学部・大学院
Academics

近藤 悟

近藤 悟 教授 農学博士
果樹機能制御学、資源植物生理学

近藤 悟近藤 悟

氏名 近藤 悟
職位 教授
学位 農学博士
所属
  • 園芸学研究科 生物資源科学コース 栽培・育種学領域 栽培学分野
  • 園芸学部 園芸学科 栽培・育種学プログラム 栽培学分野
  • 園芸別科 園芸別科を担当するスタッフ 
居室 C棟 2階 209
電話 047-308-8800
Fax 047-308-8800
E-mail s-kondo@
faculty.chiba-u.jp
ホームページ http://www.h.chiba-u.jp/lab/kazyu

主な研究課題

  1. 果実の発育(細胞壁崩壊、着色色素アントシアニン合成、香気成分合成など)における生理活性物質の役割、とくに成熟制御に関わるアブシシン酸、 ジャスモン酸、エチレンのクロストークの解析を、ガスクロマトグラフィーマススペクトロメトリー(GC/MS)などの機器分析、生理活性物質代謝酵素の遺 伝子の発現解析の面から研究している。
  2. 低温、乾燥、高塩、紫外線など環境ストレスが、果樹および果実の生理活性物質および活性酸素(フリーラジカル)産生の動態に及ぼす影響を検討している。
  3. 果樹の花芽分化誘導に関連する生理活性物質の動態の解析を高速液体クロマトグラフィーマススペクトロメトリー(LC/MS)など機器分析を通じて解析している。さらに、花芽形成関連遺伝子の発現への影響を解析する。
  4. 果実の機能性(抗酸化活性)および抗酸化物質(ポリフェノール、カロテノイド、ビタミン等)の産生と環境要因の関わりを検討している。
  5. 太陽光およびLEDを利用した植物工場における果樹栽培および当該環境が生理活性物質に及ぼす影響を検討している。

  2012-2014: 園芸学会英文誌編集委員長

  2013-: 国際園芸学会 Plant Growth Regulators in Fruit Productionシンポジウム委員長

  2014-: 園芸学会評議員 

  2016年 5月-: Editor-In-Chief (Scientia Horticulturae) (エルゼビアー) 


ラ・フランスの研究

主な業績

1) Wan, S., Saito, T., Okawa, K., Oghara, H., Shishido, M., Ikeura, H., Kondo, S. α-Ketol linolenic acid (KODA) application affects endogenous abscisic acid, jasmonic acid and aromatic volatiles in grapes infected by a pathogen (Glomerella cingulata). J. Plant Physiol. (In Press). 2016. (Corresponding author)

2) Lekkham, P., Srilaong V., Pongprasert, N., Kondo, S. Anthocyanin concentration and antioxidative activity in light-emitting diode (LED)-treated apples in a greenhouse environmental control system. Fruits. (In Press). 2016. (Corresponding author)

3)Rodyoung, A., Masuda, Y., Tomiyama, H., Saito, T., Okawa, K., Ohara, H., Kondo, S. Effects of light emitting diode irradiation at night on abscisic acid metabolism and anthocyanin synthesis in grapes in different growing seasons. Plant Growth Regul. 79:39-46. DOI 10.1007/s10725-015-0107-1. 2016. (Corresponding author)

4) Kondo, S. Bioactive compound in fruits are affected by light quality. J. Food Agr. Technol. 1:11-15. 2015.

5) Wang, S., Takahashi, H., Saito, T., Okawa, K., Ohara, H., Shishido, M., Ikeura, H., Kondo, S. Jasmonate application influences endogenous abscisic acid, jasmonic acid and aroma volatiles in grapes infected by a pathogen (Glomerella cingulate). Scientia Hort. 192: 166-172. 2015. (Corresponding author)

6) Kowitcharoen, L., Wong-Aree, C., Setha, S., Komkhuntod, R., Srilaong, V., Kondo, S. Changes in abscisic acid and antioxidant activity in sugar apples under drought conditions. Scientia Hort. 193:1-6. 2015. (Corresponding author)

7)Kondo S. Grapes. Fruit Tree Science(Ed. Kanahama K.).Buneido Publisher (Tokyo, Japan). pp. 91-124. 2015.

8)Rodyoung, A., Masuda, Y., Kondo S. Endogenous ABA, anthocyanin and sugar syntheses in delayed-start cultured grapes under double cropping cultivation system irradiated by blue and red-LED at night. Acta Hort. (In press). 2015.(Corresponding author)

9) Kondo S, H Tomiyama, A Rodyoung, K Okawa, H Ohara, S Sugaya, N Terahara, N Hirai. Abscisic acid metabolism and anthocyanin synthesis in grape skin are affected by blue and red light irradiation at night. J Plant Physiology 171:823-829. 2014.

10) Kondo, S., Sugaya, S., Kittikorn, M., Todoroki, y., Mizutani, M., Hirai, N. Dehydration tolerance in apple seedlings is advanced by retarding ABA 8'-hydroxylase CYP707A. Acta Hort. 1042: 151-157. 2014.

11)Kammapana L. Jitareerat P, Yamauchi N, Kondo S, Srilaong V. Fruit development changes in abscisic acid and jasmonic acid contents of dragon fruit (Hylocereous undatus).International Food Res J. 21:1095-1099. 2014.

12) H. Umemura, S. Kondo, S. Matsumoto. Expression and functional analysis of a novel MYB gene, MdMYB110a_JP, responsible for red flesh, not skin color in apple fruit. Planta 238:65-76. 2013.

13) M. Kittikorn and S. Kondo. Application of an analog of 9, 10-ketol-octadecadienoic acid (KODA), affected flower bud formation and MdTFL1 and MdFT1 gene expression in apple buds under heavy-crop and shade conditions. J. Amer. Soc. Hort. Sci. 138: 102-107. 2013. (Corresponding author)

14) T. Peng, C. Honda, Y. Ban, S. Kondo, T. Moriguchi Screening of UV-B-induced genes from apple peels by SSH: possible involvement of MdCOP1-mediated signaling cascade genes in anthocyanin accumulation. Physiol. Plant. 148: 432-444. 2013.

15) Kondo, S., Kittikorn M., Yokoyama M. Oxylipins that regulate the symposium of fruit maturation such as ethylene productions. Acta Hort. 989: 41-46. 2013.

16) Kondo, S., Tomiyama, H., Kittikorn, Ookawa, K., Ohara, H., M., Ban, Y., Moriguchi, T. Ethylene production and 1-aminocyclopropane-1-carboxylate(ACC) synthase and ACC oxidase gene expressions in apple fruit are affected by 9, 10-ketol-actadecadienoic acid (KODA). Postharvest Biol. Technol. 72:20-26. 2012.

17) Pussigal, I., Kondo, S., Siriphanich, J.Internal browning of pineapple (Ananas comosus L.) fruit and endogenous concentrations of abscisic acid and gibberellins during low temperature storage. Scientia Hort. 146: 45-51. 2012. (Corresponding author) 

18) Okazaki, M., Kittikorn, M., Mizutani, M., Hirai, N., Kondo, S., Ohnishi, T., Todoroki, Y. Abscinazol-E2B, a practical and selective inhibitor of ABA 8'-hydroxylase CYP707A. Bio. Med. Chem.20: 3162-3172. 2012.

19) Torigiani P, Fregola F, Ziosi V, Ruiz K, Kondo S, Costa G. Differential expression of allene oxide synthase (AOS), and jasmonate relationship with ethylene biosynthesis in seed and mesocarp of developing peach fruit. Postharvest Biol. Technol. 63: 67-73. 2012.

20) Kondo, S., Sugaya, S., Sugawa, S., Ninomiya M., Kittikorn, M.Dehydration tolerance in apple seedlings is affected by an inhibitor of ABA 8'-hydroxylase CYP707A. J. Plant Physiol .169:234-241. 2012.

21) Kondo, S., Kittikorn M., Okawa, K., Ohara, H., Kotoda, N., Wada M., Yokoyama M., Ifuku, O., Yoshida, S.9, 10-Ketol- octadecadienoic acid (KODA) and the expression of MdTFL1 and MdFT1 in apples. Acta Hort. 932:387-392. 2012.

22) Kondo, S. Biosynthesis and functions of ABA in fruits. (Berhardt L. V. Ed. In: Advances in Medicine and Biology). Vol: 51. pp 179-202. Nova Publishers. 2012. ISBN: 978-1-61942-804-1

23) Nimitkeatkai, H., Shsishido, M., Okawa, K., Ohara, H., Ban, y., Kita M., Moriguchi T., Ikeura H., Hayata Y., Kondo S. Effect of jasmonates on ethylene biosynthesis and aroma volatile emission in Japanese apricot infected by a pathogen (Colletotrichum gloeosporioides). J. Agr. Food Chem. 59: 6423-6429. 2011. (Corresponding author)

24) Kittikorn, M., Okawa, K., Ohara, H., Kotoda, N., Wada, M., Yokoyama, M., Ifuku, O., Yoshida, S., Kondo, S. Effects of fruit load, shading, and 9, 10-ketol-octadecadienoic acid (KODA) application on MdTFL1 and MdFT1 genes in apple buds. Plant Growth Regul. 64: 75-81. 2011. (Corresponding author)

25) Kondo, S. and M. Kittikorn.The influence of the interaction between jasmonates, ethylene, and polyamines on fruit quality. Thai J. Agr. Sci. 44: 11-15. 2011.

26) Kondo, S., A. Fiebig, Okawa, K., Ohara, H., M. Kim. Jamonic acid, polyamine, and antioxidant levels in apple seedlings as affected by ultraviolet-C irradiation. Plant Growth Regul. 64:83-89. 2011.

27) Okazaki, M., Nimitkeatkai H., Muramatsu, T., Aoyama, H., Ueno, K., Mizutani, M., Hirai, N., Kondo, S., Ohnishi, T., Todoroki, Y. Abscinazol-E1, a novel chemical tool for exploring the role of ABA 8'-hydroxylase CYP707A. Bioorganic Medicinal Chem. 19: 406-413. 2011.

28) Yin, Y.G., A. Sanuki, N. Fukuda, S. Kondo, S. Sugaya, H. Ezura, C. Matsukura.Salinity stress promotes carbohydrate influx and starch biosynthesis during early developing stages in fruit of tomato (Solanum lycopersicum L.) in ABA- and osmotic stress-independent manner. J. Exp. Bot. 61: 563-574. 2010.

29) Ban, Y., S. Kondo, BE, Ubi, C. Honda, H. Besso, T. Moriguchi. UDP-sugar biosynthesis pathway: contribution to cyanidin 3-galactoside biosynthesis in apple skin. Planta 230: 871-881. 2010.

30) Kondo, S. Roles of jasmonates in fruit ripening and environmental stress. Acta Hort. 884: 133-137. 2010.

31) Kondo, S., K. Sae-Lee, S. Kanlayanarat. Xyloglucan and polyuronide in the cell wall of papaya fruit during development and storage. Acta Hort. 875: 351-356. 2010.

32) Kittikorn, M., S. Kondo . 9, 10-Ketol octadecadienoic acid (KODA) levels and flower bud formation in apples. Acta Hort. 884: 133-137. 2010. (Corresponding author)

33) Kittikorn, M., S. Kondo. Effect of fruit load on 9, 10-ketol-octadecadienoic acid (KODA), GA and jasmonic acid concentrations in apple buds. Scientia Hort. 124: 225-230. 2010. (Corresponding author)

34) Todoroki, Y., K. Ueno, S. Kondo, M. Mizutani, N. Hirai. Abscinazole-F1, a conformationally restricted analogue of the plant growth retardant uniconazole and an inhibitor of ABA 8'-hydroxylase CYP707A with no growth-retardant effect. Bioog. Med. Chem. 17: 6620-6630. 2009.

35) Todoroki, Y., S. Kondo, Ueno, K., M. Mizutani, N. Hirai. Enlarged analogues of uniconazole, new azole containing inhibitors of ABA 87-hydroxylase CYP707A. Bioog. Med. Chem. Lett.19: 5732-5786. 2009.

36) Kondo, S., M. Kittikorn, H. Ohara, K. Okawa, S. Sugaya, N. Kitahata, T. Asami. Effect of a cytochrome P450 inhibitor on abscisic acid biosynthesis and stomatal regulation in citrus trees in water-stressed conditions. Scientia Hort. 120: 146-149. 2009.

37) Kondo, S., S. Meemak, Y. Ban, T. Moriguchi, T. Harada. Effects of auxin and jasmonates on 1-aminocyclopropane-1-carboxylate (ACC) synthase and ACC oxidase gene expression during ripening of apple fruit. Postharvest Biol. Technol. 51:281-284.2009.

38) Setha, S. S. Kondo. Abscisic acid levels and anti-oxidant activity are affected by an inhibitor of cytochrome P450 in apple seedlings. J. Hort. Sci. Biotech. 84: 340-344. 2009. (Corresponding author)

39) Kondo, S. Fruit ripening and characteristics regulated by physiologically active substances. Fresh Produce (Invited-Review). 3: 7-11. 2009.

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