Kyushu University Academic Staff Educational and Research Activities Database
List of Presentations
Toshihiro Kumamaru Last modified date:2021.09.02

Professor / System Biology / Department of Bioscience and Biotechnology / Faculty of Agriculture


Presentations
1. Ammar Elakhdar, T. Ushijima, M. Fukuda, N. Yamashiro, Y. Kawagoe, T. Kumamaru, The translation termination factor eRF1 protein is essential for the accumulation of specific cyatein-poor prolamines in rice endosperm, Annual WSU (Washington State University) Plant Science Symposium, 2021.05.
2. Tran Hong Quan, Hiroaki Matsusaka, Tomokazu Ushijima,Takahiko Kubo, Toshirhiro Kumamaru, Identification of genomic region harboring Endosperm Storage Protein (ESP) 3 gene regulating the Cysteine-rich prolamine by MutMap, 日本育種学会第14回九州育種談話会, 2019.11.
3. ラハマ シティ ナル アジザ フォージヤティ,熊丸 敏博,久保 貴彦, イネ雑種雄性不稔に関与するINK 遺伝子のファインマッピング, 日本育種学会第136回講演会, 2019.09.
4. グエン テイ フオング トー, 中村 哲洋, 熊丸 敏博, 久保 貴彦, Characterization of a new gene involved in starch metabolism of rice, 日本育種学会第136回講演会, 2019.09.
5. Saw Myat Nwe,Masako Fukuda,Toshihiro Kumamaru, The role of the Protein Disulfide Isomerase Like (PDIL) 2-3 in the accumulation of the storage proteins in rice endosperm, 日本育種学会第134回講演会, 2018.09.
6. Ammar Elakhdar, Tomokazu Ushijima, Masako Fukuda, Noriko Yamashiro, Yasushi Kawagoe, Toshihiro Kumamaru, The recognition assay of termination codon by ESP1/ eukaryote releases factor-1 (eRF1) in rice, International Plant & Animal Genome XXVI, 2018.01.
7. Ammar Elakhdar, Tomokazu Ushijima, Masako Fukuda, Noriko Yamashiro, Yasushi Kawagoe, Toshihiro Kumamaru, The recognition assay of termination codon by ESP1/ eukaryotic releases factor-1 (eRF1) in rice, 九州育種談話会, 2017.12.
8. Sobhy A., Fukuda M., and Kumamaru T., Guanine nucleotide exchange factor2 (GEF2) for Rab5 proteins is essential for intracellular transport of the proglutelin from the Golgi apparatus to the protein storage vacuole in rice endosperm., 九州育種談話会, 2017.12.
9. Ammar Elakhda, Tomokazu Ushijima, Masako Fukuda, Noriko Yamashiro, Yasushi Kawagoe, Toshihiro Kumamaru, Function of ESP1/eRF1 in the translation of prolamin polypeptides in rice endosperm, 日本育種学会, 2018.03.
10. H. Numa, H. Matsusaka, T. Kumamaru, Y. Habu, Genome-wide DNA methylation profile in mutants of a rice HISTONE DEACETYLASE (HDA705), International Symposium on Rice Functional Genomics, 2017.09.
11. A. Elakhdar, A. Sobhy, T. Kumamaru, Association analysis using SSR markers to nd QTL for heading date in barley, 日本育種学会, 2016.09.
12. T. Nakamura, T. Kumamaru, The Requirement of Polyglucan Debranching in Starch Synthesis of Rice as Mandated by the Presence of Branching Enzyme 2b., 日本育種学会九州育種談話会, 2016.12.
13. A. Elakhdar, T. Kumamaru, Genetic diversity analysis and core collection formation in barley genetic resources, 日本育種学会九州育種談話会, 2016.12.
14. A. Elakhdar, T. Kumamaru, M. Mansour, R. Brueggeman, Genetic diversity analysis and core collection formation for barley genetic resources in Egypt, 日本育種学会, 2017.03.
15. A Elakhdar, A Abdelsattar, E Elakhdar, T Kumamaru, Association mapping for drought and salinity tolerance related-traits in barley, 日本育種学会, 2016.03.
16. A Elakhdar, K Amer, A Abdelsattar, T Kumamaru, Microsatellite markers linked to salt tolerance in barley "Hordeum vulgare L., 日本育種学会, 2015.09.
17. Khatab Ismael, 熊丸 敏博, Molecular characterization of SSR marker associated with early heading date in some rice genotypes
, 日本育種学会, 2014.09.
18. R. Satoh, S. Shiraishi, T. W. Okita, M. Maeshima, T. Kumamaru, Physiological role of plastid membrane transporters involved in transport of intermediates of starch biosynthesis in rice, Plant Bioligy Europe FESPB/EPSO, 2014.06.
19. Liuying Wen, Masako Fukuda, Masahiro Ogawa, Thomas W. Okita, Mariko Sunada, Takashi Ueda, Toshihiro Kumamaru, Rab5/GEF system is essential for intracellular transport of proglutelin from the Golgi apparatus to the protein storage vacuole in rice endosperm, Plant Biology 2013, 2013.07.
20. Ai Nagamine, Toshihiro Kumamaru, Thomas W. Okita, Identification of potential effectors for the small regulator Rab5, Plant Biology 2013, 2013.07.
21. Tetsuhiro Nakamura, Toshihiro Kumamaru, Function of isoamylase1 for the storage and the transient starches in rice
, Plant Biology 2013, 2013.07.
22. Li Tian, Kelly A. Doroshenk, Toshihiro Kumamaru, Thomas W. Okita, Identification and characterization of a novel RNA-binding protein involved in glutelin mRNA processing and localization
, Plant Biology 2013, 2013.07.
23. Vacuolar processing enzyme plays an essential role in the formation of the glutelin crystalline structure in rice seed.
24. Seliction of mutant for Tudor-SN in rice.
25. The small GTPase Rab5a is essential for intracellular transport of glutelin precursor from Golgi apparatus and endosomal membrane organization in developing rice endosperm .
26. Rice genetic resources by MNU mutagenesis.
27. Vacuolar processing enzyme plays an essential role in the formation of the glutelin crystalline structure in rice seed.
28. The role of cysteine-rich prolamines for the formation of prolamine protein body .
29. The small GTPase Rab5a is essential for intracellular transport of glutelin precursor from Golgi apparatus and endosomal membrane organization in developing rice endosperm .
30. Esp1 gene, regulatory factor in rice cysteine-poor prolamin, encode a peptide release factor (eucaryotic Release Factor 1, eRF1).
31. Tasaki,M., Y.uemura, T.Kumamaru, Y.Nakamura, K.Ohtsubo, H.satoh (2004) Mapping of flo3 gene in rice seed..
32. Takemoto,Y., Y.Ueda, M.Satoh, T.Kumamaru, K.Tanaka, K.Ohtsubo, M.Ogawa, H.satoh (2004) Histochemical analysis of developing endosperm cells of a navel 57H mutant, Glup5, in rice..
33. Ueda,Y., Y.Takemoto, M.Sato, T.Kumamaru, K.Tanaka, K.Ohtsubo, M.Ogawa, H.Satoh (2004) Histochemical analysis of PBs in endosperm cells of developing seed for a navel 57H mutant, glup7, in rice..
34. Satoh, H., T. Kumamaru, Y. Takemoto, M.Ogawa, I. Hara-Nishimura (2003) Mutants involving in the intracellular process for accumulation of rice glutelin in protein body.
35. Kumamaru, T., Y. Uemura, Y. Takemoto, H. Satoh, I. Hara-Nishimura (2003) Rice mutant glup3 greatly accumulates the glutelin precursor in protein storage vacuole and deletes the vacuolar processing enzyme.
36. Ushijima,T., T.Kumamaru, H.Satoh (2003) esp1 mutation affects specifically cystein poor prolamins located on chromosome 5.
37. Sato,M., Y.Takemoto, T.Kumamaru,M.Ogawa, H.Satoh (2003) Biochemical and genetical characterization of rice glutelin precursor mutants, glup4 and glup6..
38. Kumamaru,T., Y.takemoto, M.Ogawa, H.Satoh (2003) Genetic mechanism controlling the pathway of transport and accumulation to protein body of rice glutelin.
39. Takemoto,Y., T.Kumamaru, M.Ogawa, H.Satoh (2001) Genetic mechanism of the transportation and accumulation of rice glutelin using the mutagenesis.
40. Kumamaru,T., M.Ogawa, H.Satoh (2001) Mutation of seed storage protein of rice.
41. Kawai,N., Y.Takemoto, M.Satoh, A.Sugino, C.Wan, T.Kumamaru, M.Ogawa, H.Satoh, T.Okita (2001) Protein disulfide isomerase is essential for accumulation of rice storage proteins into separate intracellular compartments..
42. Kumamaru Toshihiro (2002) Genetic manipulated crops in Japan.