Identification of the SAAT Gene Involved in Strawberry Flavor Biogenesis by Use of DNA Microarrays

Asaph Aharoni; Leopold C.P. Keizer; Harro J. Bouwmeester; Zhongkui Sun; Mayte Alvarez-Huerta; Harrie A. Verhoeven; Jan Blaas; Adèle M.M.L. van Houwelingen; Ric C.H. De Vos; Hilko van der Voet; Ritsert C. Jansen; Monique Guis; Jos Mol; Ronald W. Davis; Mark Schena; Arjen J. van Tunen; Ann P. O’Connell

doi:10.1105/tpc.12.5.647

Identification of the SAAT Gene Involved in Strawberry Flavor Biogenesis by Use of DNA Microarrays

Asaph Aharoni, Leopold C.P. Keizer, Harro J. Bouwmeester, Zhongkui Sun, Mayte Alvarez-Huerta, Harrie A. Verhoeven, Jan Blaas, Adèle M.M.L. van Houwelingen, Ric C.H. De Vos, Hilko van der Voet, Ritsert C. Jansen, Monique Guis, Jos Mol, Ronald W. Davis, Mark Schena, Arjen J. van Tunen, Ann P. O’Connell

Groningen Biomolecular Sciences and Biotechnology Institute

Research output: Contribution to journal › Article › Academic

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Abstract

Fruit flavor is a result of a complex mixture of numerous compounds. The formation of these compounds is closely correlated with the metabolic changes occurring during fruit maturation. Here, we describe the use of DNA microarrays and appropriate statistical analyses to dissect a complex developmental process. In doing so, we have identified a novel strawberry alcohol acyltransferase (SAAT) gene that plays a crucial role in flavor biogenesis in ripening fruit. Volatile esters are quantitatively and qualitatively the most important compounds providing fruity odors. Biochemical evidence for involvement of the SAAT gene in formation of fruity esters is provided by characterizing the recombinant protein expressed in Escherichia coli. The SAAT enzyme showed maximum activity with aliphatic medium-chain alcohols, whose corresponding esters are major components of strawberry volatiles. The enzyme was capable of utilizing short- and medium-chain, branched, and aromatic acyl-CoA molecules as cosubstrates. The results suggest that the formation of volatile esters in fruit is subject to the availability of acyl-CoA molecules and alcohol substrates and is dictated by the temporal expression pattern of the SAAT gene(s) and substrate specificity of the SAAT enzyme(s).

Original language	English
Pages (from-to)	647-661
Number of pages	15
Journal	Plant Cell
Volume	12
DOIs	https://doi.org/10.1105/tpc.12.5.647
Publication status	Published - May-2000

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Aharoni, A., Keizer, L. C. P., Bouwmeester, H. J., Sun, Z., Alvarez-Huerta, M., Verhoeven, H. A., Blaas, J., Houwelingen, A. M. M. L. V., Vos, R. C. H. D., Voet, H. V. D., Jansen, R. C., Guis, M., Mol, J., Davis, R. W., Schena, M., Tunen, A. J. V., & O’Connell, A. P. (2000). Identification of the SAAT Gene Involved in Strawberry Flavor Biogenesis by Use of DNA Microarrays. Plant Cell, 12, 647-661. https://doi.org/10.1105/tpc.12.5.647

@article{1723dd26df5249f2b66ac79c91379c38,

title = "Identification of the SAAT Gene Involved in Strawberry Flavor Biogenesis by Use of DNA Microarrays",

abstract = "Fruit flavor is a result of a complex mixture of numerous compounds. The formation of these compounds is closely correlated with the metabolic changes occurring during fruit maturation. Here, we describe the use of DNA microarrays and appropriate statistical analyses to dissect a complex developmental process. In doing so, we have identified a novel strawberry alcohol acyltransferase (SAAT) gene that plays a crucial role in flavor biogenesis in ripening fruit. Volatile esters are quantitatively and qualitatively the most important compounds providing fruity odors. Biochemical evidence for involvement of the SAAT gene in formation of fruity esters is provided by characterizing the recombinant protein expressed in Escherichia coli. The SAAT enzyme showed maximum activity with aliphatic medium-chain alcohols, whose corresponding esters are major components of strawberry volatiles. The enzyme was capable of utilizing short- and medium-chain, branched, and aromatic acyl-CoA molecules as cosubstrates. The results suggest that the formation of volatile esters in fruit is subject to the availability of acyl-CoA molecules and alcohol substrates and is dictated by the temporal expression pattern of the SAAT gene(s) and substrate specificity of the SAAT enzyme(s).",

author = "Asaph Aharoni and Keizer, {Leopold C.P.} and Bouwmeester, {Harro J.} and Zhongkui Sun and Mayte Alvarez-Huerta and Verhoeven, {Harrie A.} and Jan Blaas and Houwelingen, {Ad{\`e}le M.M.L. van} and Vos, {Ric C.H. De} and Voet, {Hilko van der} and Jansen, {Ritsert C.} and Monique Guis and Jos Mol and Davis, {Ronald W.} and Mark Schena and Tunen, {Arjen J. van} and O{\textquoteright}Connell, {Ann P.}",

note = "Relation: http://www.rug.nl/gbb/ date_submitted:2007 Rights: University of Groningen, Groningen Biomolecular Sciences and Biotechnology Institute",

year = "2000",

month = may,

doi = "10.1105/tpc.12.5.647",

language = "English",

volume = "12",

pages = "647--661",

journal = "Plant Cell",

issn = "1040-4651",

}

Aharoni, A, Keizer, LCP, Bouwmeester, HJ, Sun, Z, Alvarez-Huerta, M, Verhoeven, HA, Blaas, J, Houwelingen, AMMLV, Vos, RCHD, Voet, HVD, Jansen, RC, Guis, M, Mol, J, Davis, RW, Schena, M, Tunen, AJV & O’Connell, AP 2000, 'Identification of the SAAT Gene Involved in Strawberry Flavor Biogenesis by Use of DNA Microarrays', Plant Cell, vol. 12, pp. 647-661. https://doi.org/10.1105/tpc.12.5.647

TY - JOUR

T1 - Identification of the SAAT Gene Involved in Strawberry Flavor Biogenesis by Use of DNA Microarrays

AU - Aharoni, Asaph

AU - Keizer, Leopold C.P.

AU - Bouwmeester, Harro J.

AU - Sun, Zhongkui

AU - Alvarez-Huerta, Mayte

AU - Verhoeven, Harrie A.

AU - Blaas, Jan

AU - Houwelingen, Adèle M.M.L. van

AU - Vos, Ric C.H. De

AU - Voet, Hilko van der

AU - Jansen, Ritsert C.

AU - Guis, Monique

AU - Mol, Jos

AU - Davis, Ronald W.

AU - Schena, Mark

AU - Tunen, Arjen J. van

AU - O’Connell, Ann P.

N1 - Relation: http://www.rug.nl/gbb/ date_submitted:2007 Rights: University of Groningen, Groningen Biomolecular Sciences and Biotechnology Institute

PY - 2000/5

Y1 - 2000/5

N2 - Fruit flavor is a result of a complex mixture of numerous compounds. The formation of these compounds is closely correlated with the metabolic changes occurring during fruit maturation. Here, we describe the use of DNA microarrays and appropriate statistical analyses to dissect a complex developmental process. In doing so, we have identified a novel strawberry alcohol acyltransferase (SAAT) gene that plays a crucial role in flavor biogenesis in ripening fruit. Volatile esters are quantitatively and qualitatively the most important compounds providing fruity odors. Biochemical evidence for involvement of the SAAT gene in formation of fruity esters is provided by characterizing the recombinant protein expressed in Escherichia coli. The SAAT enzyme showed maximum activity with aliphatic medium-chain alcohols, whose corresponding esters are major components of strawberry volatiles. The enzyme was capable of utilizing short- and medium-chain, branched, and aromatic acyl-CoA molecules as cosubstrates. The results suggest that the formation of volatile esters in fruit is subject to the availability of acyl-CoA molecules and alcohol substrates and is dictated by the temporal expression pattern of the SAAT gene(s) and substrate specificity of the SAAT enzyme(s).

AB - Fruit flavor is a result of a complex mixture of numerous compounds. The formation of these compounds is closely correlated with the metabolic changes occurring during fruit maturation. Here, we describe the use of DNA microarrays and appropriate statistical analyses to dissect a complex developmental process. In doing so, we have identified a novel strawberry alcohol acyltransferase (SAAT) gene that plays a crucial role in flavor biogenesis in ripening fruit. Volatile esters are quantitatively and qualitatively the most important compounds providing fruity odors. Biochemical evidence for involvement of the SAAT gene in formation of fruity esters is provided by characterizing the recombinant protein expressed in Escherichia coli. The SAAT enzyme showed maximum activity with aliphatic medium-chain alcohols, whose corresponding esters are major components of strawberry volatiles. The enzyme was capable of utilizing short- and medium-chain, branched, and aromatic acyl-CoA molecules as cosubstrates. The results suggest that the formation of volatile esters in fruit is subject to the availability of acyl-CoA molecules and alcohol substrates and is dictated by the temporal expression pattern of the SAAT gene(s) and substrate specificity of the SAAT enzyme(s).

U2 - 10.1105/tpc.12.5.647

DO - 10.1105/tpc.12.5.647

M3 - Article

SN - 1040-4651

VL - 12

SP - 647

EP - 661

JO - Plant Cell

JF - Plant Cell

ER -

Identification of the SAAT Gene Involved in Strawberry Flavor Biogenesis by Use of DNA Microarrays

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