The GORKY glycoalkaloid transporter is indispensable for preventing tomato bitterness

Yana Kazachkova; Itay Zemach; Sayantan Panda; Samuel Bocobza; Andrii Vainer; Ilana Rogachev; Yonghui Dong; Shifra Ben-Dor; Dorottya Veres; Christa Kanstrup; Sophie Konstanze Lambertz; Christoph Crocoll; Yangjie Hu; Eilon Shani; Simon Michaeli; Hussam Hassan Nour-Eldin; Dani Zamir; Asaph Aharoni

doi:10.1038/s41477-021-00865-6

The GORKY glycoalkaloid transporter is indispensable for preventing tomato bitterness

Yana Kazachkova
, Itay Zemach
, Sayantan Panda
, Samuel Bocobza
, Andrii Vainer
, Ilana Rogachev
, Yonghui Dong
, Shifra Ben-Dor
, Dorottya Veres
, Christa Kanstrup
, Sophie Konstanze Lambertz
, Christoph Crocoll
, Yangjie Hu
, Eilon Shani
, Simon Michaeli
, Hussam Hassan Nour-Eldin
, Dani Zamir
, Asaph Aharoni^*

^*Corresponding author for this work

School of Plant Sciences and Food Security

Research output: Contribution to journal › Article › peer-review

84 Scopus citations

Abstract

Fruit taste is determined by sugars, acids and in some species, bitter chemicals. Attraction of seed-dispersing organisms in nature and breeding for consumer preferences requires reduced fruit bitterness. A key metabolic shift during ripening prevents tomato fruit bitterness by eliminating α-tomatine, a renowned defence-associated Solanum alkaloid. Here, we combined fine mapping with information from 150 resequenced genomes and genotyping a 650-tomato core collection to identify nine bitter-tasting accessions including the ‘high tomatine’ Peruvian landraces reported in the literature. These ‘bitter’ accessions contain a deletion in GORKY, a nitrate/peptide family transporter mediating α-tomatine subcellular localization during fruit ripening. GORKY exports α-tomatine and its derivatives from the vacuole to the cytosol and this facilitates the conversion of the entire α-tomatine pool to non-bitter forms, rendering the fruit palatable. Hence, GORKY activity was a notable innovation in the process of tomato fruit domestication and breeding.

Original language	English
Pages (from-to)	468-480
Number of pages	13
Journal	Nature Plants
Volume	7
Issue number	4
DOIs	https://doi.org/10.1038/s41477-021-00865-6
State	Published - Apr 2021

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Kazachkova, Y., Zemach, I., Panda, S., Bocobza, S., Vainer, A., Rogachev, I., Dong, Y., Ben-Dor, S., Veres, D., Kanstrup, C., Lambertz, S. K., Crocoll, C., Hu, Y., Shani, E., Michaeli, S., Nour-Eldin, H. H., Zamir, D., & Aharoni, A. (2021). The GORKY glycoalkaloid transporter is indispensable for preventing tomato bitterness. Nature Plants, 7(4), 468-480. https://doi.org/10.1038/s41477-021-00865-6

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title = "The GORKY glycoalkaloid transporter is indispensable for preventing tomato bitterness",

abstract = "Fruit taste is determined by sugars, acids and in some species, bitter chemicals. Attraction of seed-dispersing organisms in nature and breeding for consumer preferences requires reduced fruit bitterness. A key metabolic shift during ripening prevents tomato fruit bitterness by eliminating α-tomatine, a renowned defence-associated Solanum alkaloid. Here, we combined fine mapping with information from 150 resequenced genomes and genotyping a 650-tomato core collection to identify nine bitter-tasting accessions including the {\textquoteleft}high tomatine{\textquoteright} Peruvian landraces reported in the literature. These {\textquoteleft}bitter{\textquoteright} accessions contain a deletion in GORKY, a nitrate/peptide family transporter mediating α-tomatine subcellular localization during fruit ripening. GORKY exports α-tomatine and its derivatives from the vacuole to the cytosol and this facilitates the conversion of the entire α-tomatine pool to non-bitter forms, rendering the fruit palatable. Hence, GORKY activity was a notable innovation in the process of tomato fruit domestication and breeding.",

author = "Yana Kazachkova and Itay Zemach and Sayantan Panda and Samuel Bocobza and Andrii Vainer and Ilana Rogachev and Yonghui Dong and Shifra Ben-Dor and Dorottya Veres and Christa Kanstrup and Lambertz, \{Sophie Konstanze\} and Christoph Crocoll and Yangjie Hu and Eilon Shani and Simon Michaeli and Nour-Eldin, \{Hussam Hassan\} and Dani Zamir and Asaph Aharoni",

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year = "2021",

month = apr,

doi = "10.1038/s41477-021-00865-6",

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Kazachkova, Y, Zemach, I, Panda, S, Bocobza, S, Vainer, A, Rogachev, I, Dong, Y, Ben-Dor, S, Veres, D, Kanstrup, C, Lambertz, SK, Crocoll, C, Hu, Y, Shani, E, Michaeli, S, Nour-Eldin, HH, Zamir, D & Aharoni, A 2021, 'The GORKY glycoalkaloid transporter is indispensable for preventing tomato bitterness', Nature Plants, vol. 7, no. 4, pp. 468-480. https://doi.org/10.1038/s41477-021-00865-6

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AU - Kazachkova, Yana

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AU - Vainer, Andrii

AU - Rogachev, Ilana

AU - Dong, Yonghui

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AU - Crocoll, Christoph

AU - Hu, Yangjie

AU - Shani, Eilon

AU - Michaeli, Simon

AU - Nour-Eldin, Hussam Hassan

AU - Zamir, Dani

AU - Aharoni, Asaph

PY - 2021/4

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AB - Fruit taste is determined by sugars, acids and in some species, bitter chemicals. Attraction of seed-dispersing organisms in nature and breeding for consumer preferences requires reduced fruit bitterness. A key metabolic shift during ripening prevents tomato fruit bitterness by eliminating α-tomatine, a renowned defence-associated Solanum alkaloid. Here, we combined fine mapping with information from 150 resequenced genomes and genotyping a 650-tomato core collection to identify nine bitter-tasting accessions including the ‘high tomatine’ Peruvian landraces reported in the literature. These ‘bitter’ accessions contain a deletion in GORKY, a nitrate/peptide family transporter mediating α-tomatine subcellular localization during fruit ripening. GORKY exports α-tomatine and its derivatives from the vacuole to the cytosol and this facilitates the conversion of the entire α-tomatine pool to non-bitter forms, rendering the fruit palatable. Hence, GORKY activity was a notable innovation in the process of tomato fruit domestication and breeding.

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The GORKY glycoalkaloid transporter is indispensable for preventing tomato bitterness

Abstract

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