職名 准教授
氏名 たなかれいじ
田中礼士
生年月 1974.06
所属 部局 生物資源学研究科
学科・専攻 生物圏生命科学専攻
講座 海洋生命分子化学
教育研究分野  
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個人のホームページ https://www.bio.mie-u.ac.jp/seimei/marine/bisei/
学歴 三重県立四日市高等学校卒業
北海道大学水産学部卒業 (~1998年)
北海道大学大学院水産学研究科 博士前期課程 (~2000年) 修了
北海道大学大学院水産科学研究科 博士後期課程 (~2003年) 修了
学位 2003.03 博士(水産科学) 北海道大学大学院
所属学会 日本水産学会 日本微生物生態学会 マリンバイオテクノロジー学会
社会活動 愛知県, 愛知県環境審議会委員
日本水産学会, 水産教育推進委員会委員
職歴 2003.04~2006.03 日本学術振興会特別研究員(PD)
2006.04~2006.10 (財)地球環境産業技術研究機構 研究員
2006.11~現職
学術(芸術)賞 日本微生物生態学会優秀発表賞,日本微生物生態学会優秀発表賞,日本微生物生態学会
三重大学知的財産優秀出願賞,DEH生産に関する特許,2017.10
三重大学賞,SDGs部門,2023.05
専門分野 海洋微生物学
現在の研究課題 海洋微生物の分子生態学的研究, Molecular marine microbial ecology
担当科目 生物学概論 応用生命化学演習Ⅰ 海洋資源微生物学 海洋生命分子化学実験1 海洋生命分子化学特別研究Ⅰ 海洋生命分子化学特別研究Ⅱ 海洋微生物化学特論 海洋微生物機能学 卒業研究
主な業績等 [査読付論文]
1. マコンブ穴あき症藻体からのPseudoalteromonas elyakovii菌株の分離. 日本水産学会誌. 66: 249-254. (2000).
2. ウニ病害原因菌Vibrio sp. の同定のための16S rRNA 遺伝子を標的にした特異的PCRの開発. 日本水産学会誌. 68: 201-206. (2002).
3. Spirulina platensis培養のための焼酎粕の有効利用. 日本防菌防黴学会誌. 35: 351-357. (2007).
4. 水酸化マグネシウムによる赤潮生物の運動性に対する影響とその作用機序. 日本防菌防黴学会誌. 38: 289-296(2010).
5. ステンレス鋼表面に吸着したタンパク質の除去における亜塩素酸ナトリウムの洗浄作用. 日本防菌防黴学会誌. 45: 437-444.(2017)
6. Assignment of Alteromonas elyakovii KMM162T and five strains isolated from spot-wounded frond of Laminaria japonica to Pseudoalteromonas elyakovii comb. nov. and the extended description of the species. Int. J. Syst. Evol. Microbiol. 50: 265-271. (2000).
7. Identification of Vibrio halioticoli using 16S rDNA PCR/RFLP (restriction fragment length polymorphism) analysis. Fish. Sci. 67:185-187. (2001).
8. Identification of Vibrio halioticoli by colony hybridization with non-radioisotope labeled genomic DNA probe. Fisheies Sci. 68:227-229. (2002).
9. Distribution of Vibrio halioticoli around an abalone farming center in Japan. Microbes and Environments 17: 6-9. (2002).
10. Oligonucleotide probe for detecting Enterobacteriaceae by in situ hybridization. J. Appl. Microbiol. 93:60-68. (2002).
11. FAFLP and rep-PCR fingerprinting reveal host-specific genetic diversity of Vibrio halioticoli -like strains isolated from the gut of Japanese abalone. Appl. Environ. Microbiol. 68: 4140-4144. (2002).
12. Acetic acid production of Vibrio halioticoli from alginate: a possible role for establishment of abalone-Vibrio halioticoli association. Aquaculture 219: 671-679. (2003).
13. Gut microflora of abalone Haliotis discuss hannai in culture changes coincident with a change in diet. Fish. Sci. 69: 951-958. (2003).
14. Seven-hour fluorescence in situ hybridization technique for enumeration of Enterobacteriaceae in food and environmental water sample. J. Appl. Microbiol. 95:1182-1190. (2003).
15. Biodiversity and in situ abundance of gut microflora of abalone (Haliotis discus hannai) determined by culture-independent techniques. Aquaculture: 241: 453-463. (2004).
16. PCR-RFLP analysis for identification of Aeromonas isolates collected from diseased fish and aquatic animals. Fish Pathol. 40: 151-159. (2005).
17. Thermaerobacter ritoralis sp. nov., a strictly aerobic and thermophilic bacteria isolated from coastal hydrothermal field. Int. J. Syst. Evol. Microbiol. 56: 1531-1534. (2006).
18. Rhodothermus clarus sp. nov., a strictly aerobic, thermophilic bacterium isolated from a terrestrial hot spring. Bull. Graduate School of Bioresources, Mie Univ. 35: 39-45. (2008).
19. Denitrifying activity and homologous enzyme analysis of Alcanivorax dieselolei strain N1203. Biocontrol Sci. 14: 97-105. (2009).
20. Colonization and probiotic effects of lactic acid bacteria in the gut of the abalone Haliotis gigantea. Fish. sci. 75: 1285-1293. (2009).
21. Effect of salinity on denitrification under limited single carbon source by Marinobacter sp. isolated from marine sediment. J. basic microbiol. 50: 1-5. (2010).
22. Diversity of viruses of the hyperthermophilic archaeal genus Aeropyrum, and isolation of the Aeropyrum pernix bacilliform virus 1, APBV1, the first representative of the family Clavaviridae. Virology. 402: 347-354. (2010).
23. Improved gut environment of abalone Haliotis gigantea through Pediococcus sp. Ab1 treatment. Aquaculture. 305: 59-65. (2010).
24. Wax ester-like compounds as biosurfactants produced by Dietzia maris from n-alkane as a sole carbon source. J. Basic Microbiol. 51: 1–9. (2011).
25. Bacterial diversity associated with the rotifer Brachionus plicatilis sp. complex determined by culture-dependent and -independent methods. Biocontrol Sci. 17: 51-56. (2012).
26. Extracellular Neutral Lipids Produced by the Marine Bacteria Marinobacter sp. Biocontrol Sci. 17: 69-75. (2012).
27. Evaluation for Antioxidative Properties of Phlorotannins Isolated from the Brown Alga Eisenia bicyclis by the H-ORAC Method. Food Nutr. Sci. 4: 78-82. (2013).
28. The Influence of Phlorotannins and Bromophenols on the Feeding Behavior of Marine Herbivorous Gastropod Turbo cornutus. Am. J. Plant Sci. 5: 387-392. (2014).
29. Modulation of gut microbiota associated with abalone Haliotis gigantea by dietary administration of host-derived Pediococcus sp. Ab1. Fish. sci. 80: 323-332. (2014).
30. Draft genome of Falsirhodobacter sp. alg1, an alginate degrading bacteria isolated from fermented brown algae. Genome Announc. 2: e00826-14 (2014).
31. Formosa haliotis sp. nov., a brown alga-degrading bacterium isolated from the gut of the abalone Haliotis gigantea Int. J. Syst. Evol. Microbiol. 65: 4388-4393 (2015).
32. In situ enumeration and localization of the probiotic Pediococcus sp. strain Ab1 in the gut of abalone, Haliotis gigantea. Fish. Sci. 82: 481-489 (2016)
33. Falsirhodobacter sp. alg1 Harbors Single Homologs of Endo and Exo-Type Alginate Lyases Efficient for Alginate Depolymerization. PLoS ONE. 11(5): e0155537(2016)
34. Genome sequence of Formosa haliotis strain MA1, a brown alga-degrading bacterium isolated from the gut of abalone Haliotis gigantea. Genome Announc. 4:e01312-16 (2016)
35. Temporal fluctuation in the abundance of alginate-degrading bacteria in the gut of abalone Haliotis gigantea over 1 year. Aquaculture Res. 47: 2899-2908 (2016)
36. Measurement of the Growth Rate of Vibrio parahaemolyticus under Various Salinity Conditions using Microbial Calorimetry,J. Environ. Control Technique.34: 73-79.(2016)
37. Adhesion of Vibrio parahaemolyticus to Stainless steel Surfaces and Its Removal by Caustic Alkali Cleaning,J. Environ. Control Technique. 34: 240-247.(2016)
38. Inactivation of Vibrio parahaemolyticus Unattached and Attached to a Solid Surface in pH-Controlled Sodium Hypochlorite Solutions, Biocontrol Sci. 21: 265-268.(2016)
39. Kinetics of the Inactivation of Vibrio parahaemolyticus in Weakly Acidic Sodium Chlorite Solution, Biocontrol Sci. 22: 25-30.(2017)
40. Genome sequence of Arcobacter sp. strain LA11, isolated from the abalone Haliotis discus. Genome Announc. 5:e00032-17 (2017)
41. Development of an analysis method for 4-Deoxy-L-erythro-5-hexoseulose uronic acid by LC/ESI/MS with selected ion monitoring. Nat. Prod. Commun. 12: 941-944. (2017)
42. Characterization of the cellulosomal scaffolding protein CbpC from Clostridium cellulovorans 743B. J. Biosci. Bioeng. 124: 376-380. (2017)
43. Construction of bioengineered yeast platform for direct bioethanol production from alginate and mannitol. Appl Microbiol Biotechnol. 101: 6627-6636. (2017)
44. Arcobacter haliotis sp. nov., isolated from abalone species Haliotis gigantea. Int. J. Syst. Evol. Microbiol. 67: 3050-3056. (2017)
45. Evaluation of anti-glycation activities of phlorotannins in human and bovine serum albumin-methylglyoxal models. Nat. Prod. Commun. 12: 1673-1820. (2017)
46. Cristal Overexpression, purification, crystallization, and X-ray diffraction analysis of xylanase B from Clostridium cellulovorans 743B. Acta Cryst. F74: 113-116. (2018).
47. Evaluation of anti-glycation activities of phlorotannins in human and bovine serum albumin-glyceraldehyde models. Nat. Prod. Commun. 13: 1007-1010. (2018).
48. A Simple Analysis Method for 4-Deoxy-lerythro-5-hexoseulose Uronic Acid by HPLC-ELSD with Column for Anion Analysis. Nat.Prod.Commun. 2019: 1-5. (2019).
49. Diversity, enumeration, and isolation of Arcobacter spp. in the giant abalone, Haliotis gigantea. MicrobiologyOpen. 2019: e890. (2019)
50. Microbial community analysis in the gills of abalones suggested possible dominance of epsilonproteobacterium in Haliotis gigantea. PeerJ. 8: e9326. (2020).
51. Phlorotannins remarkably suppress the formation of Nε-(carboxymethyl)lysine in a collagen-glyoxal environment. Nat. Prod. Commun. 15: 1-6. (2020).
52. Investigation of Biofilms Formed on Steelmaking Slags in Marine Environments for Water Depuration. Int. J. Mol. Sci. 21: 6945. (2020).
53. Evaluation on intestinal permeability of phlorotannins using Caco-2 cell monolayers. Nat. Prod. Commun., 17: (2022).
54. Production of 4-deoxy-L-erythro-5-hexoseulose uronic acid using two free and immobilized alginate lyases from Falsirhodobacter sp. alg1. Molecules, 27: 3308. (2022).
55. Isolation, diversity and characterization of ulvan-degrading bacteria isolated from marine environments. Molecules, 27: 3420. (2022).
56.Cell-penetrating peptide-peptide nucleic acid conjugates as a tool for protein functional elucidation in the native bacterium. Molecules, 27: 8944. (2022).
57. Influence of elution characteristics of steelmaking slags on major bacterial communities in biofilms. Coatings 13: 1537. (2023).
58. Genome sequence of Vibrio sp. strain 10N, an ulvan-degrading bacterium isolated from coastal seawater collected at Ise Bay, Japan. Microbiol. Res. Announc. 13, (2) e00972-23. (2024).