Tomato Mutants Archive
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Strain Detail

Basic Information

Strain Id TOMJPF00001 
Strain Name Micro-Tom (MT-J) 
Strain Type Wild type cultivars 
Cultivation record  
Total harvested seed  
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Reference >> Please submit your publication.
Kohei Kawaguchi, Makoto Nakaune, Jian Feng Ma, Mikiko Kojima, Yumiko Takebayashi, Hitoshi Sakakibara, Shungo Otagaki, Shogo Matsumoto, Katsuhiro Shiratake
Plants  2022 11   2594  
Plant Hormone and Inorganic Ion Concentrations in the Xylem Exudate of Grafted Plants Depend on the Scion–Rootstock Combination
[PubMed ID = 36235460
Kodama H, Miyahara T, Oguchi T, Tsujimoto T, Ozeki Y, Ogawa T, Yamaguchi Y, Ohta D.
Food Saf (Tokyo)  2021 9(2)   32-47  
Effect of Transgenic Rootstock Grafting on the Omics Profiles in Tomato.
[PubMed ID = 34249588
Nakayasu M, Umemoto N, Akiyama R, Ohyama K, Lee HJ, Miyachi H, Watanabe B, Muranaka T, Saito K, Sugimoto Y, Mizutani M.
Plant J  2021 108(1)   81-92  
Characterization of C-26 aminotransferase, indispensable for steroidal glycoalkaloid biosynthesis.
[PubMed ID = 34273198
Lombardo F, Gramazio P, Ezura H.
Genes (Basel)  2021 12(6)  
Increase in Phloem Area in the Tomato <i>hawaiian skirt</i> Mutant Is Associated with Enhanced Sugar Transport.
[PubMed ID = 34207298
Long Thien Tran, Anh Tuan Nguyen, Minh Hong Nguyen, Long Tien Nguyen, Minh Thi Nguyen, Lai Thi Trinh, Dieu-Thuy Thi Tran, Sang Viet Ta, Ken Hoshikawa, Koichi Sugimoto, Hiroshi Ezura
Euphytica  2021 217  
Developing new parthenocarpic tomato breeding lines carrying iaa9-3 mutation
Akiyama R, Nakayasu M, Umemoto N, Kato J, Kobayashi M, Lee HJ, Sugimoto Y, Iijima Y, Saito K, Muranaka T, Mizutani M.
Plant Cell Physiol  2021 62(5)   775-783  
Tomato E8 Encodes a C-27 Hydroxylase in Metabolic Detoxification of α-Tomatine during Fruit Ripening.
[PubMed ID = 34100555
Ara T, Sakurai N, Takahashi S, Waki N, Suganuma H, Aizawa K, Matsumura Y, Kawada T, Shibata D.
Plant Direct  2021 5(4)   e00318  
TOMATOMET: A metabolome database consists of 7118 accurate mass values detected in mature fruits of 25 tomato cultivars.
[PubMed ID = 33969254
Ono A, Hiwasa-Tanase K, Nonaka S, Ezura H
Plant Biotechnology  2021 20.0904a  
The accumulation of recombinant miraculin is independent of fruit size in tomato
[PubMed ID = 34177337
Asakura H, Yamakawa T, Tamura T, Ueda R, Taira S, Saito Y, Abe K, Asakura T.
J Agric Food Chem  2021 69(9)   2894-2905  
Transcriptomic and Metabolomic Analyses Provide Insights into the Upregulation of Fatty Acid and Phospholipid Metabolism in Tomato Fruit under Drought Stress.
[PubMed ID = 33645220
Yuan S, Kawasaki S, Abdellatif IMY, Nishida K, Kondo A, Ariizumi T, Ezura H, Miura K.
Plant Cell Rep  2021 40(4)   667-676  
Efficient base editing in tomato using a highly expressed transient system.
[PubMed ID = 33550455
Ono A, Hiwasa-Tanase K, Nonaka S, Ezura H
Plant Biotechnology  2021 20.0904a  
The accumulation of recombinant miraculin is independent of fruit size in tomato
Yang L, Qi S, Touqeer A, Li H, Zhang X, Liu X, Wu S.
BMC Plant Biol  2020 20(1)   562  
SlGT11 controls floral organ patterning and floral determinacy in tomato.
[PubMed ID = 33317459
Hunziker J, Nishida K, Kondo A, Kishimoto S, Ariizumi T, Ezura H.
Sci Rep  2020 10(1)   20471  
Multiple gene substitution by Target-AID base-editing technology in tomato.
[PubMed ID = 33235312
Gramazio P, Takayama M, Ezura H.
Front Plant Sci  2020 11   577980  
Challenges and Prospects of New Plant Breeding Techniques for GABA Improvement in Crops: Tomato as an Example.
[PubMed ID = 33014001
Wu J, Cheng J, Xu C, Qi S, Sun W, Wu S.
Hortic Res  2020 7(1)   166  
<i>AUREA</i> maintains the balance between chlorophyll synthesis and adventitious root formation in tomato.
[PubMed ID = 33082972
Shimizu K, Kushida A, Akiyama R, Lee HJ, Okamura Y, Masuda Y, Sakata I, Tanino K, Matsukida S, Inoue T, Sugimoto Y, Mizutani M.
Plant Biotechnol (Tokyo)  2020 37(3)   319-325  
Hatching stimulation activity of steroidal glycoalkaloids toward the potato cyst nematode, <i>Globodera rostochiensis</i>.
[PubMed ID = 33088195
Wahyudi A, Fukazawa C, Motohashi R.
Plant Biotechnol (Tokyo)  2020 37(3)   335-341  
Function of <i>SlTILs</i> and <i>SlCHL</i> under heat and oxidative stresses in tomato.
[PubMed ID = 33088197
Hua B, Chang J, Wu M, Xu Z, Zhang F, Yang M, Xu H, Wang LJ, Chen XY, Wu S.
Plant Biotechnol J  2021 19(2)   375-393  
Mediation of JA signalling in glandular trichomes by the woolly/SlMYC1 regulatory module improves pest resistance in tomato.
[PubMed ID = 32888338
Dung Pham, Ken Hoshikawa, Satoshi Fujita, Shoma Fukumoto,Tadayoshi Hirai, Yoshihito Shinozaki, Hiroshi Ezura
Environmental and Experimental Botany  2020 178   104150  
A tomato heat-tolerant mutant shows improved pollen fertility and fruit-setting under long-term ambient high temperature
Shinozaki Y, Beauvoit BP, Takahara M, Hao S, Ezura K, Andrieu MH, Nishida K, Mori K, Suzuki Y, Kuhara S, Enomoto H, Kusano M, Fukushima A, Mori T, Kojima M, Kobayashi M, Sakakibara H, Saito K, Ohtani Y, Bénard C, Prodhomme D, Gibon Y, Ezura H, Ariizumi T.
Proc Natl Acad Sci U S A  2020 117(38)   23970-23981  
Fruit setting rewires central metabolism via gibberellin cascades.
[PubMed ID = 32883877

Additional Information

Germination rate (%)  
Mutation rate (%)  
First flowering date 2010/02/08 
First fruit harvesting date 2010/02/08 
Flower to fruit period  

Photo

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Fresh Weight, Brix, Carotenoids

Sample No. Number of Fruits Fresh Weight / Fruit (g) Brix (%) Carotenoids (µg / gFW) Harvested
1 5 2.5 4.2 16.8 2013summer
2 5 1.4 4.1 18.7 2013summer
3 5 2.0 4.5 14.7 2013summer
4 5 1.5 5.3 17.4 2013summer
5 5 1.9 4.4 14.3 2013summer
6 5 2.9 4.8 11.9 2014summer
7 5 2.9 5.0 12.2 2014summer
8 5 3.0 4.6 11.0 2014summer
9 5 4.4 4.5 12.7 2016summer
10 5 4.2 4.3 13.9 2016summer
11 5 3.5 4.2 14.5 2016summer

Amino acid contents(mg/100g)

Sample No. 1 2 3 1 2 3 1 2 3
Asp 134.7 157.2 153.9 64.9 78.8 45.0 156.4 116.1 210.0
Thr 3.0 4.5 4.6 1.7 1.4 1.1 4.9 3.1 6.4
Ser 2.8 4.6 3.5 2.6 2.4 2.0 4.6 3.7 7.4
Asn 22.5 29.2 23.4 15.8 12.2 9.4 21.5 16.3 33.9
Glu 24.9 33.1 91.0 21.8 23.1 19.8 34.6 25.7 39.5
Gln 70.0 70.2 67.0 28.5 25.8 20.2 81.1 48.6 91.7
Gly 0.0 0.7 0.3 0.4 0.4 0.4 0.4 0.3 0.6
Ala 3.8 12.6 5.0 4.3 4.1 3.7 6.0 4.6 7.3
Ile 1.2 1.7 1.7 0.7 0.6 0.4 1.6 0.9 2.3
Leu 1.3 1.5 1.5 0.6 0.6 0.4 2.0 1.2 2.3
Tyr 0.6 1.9 0.7 1.2 0.9 0.7 0.7 0.4 1.1
b-Ala 0.0 0.0 0.0 0.0 0.0 0.0 0.2 0.0 0.0
Phe 2.3 1.8 2.5 1.3 1.3 0.6 2.5 1.7 3.4
GABA 17.5 12.1 21.2 2.6 3.5 2.2 16.8 12.1 18.7
His 3.5 4.2 4.4 2.4 2.0 1.5 4.4 3.6 5.9
Lys 5.4 5.5 5.6 1.9 1.8 1.2 4.4 3.3 5.7
Arg 5.5 4.7 6.8 0.8 0.9 0.6 4.7 2.8 5.5
Harvested 2019summer 2019summer 2019summer 2016summer 2016summer 2016summer 2015winter 2015winter 2015winter

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