Expression analysis of defense-related genes in wild kiwifruit (Actinidia rufa) tolerant to bacterial canker

被引：5

作者：

Kaji, Ryoma ^{[1
]}

Yariuchi, Rina ^{[1
]}

Fujii, Yumi ^{[1
]}

Taniguchi, Shiduku ^{[1
]}

Uji, Yuya ^{[1
]}

Suzuki, Go ^{[1
]}

Kashihara, Keita ^{[1
]}

Kisaki, Gan ^{[2
]}

Suezawa, Katsuhiko ^{[2
]}

Ohtani, Mamoru ^{[2
]}

Kataoka, Ikuo ^{[1
]}

Akimitsu, Kazuya ^{[1
]}

Gomi, Kenji ^{[1
]}

机构：

[1] Kagawa Univ, Fac Agr, Miki, Kagawa 7610795, Japan

[2] Kagawa Prefectural Fuchu Fruit Res Inst, Kagawa Prefectural Agr Expt Stn, Sakaide, Kagawa 7620024, Japan

来源：

JOURNAL OF GENERAL PLANT PATHOLOGY | 2021年 / 87卷 / 06期

关键词：

Actinidia rufa; Bacterial canker; Kiwifruit; Lignin; Psa3; SYRINGAE PV. ACTINIDIAE; 1ST REPORT; RESISTANCE;

D O I：

10.1007/s10327-021-01024-7

中图分类号：

Q94 [植物学];

学科分类号：

071001 ;

摘要：

Kiwifruit bacterial canker, which is caused by Pseudomonas syringae pv. actinidiae biovar 3 (Psa3), is found throughout kiwifruit-growing countries. Here, we investigated the expression levels of defense-related genes in Actinidia rufa, which is highly tolerant to Psa3. The expression of selected defense-related genes tended to be upregulated in typical growth conditions in A. rufa. Lignin content was also significantly higher in A. rufa than in A. chinensis, which is highly susceptible to Psa3. These results suggest that the high tolerance of A. rufa to Psa3 may be caused by the upregulation of defense-related genes and physical resistance.

引用

页码：361 / 365

页数：5

共 50 条

[1] Expression analysis of defense-related genes in wild kiwifruit (Actinidia rufa) tolerant to bacterial canker
Ryoma Kaji
Rina Yariuchi
Yumi Fujii
Shiduku Taniguchi
Yuya Uji
Go Suzuki
Keita Kashihara
Gan Kisaki
Katsuhiko Suezawa
Mamoru Ohtani
Ikuo Kataoka
Kazuya Akimitsu
Kenji Gomi
Journal of General Plant Pathology, 2021, 87 : 361 - 365
[2] Plant defense-related gene expression analysis of canker-infected lime seedling
Sudyoung, N.
Tokuyama, S.
Krajangsang, S.
Pringsulaka, O.
Yeesin, P.
Koto, R.
Sarawaneeyaruk, S.
2019 INTERNATIONAL CONFERENCE ON RESOURCES AND ENVIRONMENTAL RESEARCH, 2020, 432
[3] DIFFERENTIAL EXPRESSION OF DEFENSE-RELATED GENES IN ARBUSCULAR MYCORRHIZA
LAMBAIS, MR
MEHDY, MC
CANADIAN JOURNAL OF BOTANY-REVUE CANADIENNE DE BOTANIQUE, 1995, 73 : S533 - S540
[4] Defense-related expression of novel lipoxygenase genes in maize
Nemchenko, A.
Kolomiets, M.
PHYTOPATHOLOGY, 2005, 95 (06) : S75 - S75
[5] Expression analysis of defense-related genes in wheat in response to infection by Fusarium graminearum
Kong, Lingrang
Ohm, Herbert W.
Anderson, Joseph M.
GENOME, 2007, 50 (11) : 1038 - 1048
[6] Expression analysis of rice defense-related genes in turfgrass in response to Magnaporthe grisea
Jo, Young-Ki
Wang, Guo-Liang
Boehm, Michael J.
PHYTOPATHOLOGY, 2007, 97 (02) : 170 - 178
[7] Molecular analysis and expression profiling of blister blight defense-related genes in tea
Bhorali, Priyadarshini
Gohain, B.
Gupta, S.
Bharalee, R.
Bandyopadhyay, T.
Das, S. K.
Agarwal, N.
Singh, H. R.
Bhagawati, P.
Bhattacharyya, N.
Ahmed, P.
Borchetia, S.
Sarma, S.
Das, S.
INDIAN JOURNAL OF GENETICS AND PLANT BREEDING, 2012, 72 (02) : 226 - 233
[8] Differential expression analysis of defense-related genes responsive to Tilletia indica infection in wheat
Tripathi, Aradhika
Aggarwal, Rashmi
Yadav, Anita
TURKISH JOURNAL OF BIOLOGY, 2013, 37 (05) : 606 - 613
[9] Expression analysis of rice defense-related genes in turfgrass in response to Pyricularia grisea infection
Jo, Y.
Wang, G.
Boehm, M.
PHYTOPATHOLOGY, 2005, 95 (06) : S49 - S49
[10] Expression analysis of defense-related genes in cucumber (Cucumis sativusL.) againstPhytophthora melonis
Hashemi, Lida
Golparvar, Ahmad Reza
Nasr-Esfahani, Mehdi
Golabadi, Maryam
MOLECULAR BIOLOGY REPORTS, 2020, 47 (07) : 4933 - 4944

← 1 2 3 4 5 →