ecological Entomology 32(3): 296-301. [Abstract]
111. Wilkinson T. L., Koga R., Fukatsu T. (2007) The role of host nutrition in symbiont regulation – the impact of dietary nitrogen on the proliferation of obligate and facultative bacterial endosymbionts in the pea aphid Acyrthosiphon pisum. Applied and Environmental Microbiology. 73(4): 1362-1366. [Abstract] [PDF]
112. Kageyama D., Anbutsu H., Shimada M., Fukatsu T. (2007) Spiroplasma infection causes either early or late male killing in Drosophila, depending on maternal host age. Naturwissenschaften 94(4): 333-337. [Abstract] [PDF]

Before 2006

91. Sasaki-Fukatsu K., Koga R., Nikoh N., Yoshizawa K., Kasai S., Mihara M., Kobayashi M., Tomita M., Fukatsu T. (2006) Symbiotic bacteria associated with stomach discs of human lice. Applied and Environmental Microbiology 72(11): 7349-7352. [Abstract] [Supplemental file] [PDF]
92. Kageyama D., Anbutsu H., Watada M., Hosokawa, T., Shimada M., Fukatsu T. (2006) Prevalence of a non-male-killing spiroplasma in natural populations of Drosophila hydei. Applied and Environmental Microbiology 72(10): 6667-6673.[Abstract] [PDF]
93. Hosokawa T., Kikuchi Y., Nikoh, N., Shimada, M., Fukatsu T. (2006) Strict host-symbiont cospeciation and reductive genome evolution in insect gut bacteria. PLoS Biology 4(10): e337. [Full text] [PDF]
94. Goto S., Anbutsu H., Fukatsu T. (2006) Asymmetrical interactions between Wolbachia and Spiroplasma endosymbionts coexisting in the same insect host. Applied and Environmental Microbiology72(7): 4805-4810.[Abstract] [Full text] [PDF]
95. Anbutsu H., Fukatsu T. (2006) Tissue-specific infection dynamics of male-killing and nonmale-killing spiroplasmas in Drosophila melanogaster. FEMS Microbiology Ecology 57(1): 40-46. [Abstract] [PDF]
96. Narita S, Nomura M., Kato Y., Fukatsu T. (2006) Genetic structure of sibling butterfly species affected by Wolbachia infection sweep: evolutionary and biogeographical implications. Molecular Ecology 15(4): 1095-1108. [Abstract]
97. Tsuchida T., Koga R., Sakurai M., Fukatsu T. (2006) Facultative bacterial endosymbionts of three aphid species, Aphis craccivora, Megoura crassicauda and Acyrthosiphon pisum, sympatrically found on the same host plants. Applied Entomology and Zoology 41(1): 129-137. [Abstract][PDF]
98. Nakabachi A., Shigenobu S., Sakazume N., Shiraki T., Hayashizaki Y., Carninci P., Ishikawa H., Kudo T., Fukatsu T. (2005) Transcriptome analysis of the aphid bacteriocyte, the symbiotic host cell that harbors an endocellular mutualistic bacterium, Buchnera. Proceedings of the National Academy of Sciences of the United States of America 102(15): 5477-5482. [Abstract] [Full text] [PDF]
99. Kondo N, Shimada M., Fukatsu T. (2005) Infection density of Wolbachia endosymbiont affected by co-infection and host genotype. Biology Letters 1(4): 488-491. [Abstract] [PDF]
100. Hosokawa T., Kikuchi Y., Meng X. Y., Fukatsu T. (2005) The making of symbiont capsule in the plataspid stinkbug Megacopta punctatissima. FEMS Microbiology Ecology 54(3): 471-477. [Abstract] [PDF]
101. Suharna N., Kikuchi Y., Fukatsu T. (2005) Molecular phylogenetic analysis of Monascus fungi based on internal transcribed spacer region. Biotropia 24: 62-68. [Abstract] [PDF]
102. Kikuchi Y., Fukatsu T. (2005) Rickettsia infection in natural leech populations. Microbial Ecology49(2): 265-271. [Abstract] [PDF]
103. Kikuchi Y., Meng X. Y., Fukatsu T. (2005) Gut symbiotic bacteria of the genus Burkholderia in the broad-headed bugs, Riptortus clavatus and Leptochorisa chinensis (Heteroptera: Alydidae). Applied and Environmental Microbiology 71(7): 4035-4043. [Abstract] [Full text] [PDF]
104. Sakurai M., Koga R., Tsuchida T., Meng X.-Y., Fukatsu T. (2005) Rickettsia symbiont of the pea aphid Acyrthosiphon pisum: novel cellular tropism, effect on the host fitness, and interaction with the essential symbiont Buchnera. Applied and Environmental Microbiology 71(7): 4069-4075. [Abstract] [Full text] [PDF]
105. Moran N. A., Russell J. A., Koga R., Fukatsu T. (2005) Evolutionary relationships of three new species of Enterobacteriaceae living as symbionts of aphids and other insects. Applied and Environmental Microbiology 71(6): 3302-3310. [Abstract] [Full text] [PDF]
106. Ijichi N., Shibao H., Miura T., Matsumoto T., Fukatsu T. (2005) Comparative analysis of soldier differentiation during embryogenesis of social aphids whose soldier castes evolved independently. Insectes Sociaux. 52(2): 177-185. [Abstract] [PDF]
107. Fukatsu T., Sarjiya A., Shibao H. (2005) Soldier caste with morphological and reproductive division in the aphid tribe Nipponaphidini. Insectes Sociaux 52(2): 132-138. [Abstract] [PDF]
108. Tsuchida T., Koga R., Meng X. Y., Matsumoto T., Fukatsu T. (2005) Characterization of a facultative endosymbiotic bacterium from the pea aphid Acyrthosiphon pisum. Microbial Ecology 49(1): 126-133. [Abstract] [PDF]
109. Ijichi N., Shibao H., Miura T., Matsumoto T., Fukatsu T. (2005) Analysis of natural colonies of a social aphid Colophina arma: population dynamics, reproductive schedule, and survey for ecological correlates with soldier production. Applied Entomology and Zoology 40(2): 239-245. [Abstract] [PDF]
110. Shibao H., Kutsukake M., Fukatsu T. (2004) Density-dependent induction and suppression of soldier differentiation in an aphid social system. Journal of Insect Physiology50(11): 995-1000. [Abstract] [PDF]
111. Kutsukake M., Shibao H., Nikoh N., Morioka M., Tamura T., Hoshino T., Ohgiya S., Fukatsu T. (2004) Venomous protease of aphid soldier for colony defense. Proceedings of the National Academy of Sciences of the United States of America101(31): 11338-11343. [Abstract] [Full text] [PDF]
112. Ijichi N., Shibao H., Miura T., Matsumoto T., Fukatsu T. (2004) Soldier differentiation during embryogenesis of a social aphid, Pseudoregma bambucicola. Entomological Science7(2): 141-153. [Abstract]
113. Tsuchida T., Koga R., Fukatsu T. (2004) Host plant specialization governed by facultative symbiont. Science303(5666): 1989. [Full text] [PDF] [Supporting material]
114. Shibao H., Kutsukake M., Fukatsu T. (2004) The proximate cue of density-dependent soldier production in a social aphid. Journal of Insect Physiology50(2-3):143-147. [Abstract] [PDF]
115. Shibao H., Kutsukake M., Fukatsu T. (2004) Density triggers soldier production in a social aphid. Proceedings of the Royal Society of London Series B271(Suppl 3): S71-S74. [Abstract] [PDF]
116. Nikoh N., Fukatsu T. (2004) Evolutionary dynamics of multiple selfish introns in nuclear and mitochondrial ribosomal RNA genes of endoparasitic fungi of the genus Cordyceps. Endocytobiosis and Cell Research 15(1): 110-122. [Abstract] [PDF]
117. Koga R., Tsuchida T., Fukatsu T. (2003) Changing partners in an obligate symbiosis: a facultative endosymbiont can compensate for loss of the essential endosymbiont Buchnera in an aphid. Proceedings of the Royal Society of London Series B270(1533): 2543-2550. [Abstract] [PDF]
118. Wilkinson T. L., Fukatsu T., Ishikawa H. (2003) Transmission of symbiotic bacteria Buchnera to parthenogenetic embryos in the aphid Acyrthosiphon pisum (Hemiptera: Aphidoidea). Arthropod Structure and Development 32(2-3): 241-245. [Abstract] [PDF]
119. Shibao H., Lee J. M., Kutsukake M., Fukatsu T. (2003) Aphid soldier differentiation: density acts on both embryos and newborn nymphs. Naturwissenschaften 90(11): 501-504. [Abstract] [PDF]
120. Kikuchi Y., Fukatsu T. (2003) Diversity of Wolbachia endosymbionts in heteropteran bugs. Applied and Environmental Microbiology 69(10): 6082-6090. [Abstract] [Full text] [PDF]
121. Kurosu U., Aoki S., Fukatsu T. (2003) Self-sacrificing gall repair by aphid nymphs. Proceedings of the Royal Society of London Series B270(Suppl 1): S12-S14. [Abstract] [PDF]
122. Shibao H., Fukatsu T. (2003) Altruistic defenders in a gall-forming aphid of the tribe Hormaphidini (Homoptera: Aphididae: Hormaphidinae) on its primary host. Insectes Sociaux 50(2): 167-173. [Abstract] [PDF]
123. Hurst G. D. D., Anbutsu H., Kutsukake M., Fukatsu T. (2003) Hidden from the host: Spiroplasma bacteria infecting Drosophila do not cause an immune response, but are suppressed by ectopic immune activation. Insect Molecular Biology 12(1): 93-97. [Abstract]
124. Anbutsu H., Fukatsu T. (2003) Population dynamics of male-killing and non-male-killing spiroplasmas in Drosophila melanogaster. Applied and Environmental Microbiology 69(3): 1428-1434. [Abstract] [Full text] [PDF]
125. Harazono K., Watanabe Y., Fukatsu T., Kurane R. (2003) Trapping of 2,7-dichlorodibenzo-p-dioxin in aqueous solution by enzymatic reaction of fungal manganese peroxidase in the presence of polyunsaturated fatty acid. Current Microbiology 47(3): 250-254. [Abstract] [PDF]
126. Watanabe Y., Shinzato N., Fukatsu T. (2003) Isolation of actinomycetes from termites’ gut. Bioscience, Biotechnology and Biochemistry 67(8): 1797-1801. [Abstract] [PDF]
127. Harazono K., Yamashita N., Shinzato N., Watanabe Y., Fukatsu T., Kurane R. (2003) Isolation and characterization of aromatics-degrading microorganisms from the gut of the lower termite Coptotermes formosanus. Bioscience, Biotechnology and Biochemistry 67(4): 889-892. [Abstract] [PDF]
128. Fukatsu T., Hosokawa T. (2002) Capsule-transmitted gut symbiotic bacterium of the Japanese common plataspid stinkbug, Megacopta punctatissima. Applied and Environmental Microbiology68(1): 389-396. [Abstract] [Full text] [PDF]
129. Kondo N., Nikoh N., Ijichi N., Shimada M., Fukatsu T. (2002) Genome fragment of Wolbachia endosymbiont transferred to X chromosome of host insect. Proceedings of the National Academy of Sciences of the United States of America99(22): 14280-14285. [Abstract] [Full text] [PDF]
130. Kondo N., Ijichi N., Shimada M., Fukatsu T. (2002) Prevailing triple infection with Wolbachia in Callosobruchus chinensis (Coleoptera: Bruchidae). Molecular Ecology11(2): 167-180. [Abstract]
131. Kikuchi Y., Fukatsu T. (2002) Endosymbiotic bacteria in esophageal organ of glossiphoniid leeches. Applied and Environmental Microbiology68(9): 4637-4641. [Abstract] [Full text] [PDF]
132. Kikuchi Y., Sameshima S., Kitade O. Kojima J., Fukatsu T. (2002) Novel clade of Rickettsia spp. from leeches. Applied and Environmental Microbiology68(2): 999-1004. [Abstract] [Full text] [PDF]
133. Ijichi, N., Kondo N., Matsumoto R., Shimada M., Ishikawa H., Fukatsu T. (2002) Internal spatiotemporal population dynamics of triple infection with Wolbachia strains in the adzuki bean beetle Callosobruchus chinensis (Coleoptera: Bruchidae). Applied and Environmental Microbiology 68(8): 4074-4080. [Abstract] [Full text] [PDF]
134. Tsuchida T., Koga R., Shibao H., Matsumoto T., Fukatsu T. (2002) Diversity and geographic distribution of secondary symbiotic bacteria in natural populations of the pea aphid Acyrthosiphon pisum. Molecular Ecology 11(10): 2123-2135. [Abstract]
135. Shibao, H., Kutsukake M., Lee J., Fukatsu T. (2002) Maintenance of soldier-producing aphids on an artificial diet. Journal of Insect Physiology 48(4): 495-505. [Abstract] [PDF]
136. Aoki S., Kurosu U., Buranapanichpan S., Baenziger H., Fukatsu T. (2002) Discovery of the gall-generation of the tropical bamboo aphid Pseudoregma carolinensis from northern Thailand. Entomological Science5(1): 55-61. [Abstract] [PDF]
137. Sato A., Watanabe T., Watanabe Y., Harazono K., Fukatsu T. (2002) Screening for basidiomycetous fungi capable of degrading 2, 7-dichlorobenzo-p-dioxin. FEMS Microbiology Letters 213(2): 213-217. [Abstract] [PDF]
138. Fukatsu T. (2001) Secondary intracellular symbiotic bacteria in aphids of the genus Yamatocallis (Homoptera: Aphididae: Drepanosiphinae). Applied and Environmental Microbiology67(11): 5315-5320. [Abstract] [Full text] [PDF]
139. Fukatsu T., Tsuchida T., Nikoh N., Koga R. (2001) Spiroplasma symbiont of the pea aphid Acyrthosiphon pisum (Insecta: Homoptera). Applied and Environmental Microbiology 67(3): 1284-1291. [Abstract] [Full text] [PDF]
140. Fukatsu T., Shibao H., Nikoh N., Aoki S. (2001) Genetically distinct populations in an Asian soldier-producing aphid, Pseudoregma bambucicola  (Homoptera: Aphididae), identified by DNA fingerprinting and molecular phylogenetic analysis. Molecular Phylogenetics and Evolution18(3): 423-433. [Abstract] [PDF]
141. Nikoh N., Fukatsu T. (2001) Evolutionary dynamics of multiple group I introns in nuclear ribosomal RNA genes of endoparasitic fungi of the genus Cordyceps. Molecular Biology and Evolution 18(9): 1631-1642. [Abstract] [Full text] [PDF]
142. Watanabe T., Watanabe Y., Fukatsu T., Kurane R. (2001) Notes on two Umbelopsis species: U. nana and U. vinacea from Japan. Mycoscience 42(2): 235-237. [Abstract] [PDF]
143. Watanabe T., Watanabe Y., Fukatsu T., Kurane R. (2001) Mortierella tsukubaensis sp. nov. from Japan, with a key to the homothalic species. Mycological Research 105(4): 506-509. [Abstract] [PDF]
144. Watanabe T., Watanabe Y., Fukatsu T. (2001) Soil fungal floras in the Bonin Islands (Ogasawara), Japan. Mycoscience 42(6): 499-502. [Abstract] [PDF]
145. Watanabe T., Watanabe Y., Fukatsu T. (2001) New species of Acremonium, Cylindrocarpon and Verticillium from soil in the Bonin (Ogasawara) Islands, Japan. Mycoscience 42(6): 591-595. [Abstract] [PDF]
146. Watanabe T., Watanabe Y., Fukatsu T. (2001) Dactylella chichisimensis, sp. nov. in the Bonin (Ogasawara) Islands, Japan. Mycoscience42(6): 633-635. [Abstract] [PDF]
147. Fukatsu T., Nikoh N., Kawai R., Koga R. (2000) The secondary endosymbiotic bacterium of the pea aphid Acyrthosiphon pisum (Insecta: Homoptera). Applied and Environmental Microbiology 66(7): 2748-2758. [Abstract] [Full text] [PDF]
148. Fukatsu T., Nikoh N. (2000) Endosymbiotic microbiota of the bamboo pseudococcid Antonina crawii (Insecta, Homoptera). Applied and Environmental Microbiology 66(2): 643-650. [Abstract] [Full text] [PDF]
149. Fukatsu T., Shibao H., Aoki S., Sorin M. (2000) Attacking behavior of a nipponaphidine aphid, Indonipponaphis fulvicola. Entomological Science 3(3): 487-490. [Abstract] [PDF]
150. Nikoh N., Fukatsu T. (2000) Interkingdom host jumping underground: phylogenetic analysis of entomoparasitic fungi of the genus Cordyceps. Molecular Biology and Evolution 17(4): 629-638. [Abstract] [Full text] [PDF]
151. Subandiyah S., Nikoh N., Tsuyumu S., Somowiyarjo S., Fukatsu T. (2000) Complex endosymbiotic microbiota of the citrus psyllid Diaphorina citri (Homoptera: Psylloidea). Zoological Science 17(7): 983-989. [Abstract] [PDF]
152. Subandiyah S., Nikoh N., Sato H., Wagiman F., Tsuyumu S., Fukatsu T. (2000) Isolation and characterization of two entomopathogenic fungi attacking Diaphorina citri (Homoptera, Psylloidea) in Indonesia. Mycoscience41(5): 509-513. [Abstract] [PDF]
153. Fukatsu T. (1999) Acetone preservation: a practical technique for molecular analysis. Molecular Ecology 8(11): 1935-1945. [Abstract]
154. Fukatsu T., Shimada M. (1999) Molecular characterization of Rickettsia sp. in a bruchid beetle Kytorhinus sharpianus. Applied Entomology and Zoology 34(3): 391-397. [Abstract] [PDF]
155. Kondo N., Shimada M., Fukatsu T. (1999) High prevalence of Wolbachia in the azuki bean beetle Callosobruchus chinensis (Coleoptera, Bruchidae). Zoological Science 16(6): 955-962. [Abstract] [PDF] 
156. Watanabe T., Watanabe Y., Fukatsu T., Kurane R. (1999) Notes of Ordus chiayiensis in Tsukuba. Mycoscience 40(4): 383-384. [Abstract] [PDF]
157. Kana-uchi A. and Fukatsu T. (1999) Light-induced fruit body formation of an entomogenous fungus Paecilomyces tenuipes. Mycoscience40(4): 349-351. [Abstract] [PDF]
158. Aoki S., Kurosu U., Shibao H., Yamane S., Fukatsu T. (1998) Defense by a few first-instar nymphs in the closed gall of Dinipponaphis autumna (Homoptera, Aphididae, Hormaphidinae). Journal of Ethology 16(2): 91-96. [Abstract] [PDF]
159. Fukatsu T., Nikoh N. (1998) Two intracellular symbiotic bacteria of the mulberry psyllid Anomoneura mori (Insecta, Homoptera). Applied and Environmental Microbiology 64(10): 3599-3606. [Abstract] [Full text] [PDF]
160. Fukatsu T., Watanabe K., Sekiguchi Y. (1998) Specific detection of intracellular symbiotic bacteria of aphids by oligonucleotide-probed in situ hybridization. Applied Entomology and Zoology 33(3): 461-472. [Abstract] [PDF] 
161. Fukatsu T., Ishikawa H. (1998) Differential immunohistochemical visualization of the primary and secondary intracellular symbiotic bacteria of aphids. Applied Entomology and Zoology 33(2): 321-326. [Abstract] [PDF]
162. Aoki S., Kurosu U., Fukatsu T., Ishikawa H. (1998) Cerataphis jamuritsu, a subtropical aphid producing soldiers in large, hard galls (Homoptera). Entomological Science 1(3): 327-333. [Abstract] [PDF]
163. Watanabe T., Watanabe Y., Fukatsu T. and Kurane R. (1998) Mortierella isabellina and M. lignicola from decayed wood with termite nests in Yakushima, Japan. Mycoscience 39(4): 475-476. [Abstract] [PDF]
164. Fukatsu T., Sato H., Kuriyama H. (1997) Isolation, inoculation to insect host, and molecular phylogeny of an entomogenous fungus Paecilomyces tenuipes. Journal of Invertebrate Pathology 70(3): 203-208. [Abstract] [PDF]
165. Kuriyama H, Sastraatmadja D., Igosaki Y., Watanabe K., Kanti A., Fukatsu T. (1997) Identification and characterization of yeast isolated from Indonesian fermented food. Mycoscience 38(4): 441-445. [Abstract] [PDF]
166. Fukatsu T., Ishikawa H. (1996) Phylogenetic position of yeast-like symbiont of Hamiltonaphis styraci (Homoptera, Aphididae) based on 18S rDNA sequence. Insect Biochemistry and Molecular Biology 26(4): 383-388. [Abstract] [PDF]
167. Kurosu U., Fukatsu T., Aoki S. (1996) Sexuparae of the bamboo aphid Cerataphis bambusifoliae (Homoptera, Aphididae). Japanese Journal of Entomology 64(4): 918-923. [Abstract] [PDF]
168. Tuda M., Fukatsu T., Shimada M. (1995) Species differentiation of bruchid beetles (Coleoptera: Bruchidae) analyzed by mitochondrial DNA polymorphism. Applied Entomology and Zoology 30(2): 377-380. [PDF]
169. Iimura Y., Sasaki T., Fukatsu T., Ishikawa H. (1995) Diminution of intracellular symbiont of aphid maintained on artificial diet: a morphological study. Zoological Science 12(6): 795-799. [Abstract] [PDF]
170. Aoki S., Kurosu U., Fukatsu T. (1995) Tuberaphis leeuweni (Homoptera), a tropical, monoecious, gall-forming aphid with soldier-like nymphs. Japanese Journal of Entomology 63(1): 77-86. [Abstract] [PDF]
171. Fukatsu T. (1994) Endosymbiosis of aphids with microorganisms: a model case of dynamic endosymbiotic evolution. Plant Species Biology9(3): 145-154. [Abstract]
172. Fukatsu T., Aoki S., Kurosu U., Ishikawa H. (1994) Phylogeny of Cerataphidini aphids revealed by their symbiotic microorganisms and basic structure of their galls: Implications for host-symbiont coevolution and evolution of sterile soldier castes. Zoological Science 11(4): 613-623. [Abstract]
173. Fukatsu T., Ishikawa H. (1994) Differentiation of aphid clones by arbitrarily primed polymerase chain reaction (AP-PCR) DNA fingerprinting. Molecular Ecology3(3): 187-192. [Abstract]
174. Kurosu U., Aoki S., Fukatsu T. (1994) Taxonomic position of the aphid “Astegopteryx” takenouchii (Homoptera), with notes on its defenders on the secondary host. Japanese Journal of Entomology 62(2): 363-368. [Abstract] [PDF]
175. Fukatsu T., Ishikawa H. (1993) Occurrence of chaperonin 60 and chaperonin 10 in primary and secondary bacterial symbionts of aphids: Implications for the evolution of an endosymbiotic system in aphids. Journal of Molecular Evolution 36(6): 568-577. [Abstract]
176. Aoki S., Kurosu U., Fukatsu T. (1993) Hamiltonaphis, a new genus of the aphid tribe Cerataphidini (Homoptera). Japanese Journal of Entomology 61(1): 64-66. [Abstract] [PDF]
177. Fukatsu T., Ishikawa H. (1992) A novel eukaryotic extracellular symbiont in an aphid, Astegopteryx styraci (Homoptera, Aphididae, Hormaphidinae). Journal of Insect Physiology 38(10): 765-773. [Abstract] [PDF]
178. Fukatsu T., Ishikawa H. (1992) Soldier and male of an eusocial aphid Colophina arma lack endosymbiont: Implications for physiological and evolutionary interaction between host and symbiont. Journal of Insect Physiology 38(12): 1033-1042. [Abstract] [PDF]
179. Fukatsu T., Ishikawa H. (1992) Synthesis and localization of symbionin, an aphid endosymbiont protein. Insect Biochemistry and Molecular Biology 22(2): 167-174. [Abstract] [PDF]
180. Hara E., Fukatsu T., Ishikawa H. (1990) Characterization of symbionin with anti-symbionin antiserum. Insect Biochemistry 20(4): 429-436. [Abstract] [PDF]
181. Hara E., Fukatsu T., Kakeda K., Kengaku M., Ohtaka C., Ishikawa H. (1990) The predominant protein in an aphid endosymbiont is homologous to an E. coli heat shock protein. Symbiosis 8(3): 271-283. [Abstract]

2020年以降

183. 二橋亮・清拓哉 (2022) 台湾産マイコアカネに関して. Tombo, 65: 81-82.
184. 中田達哉・澤田研太・新堀修・二橋亮 (2022) 富山県からオゼイトトンボを初記録. Tombo, 65: 75-77.
185. 沓間妙子・尾園暁・二橋亮 (2022) 山梨県からタイワンウチワヤンマを初記録. Tombo, 65: 73-74.
186. 深谷航・二橋亮 (2022) 埼玉県におけるカワトンボ属の分布調査. Tombo, 65: 58-62.
187. 中田達哉・二橋亮・堀繁久 (2022) キトンボの淡翅色個体の記録. Tombo, 65: 47-48.
188. 森田倫太郎・渡邊貴弘・二橋亮 (2022) 国内2 例目のオオイトトンボとムスジイトトンボの種間雑種を茨城県石岡市で採集. Tombo, 65: 44-46.
189. 二橋亮・清拓哉 (2022) 石垣島におけるアジアキバライトトンボ（新称）Ischnura rubilio Selys, 1876 の記録. Tombo, 65: 40-43.
190. 古賀隆一（2022）小事が大事―たった一つの変異で相利共生は進化しうる.　実験医学, 40(19): 3132-3135.
191. 二橋亮・二橋弘之・新堀修・中田達哉・不破光大・岩田朋文 (2022) 富山県のトンボ(2021年記録). 富山市科学博物館研究報告, 46: 97-107.
192. 齋藤舜貴・二橋亮 (2022) 愛知県からヒメギンヤンマを初記録. Tombo, 64: 48-49.
193. 齋藤舜貴・二橋亮 (2022) 福島県で46年ぶりにキイロヤマトンボを確認. Tombo, 64: 45.
194. 二橋亮 (2022) シオカラトンボ属の黒化異常個体. Tombo, 64: 27-32.
195. 脇本浩・守安敦・二橋亮 (2022) 岡山県から発見されたアサヒナカワトンボの褐色翅個体. Tombo, 64: 25-26.
196. 川島逸郎・二橋亮 (2022) 神奈川県におけるアサヒナカワトンボ♂の褐色翅個体の記録. Tombo, 64: 24.
197. 深谷航・二橋亮 (2022) 栃木県で得られたニホンカワトンボの橙色翅型と無色翅型の中間型. Tombo, 64: 21-23.
198.  二橋弘之・二橋亮 (2022) 富山県射水市で3月15日にアジアイトトンボを確認. Aeschna, (58): 90.
199. 笹本彰彦・二橋亮 (2022) 2021年の昆虫界をふりかえって　トンボ界. 月刊むし, 615: 40-49.
200. 泉佑樹・二橋亮・杉浦直人 (2022) 2009年に礼文島で撮影されたオオキトンボの記録. 利尻研究, (41): 15-16.
201. 尾園暁・二橋亮・境良朗・日下部満 (2022) 日本初記録のチョウセングンバイトンボを対馬で発見. 月刊むし, 613: 2-7.
202. 二橋亮・二橋弘之・新堀修・中田達哉・不破光大・岩田朋文 (2021) 富山県のトンボ (2020年度記録). 富山市科学博物館研究報告, 45: 85-105.
203. 岡崎幹人・二橋亮 (2021) 北大東島におけるリュウキュウカトリヤンマの記録. Tombo, 63: 91-92.
204. 玉田明洋・二橋亮 (2021) 新潟県阿賀町におけるアサヒナカワトンボの北限更新記録. Tombo, 63: 83-84.
205. 詫間由一・奥出絃太・二橋亮 (2021) 過剰脱皮したミヤマサナエの終齢幼虫とアオモンイトトンボの亜終齢幼虫. Tombo, 63: 68-71.
206. 二橋亮・吉岡大成・杉村光俊 (2021) 高知県におけるギンヤンマのホメオシス個体の記録. Tombo, 63: 63-64.
207. 二橋亮 (2021) ホメオシスと推定されるスジボソギンヤンマの記録. Tombo, 63: 61-62.
208. 詫間由一・二橋亮 (2021) アルビノを伴うアオハダトンボ形成異常卵の報告. Tombo, 63: 55-57.
209. 古田部聖・二橋亮 (2021) 2020年に八重山諸島で採集した種間雑種2例. Tombo, 63: 51-54.
210. 牛島釈広・二橋亮・三好順子 (2021) 滋賀県におけるギンヤンマとクロスジギンヤンマの種間雑種（スジボソギンヤンマ）の記録. Aeschna, (57): 41-42.
211. 二橋亮 (2021) 茨城県つくば市で3月中旬にアジアイトトンボを確認. Aeschna, (57): 36.
212. 笹本彰彦・二橋亮 (2021) 2020年の昆虫界をふりかえって トンボ界. 月刊むし, (603): 37-50.
213. 二橋亮 (2021) 長期フィールド調査とアカトンボの激減. チョウの舞う自然, 31: 8-14.
214. 横山透・二橋亮 (2021) 札幌市で記録されたタイリクアキアカネの検証. 北海道トンボ研究会報, 32: 11-12.
215. 篠田健太郎, 齋藤宏輝, 柿澤茂行, 明渡純 (2020) 新型コロナウイルスの伝搬過程と溶射プロセスの比較．日本溶射学会誌「溶射」．2020 年 57 巻 4 号 p. 197-206.
     https://www.jstage.jst.go.jp/article/jtss/57/4/57_197/_article/-char/ja/
216. 馬場知哉・柿澤茂行・森宙史・車兪澈・黒川顕・大島拓 (2020)．最小ゲノム —細胞が生きるために必要な遺伝子数はいくつか—．Journal of Geography (Chigaku Zasshi), 129(6), 805-824.
     https://www.jstage.jst.go.jp/article/jgeography/129/6/129_129.805/_article/-char/ja/
217. 五十嵐健輔, 柿澤茂行 (2020)．硫化鉱物による化学進化と鉄イオウタンパク質の誕生．Journal of Geography (Chigaku Zasshi), 129(6), 853-870.
     https://www.jstage.jst.go.jp/article/jgeography/129/6/129_129.853/_article/-char/ja/
218. 柿澤茂行 (2020)．細菌のゲノム編集．日本ゲノム微生物学会誌, 22, 6-8.
219. 長谷部有紀・二橋亮 (2020) 茨城県つくば市におけるホソミイトトンボ（トンボ目，イトトンボ科）の追加記録. 茨城県自然博物館研究報告, (23): 41-42.
220. 押井達寛・二橋亮・尾園暁 (2020) 日本未記録のイトトンボCeriagrion cerinorubellumを埼玉県で撮影. 月刊むし, 596: 59-60.
221. 二橋亮・二橋弘之・新堀修・中田達哉・岩田朋文 (2020) 富山県のトンボ（2019年度記録）. 富山市科学博物館研究報告, 44: 83-101.
222. 新堀修・二橋弘之・二橋亮 (2020) 富山県で1 月にアキアカネを複数確認. Tombo, 62: 141-143.
223. 太田圭祐・二橋亮 (2020) 九州地方（屋久島）からヒメギンヤンマを初記録. Tombo, 62: 135-136.
224. 二橋弘之・二橋征史・二橋亮 (2020) 富山県からヒメギンヤンマを初記録. Tombo, 62: 131-132.
225. 小倉健一智・伊藤智・二橋亮 (2020) 岩手県からネアカヨシヤンマを初記録. Tombo, 62: 126-127.
226. 笹本彰彦・斎藤清・二橋亮 (2020) 国内2例目のチョウセンエゾトンボ名義タイプ亜種を長野県から記録. Tombo, 62: 123-125.
227. 奥出絃太・渡辺賢一・二橋亮 (2020) 石垣島産ナンヨウベッコウトンボのDNA 解析. Tombo, 62: 106-108.
228. 杉村光俊・二橋亮 (2020) 高知県でマイコアカネとマユタテアカネの種間雑種を採集. Tombo, 62: 104-105.
229. 二橋亮・喜多英人 (2020) シロバネカワトンボ（アサヒナカワトンボ白濁翅型）の衰退. Tombo, 62: 13-15.

2015年～2019年

136. 二橋亮・喜多英人 (2019) 茨城県つくば市におけるハネビロトンボ（トンボ目，トンボ科）の飛来記録. 茨城県自然博物館研究報告, (22): 29-30.
137. 二橋亮 (2019) 茨城県からホソミイトトンボ（トンボ目，イトトンボ科）を初記録. 茨城県自然博物館研究報告, (22): 25-27.
138. 二橋亮 (2019) トンボ由来の新規紫外線反射物質. プラスチック, 70(12): 79-83.
139. 二橋亮 (2019) ワックスによるトンボの体色変化と性分化. 現代化学, (581): 48-52.
140. 二橋亮・二橋弘之・新堀修・中田達哉・岩田朋文 (2019) 富山県のトンボ（2018年記録）. 富山市科学博物館研究報告, 43: 87-99.
141. 二橋亮 (2019) トンボから発見された紫外線反射ワックス. OPTRONICS, (451): 195-199.
142. 二橋亮・松木和雄 (2019) 千葉県におけるナツアカネの黒化個体の記録. Tombo, 61: 46-47.
143. 玉田明洋・奥出絃太・二橋亮 (2019) 新潟県で採集された翅の一部が白濁したニホンカワトンボ. Tombo, 61: 41-43.
144. 岡﨑太郎・宮畑年弘・二橋亮 (2019) 群馬県におけるカワトンボ属の分布調査. Aeschna, (55): 51-53.
145. 西村瑛人・二橋亮・和田茂樹 (2019) 福井県におけるスジボソギンヤンマ♀の記録. Aeschna, (55): 39-40.
146. 二橋亮 (2019) トンボの体色変化と環境適応　ユニークな方法で色を変えるトンボたち. どうぶつと動物園, 71(3): 24-28.
147. 二橋亮 (2019) トンボの色覚および紫外線反射の分子基盤. 生物資源ゲノム解析拠点ニュースレター, 6: 30.
148. 相場博明・加藤太一・二橋亮 (2019) 栃木県塩原層群から産出のサナエトンボ科化石. 月刊むし, 575: 23-26.
149. 二橋亮・二橋弘之・新堀修・岩田朋文 (2018) 富山県のトンボ（2017年記録）. 富山市科学博物館研究報告, 42: 83-101.
150. 荻野秀一・尾園暁・二橋亮 (2018) 石川県輪島市でエゾアカネを確認. Tombo, 60: 121.
151. 二橋亮・宮畑年弘・横井直人 (2018) 北関東におけるカワトンボ属の分布. Tombo, 60: 116-120.
152. 宮下俊之・二橋亮 (2018) 東京都におけるアカスジベッコウトンボの記録. Tombo, 60: 114-115.
153. 黒田剛広・二橋亮 (2018) ヒメハネビロトンボの翅斑変異個体. Tombo, 60: 99-101.
154. 須田真一・二橋亮 (2018) ギンヤンマのホメオシス. Tombo, 60: 98-99.
155. 鵜飼貞行・二橋亮 (2018) ギンヤンマ属およびハネビロトンボ属の種間雑種の解析. Tombo, 60: 57-60.
156. 杉村光俊・奥出絃太・二橋亮 (2018) 過去に外部形態から推定された種間雑種3例のDNA解析. Tombo, 60: 53-56.
157. 清水典之・二橋亮 (2018) 愛知県でナツアカネとマダラナニワトンボの種間雑種を確認. Tombo, 60: 52.
158. 奥出絃太・二橋亮・鵜殿清文 (2018) 1962年に採集されたマユタテアカネとミヤマアカネの種間雑種のDNA 解析. Tombo, 60: 50-52.
159. 二橋亮・奥出絃太・杉村光俊・鵜飼貞行 (2018) 日本国内から記録されたトンボの種間雑種. Tombo, 60: 1-49.
160. 二橋亮・二橋弘之・奥出絃太 (2018) 同時期に採集された別親由来のスジボソギンヤンマ(2)． Aeschna, (54): 45–46.
161. 二橋亮 (2018) トンボの高次分類とDNA解析に関する最近の知見. 昆虫と自然, 53(5): 5-9.
162. 二橋亮・奥出絃太 (2018) トンボの変態を制御する分子基盤. 生物資源ゲノム解析拠点ニュースレター, 5: 12.
163. 古藤日子 (2017) 「アリの社会性行動とその制御メカニズム研究の最前線」、生体の科学, 69, 14-19.
164. 二橋亮 (2017) 茨城県つくば市におけるオオギンヤンマ（トンボ目、ヤンマ科）の飛来記録. 茨城県自然博物館研究報告, (20): 37-38.
165. 後藤日出人・二橋亮・奥出絃太 (2017) 茨城県4市町でエゾイトトンボ（トンボ目、イトトンボ科）を確認. 茨城県自然博物館研究報告, (20): 35-36.
166. 二橋亮・二橋弘之・新堀修 (2017) 富山県のトンボ（2016年度記録）. 富山市科学博物館研究報告, 41: 87-111.
167. 二橋亮・杉浦直人・青木典司 (2017) 北海道礼文島におけるオオキトンボの初記録. Tombo, 59. 101.
168. 不破光大・二橋亮 (2017) オナガサナエを富山県から57年ぶりに発見. Aeschna, (53): 64.
169. 西田彰・二橋亮 (2017) 栃木県からアサヒナカワトンボを発見. Aeschna, (53): 55-57.
170. 二橋亮・ 尾園暁 (2017) プールにやってくるヤゴ. ブンイチ, 2: 14-17.
171. 二橋亮 (2017) トンボの翅色形成の分子基盤. 生物資源ゲノム解析拠点ニュースレター2017, 4: 31.
172. 二橋亮・杉浦直人 (2017) 礼文島におけるトンボの採集・撮影記録. 北海道トンボ研究会報, 28: 4-7.
173. 二橋亮 (2017) アカメイトトンボの新産地. 北海道トンボ研究会報, 28: 1-2.
174. 二橋亮 (2016) 広辞苑を3倍楽しむ（第93回） あかとんぼ. 科学, 86(10): 1014.
175. 二橋亮・二橋弘之・新堀修 (2016) 富山県のトンボ（2015年度記録）. 富山市科学博物館研究報告, 40: 103-126.
176. 二橋美瑞子・二橋亮 (2016) RNAseq から明らかになった昆虫の色素合成と色覚の新知見. 化学と生物, 54(6): 422-428.
177. 二橋亮 (2016) トンボのRNAseq解析とオプシン遺伝子 ―マニュアル・アセンブリの重要性―. 蚕糸・昆虫バイオテック, 85(1): 13-18.
178. 二橋亮・北山拓・杉村光俊 (2016) 同時期に採集された別親由来のスジボソギンヤンマ. Aeschna, (52): 75-76.
179. 二橋亮 (2016) カワトンボの翅色多型の分子基盤. 生物資源ゲノム解析拠点ニュースレター2015, 3: 33.
180. 前田恒志・二橋亮 (2016) 茨城県で12月16日にギンヤンマを確認. 月刊むし, 542: 46-47.
181. 深津武馬（2016）野外昆虫集団における環境細菌から共生細菌への進化過程の解明　科研費NEWS 4: 17. [PDF]
182. 深津武馬、松浦優、棚橋薫彦、森山実（2016）セミ類の共生菌と冬虫夏草　冬虫夏草 36: 13-17.
183. 後藤日出人・二橋亮 (2015) 茨城県からエゾイトトンボ（トンボ目，イトトンボ科）を初記録. 茨城県自然博物館研究報告, (18): 53-55.
184. 二橋亮 (2015) 新潟市北区松浜でアオモンイトトンボを確認. 越佐昆虫同好会報, 113: 166.

87. 奥島雄一・二橋亮・岩藤真美 (2015) アゲハ幼虫の黄色個体の記録. 月刊むし, 539: 61-62.
88. 二橋亮 (2015) トンボの種分化と分子系統解析. 昆虫と自然, 50(14): 23-29.
89. 二橋亮 (2015) 秘境 高天原を目指して. 昆虫DNA研究会ニュースレター, 23: 1-2.
90. 二橋亮 (2015) トンボの光センサーを作るオプシン遺伝子の多様性. 昆虫と自然, 50(9): 24-26.
91. 二橋亮・二橋弘之・新堀修・川村日出男（2015） 富山県のトンボ（2014年度記録）. 富山市科学博物館研究報告, 39: 105-124.
92. 二橋亮 (2015) トンボの生存戦略に関する体色と色覚の進化. 科研費NEWS, 2015年度 vol.1: 14.
93. 二橋亮 (2015) トンボは色覚にかかわる遺伝子が並外れて多い! 化学, 70(5): 73.
94. 二橋亮 (2015) RNAseqから明らかになったトンボの色覚多様性. 生物資源ゲノム解析拠点ニュースレター2014, 2: 15.
95. 深津武馬（2015）日本進化学会学会賞受賞記「共生、進化、生物多様性―生きものにわくわくしつづける喜びとともに―」　日本進化学会ニュース 16(1): 8-22. [PDF]
96. 菊池義智、細川貴弘、深津武馬（2015）共生細菌で殺虫剤に強くなる―害虫が環境中の殺虫剤分解菌と共生して殺虫剤抵抗性を獲得することを発見　産総研Today 15(2): 6-7.

2010年～2014年

77. 古賀隆一（2014）偏食を可能にする─カメムシ目昆虫の 多彩な必須共生細菌たち．蚕糸・昆虫バイオテック 83(3): 187-201. [PDF]
78. 二橋亮 (2014) 研究奨励賞受賞記 トンボに魅せられた研究者. 日本進化学会ニュース, 15(3): 51-53.
79. 二橋亮 (2014) 漢方薬にもなっていたアカトンボの赤色の正体. ファルマシア, 50(11): 1086-1090.
80. 二橋亮・二橋弘之・新堀修・川村日出男（2014） 富山県のトンボ（2013年度記録）. 富山市科学博物館研究報告, 38: 143-163.
81. 二橋亮 (2014) DNA 解析から見た日本のトンボ再検討(2). Tombo, 56: 57-59.
82. 二橋亮 (2014)　日本産トンボ類の成虫の出現期および初見・終見記録.　Aeschna, (50): 145-181.
83. 苅部治紀・佐野真吾・長崎和則・長崎光則・二橋亮 (2014)　外来種リュウキュウベニイトトンボの南関東における分布拡散とその駆除試行について.　Aeschna, (50): 139-143.
84. 棚橋薫彦・二橋亮 (2014)　トカラ列島・悪石島からアオモンイトトンボを初記録.　Aeschna, (50): 135-136.
85. 深津武馬（2014）共生により昆虫はどのように進化してきたのか？　細胞工学 33(3): 324-330.
    
86. 沓掛磨也子 (2013) アブラムシにより誘導される完全閉鎖型ゴールの巧妙な排泄物処理システム, 昆虫と自然　48 (13): 12-15.
87. 沓掛磨也子 (2013) ゴールで生活するアブラムシの快適な住まいづくり, 「むしコラ」むしむしコラム・おーどーこん　—近くて不思議な虫の世界—
    http://column.odokon.org/2013/0201_104800.php
88. 高梨琢磨・二橋亮 (2013) 生物音響学の最前線―生物ソナー、聴覚と工学的応用. 生物科学, 65(2): 66-67.
89. 二橋亮・二橋弘之・新堀修・川村日出男（2013） 富山県のトンボ（2012年度記録）. 富山市科学博物館研究報告, 37: 127-147.
90. 二橋亮 (2013) トンボの体色変化と体色多型. 蚕糸・昆虫バイオテック, 82(1): 25-29.
91. 二橋亮 (2013) 人工トンボの飛ぶ時代. PEN, 4(2): 63-64.
92. 二橋亮 (2013) 成長と休眠：特集にあたって. 生物科学, 64(4): 194.
93. 二橋亮 (2013) トンボのDNA解析とトンボ図鑑. 昆虫DNA研究会ニュースレター, 18: 26-34.
94. 二橋亮 (2013) チョウの翅の模様を決定する遺伝子－最新の知見より－. 昆虫と自然, 48(3): 9-13.
95. 二橋亮 (2013) アカトンボが赤くなるメカニズムの解明. 遺伝, 67(1): 76-82.
96. 深津武馬、古賀隆一 （2013）コナカイガラムシの複雑な共生システム：ゲノム、細胞、個体などの基本概念にインパクト　産総研Today 13(12): 14.
97. 沓掛磨也子 (2012) 分子レベルで見た兵隊アブラムシの行動と進化, 植物防疫 66 (2): 77-81.
98. 二橋亮・山中武彦・植村好延・久松正樹 (2012) 茨城県におけるトンボ目の採集・撮影記録. 茨城県自然博物館研究報告, (15): 13-38.
99. 二橋亮 (2012) トンボの世界は不思議が一杯. PEN, 3(9): 3-8.
100. 棚橋薫彦・二橋亮 (2012) 茨城県つくば市におけるホシベニカミキリの記録. 月刊むし, 502: 20.
101. 二橋亮 (2012) なぜアカトンボは”赤い”のか?　身近な昆虫からの新発見!! 天然の抗酸化物質? 化学, 67(12): 41-45.
102. 二橋亮 (2012) 酸化還元反応で色を変えるアカトンボ. 現代化学, 500: 52-54.
103. 二橋亮 (2012) 富山県におけるアカトンボ激減の実態. 昆虫と自然, 47(8): 9-14.
104. 二橋亮・二橋弘之・新堀修・川村日出男（2012） 富山県のトンボ（2011年度記録）. 富山市科学博物館研究報告, 36: 27-53.
105. 二橋亮 (2012) 極限環境に生きる生物 そのメカニズムと応用への可能性. 生物科学, 63(4): 194.
106. 二橋亮 (2012) 茨城県つくば市におけるスナアカネとスジボソギンヤンマの記録. Aeschna, (48): 45-46.
107. 二河成男、細川貴弘、森山実、大島健志朗、服部正平、深津武馬（2012）比較ゲノムから探る昆虫共生細菌が宿主へ付与する生物機能　日本マイコプラズマ学会雑誌　39: 14-16.
108. 沓掛磨也子、深津武馬（2012）アブラムシの医療隊が植物を治療：植物の傷に体液を分泌して“かさぶた”を形成、“薬剤”で再生促進　ニュートン別冊「生き物の超能力　おどろきの超機能、不可思議な生態」　pp. 96-87.
109. 二橋亮 (2011) トンボの体色進化に関わる分子機構の解明に向けて. 昆虫と自然, 46(11): 19-22.
110. 二橋亮・湯本貴和 (2011) 「共生と共進化」特集によせて. 生物科学, 63(1): 1.
111. 二橋亮・二橋弘之・新堀修（2011） 富山県のトンボ（2010年度記録）. 富山市科学文化センター研究報告, 34: 159-175.
112. 北山拓・二橋亮 (2011) スジボソギンヤンマを岡山県から初記録. Tombo, 53: 119-120.
113. 尾園暁・二橋亮・尾園亜美 (2011) ギンヤンマとリュウキュウギンヤンマの交雑個体を採集. Tombo, 53: 115-118.
114. 苅部治紀・二橋亮・小田島樹・小田島篤・小田島薫 (2011) 日本未記録のPseudagrion australasiae Selysを神奈川県で採集-人為的移入の可能性の検討-. Tombo, 53: 111-114.
115. 二橋亮 (2011) DNA解析から見た日本のトンボ再検討 (1). Tombo, 53: 59-66.
116. 古賀隆一（2011）アブラムシの細胞内共生－宿主の発生過程に取り込まれた内部共生細菌のゆくえ　生物の科学 遺伝 65 (1): 28-35.
117. 古賀隆一、深津武馬 （2011）昆虫の体色を変化させる共生細菌を発見　産総研Today 11(5): 11.
118. 深津武馬 （2011）共に生きる昆虫と微生物－運命共同体となる仕組み　生物の科学 遺伝 65 (1): 19-21.
119. 二橋亮 (2010) 国内のギンヤンマ属に見られる種間浸透の実体.  昆虫DNA研究会ニュースレター, 13: 29-33.
120. 二橋亮 (2010) トンボにおける色と模様の進化. 生物科学, 62(1): 9-18.
121. 相川拓也、安佛尚志、二河成男、菊地泰生、柴田洋、深津武馬 （2010） 共生細菌“ボルバキア”の遺伝子がマツノマダラカミキリの常染色体上に大規模に転移していることを発見　ブレインテクノニュース 137: 23-28.

2009年以前

32. 沓掛磨也子 (2009) 前代未聞！ アブラムシが植物の傷をふさいで治す, 自然保護5・6月号p.25
33. 深津武馬 （2009） 昆虫類の共生微生物：その普遍性と重要性　昆虫と自然 44 (11): 2-4.
34. 沓掛磨也子 (2007) 兵隊アブラムシの攻撃毒プロテアーゼ, 「むしコラ」むしむしコラム・おーどーこん　—近くて不思議な虫の世界—
    http://column.odokon.org/archives/2007/1221_235800.php
35. 深津武馬、細川貴弘（2007）マルカメムシがダイズ上で繁殖できる能力を腸内共生細菌が規定する　ブレインテクノニュース124: 27-30.
36. 五條堀孝、嶋田正和、岡田典弘、河田雅圭、佐藤矩行、辻和希、深津武馬，斎藤成也、内田亮子、田村浩一郎、隅山健太（2007）進化学の将来を論じる　遺伝別冊 20: 198-209.

27. 深津武馬、徳田誠（2005）昆虫がつくる植物のかたち：エゴノネコアシアブラムシのゴール形成の謎　遺伝 59 (5): 10-13.
28. 柴尾晴信、沓掛磨也子、松山茂、鈴木隆久、深津武馬（2005）警報フェロモンを出して援軍を頼む！-真社会性アブラムシの化学物質を介した兵隊の動員システム- 化学と生物　43 (1): 4-6.
29. 深津武馬（2004）昆虫類における共生微生物の機能、起源、進化に関する研究　生物科学ニュース　392: 26-30.
30. 深津武馬（2004）共に生きるということの本質　読書人の雑誌「本」 12: 42-44.
31. 深津武馬（2004）昆虫の植物適応に関わる共生細菌−微生物の新機能の発見−　遺伝 58 (4): 18-19.
32. 深津武馬、石川統（2004）共生という生き方の帰結：微生物ゲノム解析からの洞察　生体の科学 55: 217-225.
33. 深津武馬（2004）共生細菌が昆虫の植物適応を変える−微生物の新機能の発見　AIST Today 4(6): 7-9.
34. 今藤夏子、二河成男、嶋田正和、深津武馬（2004）共生細菌ボルバキアから宿主昆虫への遺伝子水平転移　日本生態学会誌　54 (3): 267-272.
35. 深津武馬（2003）世界初、微生物から多細胞生物へのゲノム水平転移を確認−生物進化論などへ影響か：アズキゾウムシの細胞核から共生細菌ボルバキアの遺伝子発見　AIST Today 3(1): 5-7.
36. 深津武馬、安佛尚志（2003）共生微生物による宿主昆虫の生殖操作の解明への分子遺伝学的アプローチ　日本農芸化学会誌ミニレビュー「共生生物のバイオフロンティア」　77: 137-139.
37. 柴尾晴信、沓掛磨也子、深津武馬（2003）ゴールをつくる兵隊アブラムシの社会行動とカースト分化−ハクウンボクハナフシアブラムシの場合−　遺伝別冊「動物の社会行動」16: 51-57.
38. 深津武馬（2000）書評「長谷川眞理子編：虫を愛し，虫に愛された人」　科学 70(12): 1111-1111.
39. 深津武馬（1999）冬虫夏草と昆虫共生微生物：内部共生の進化と起源への洞察　日本菌学会会報　40: 34-41.
40. 深津武馬（1999）兵隊アブラムシの系統と進化　生物科学 51: 29-42.
41. 深津武馬（1998）同翅目昆虫の酵母様共生微生物と昆虫寄生菌　植物防疫52: 496-498.
42. 深津武馬（1998）昆虫内部共生微生物：未探索の微生物資源の利用をめざして　Science & Technonews Tsukuba: 47, 38-40.
43. 深津武馬（1998）同翅目昆虫の内部共生微生物の機能・進化・起源　蛋白質核酸酵素43: 1227-1236.
44. 深津武馬（1997）ジャワの高原に謎の兵隊アブラムシを追って［１］　インセクタリウム34: 244-250.
45. 深津武馬（1997）ジャワの高原に謎の兵隊アブラムシを追って［２］　インセクタリウム34: 292-298.
46. 深津武馬（1997）アブラムシの内部共生菌　冬虫夏草17: 7-9.
47. 深津武馬（1997）同翅目昆虫の酵母様内部共生微生物の進化と起源　蚕糸・昆虫農業技術研究所研究資料 22: 70-74.
48. 深津武馬（1996）昆虫内部共生系の進化と起源：寄生からはじまった共生　科学 66: 806-816.
49. 深津武馬（1994）昆虫の内部共生微生物の進化的起源—その多様性の包括的理解への途　生物科学ニュース 271: 13-19.
50. 深津武馬（1993）ミクロの共生（１）アブラムシの細胞内共生とその進化　インセクタリゥム 30: 26-32.
51. 深津武馬（1993）ミクロの共生（２）共生微生物からみたツノアブラ族の系統と真社会性の進化　インセクタリゥム 30: 66-77.
52. 深津武馬（1993）細胞内共生体と菌細胞：アブラムシの体の中のバイオリアクター　バイオサイエンスとインダストリー 51: 197-198.
53. 深津武馬（1993）進化生態学・系統分類学における分子生物学的技術：ＰＣＲ法をもちいた高感度・高分解能の遺伝子多型検出法を中心に　昆虫分類学若手懇談会ニュース 65: 2-15.