Spatial distribution of isoflavones and isoflavone-related gene expression in high- and low-isoflavone soybean cultivars

Canadian Journal of Plant Science

Volumn 91, Issue 4, 2011, Pages 697-705

  Chen, Huilan ^a   Seguin, Philippe ^a   Jabaji, Suha ^a   Liu, Wucheng ^a  

^a MCGILL UNIVERSITY   (Canada)

Author keywords

Glycine max; Isoflavone; Phytochemical; Soybean

Indexed keywords

CULTIVAR; ENZYME ACTIVITY; GENE EXPRESSION; PHYTOCHEMISTRY; POLYMERASE CHAIN REACTION; QUANTITATIVE ANALYSIS; SOYBEAN; SPATIAL DISTRIBUTION;

GLYCINE MAX;

EID: 79960413795     PISSN: 00084220     EISSN: 19181833     Source Type: Journal    
DOI: 10.4141/cjps10192     Document Type: Article

References (33)

1. Al-Tawaha, A. M., Seguin, P., Smith, D. L. and Beaulieu, C. 2005. Biotic elicitors as a means of increasing isoflavone concentration of soybean seeds. Ann. Appl. Biol. 146: 303-310.
2. Al-Tawaha, A. M., Seguin, P., Smith, D. L. and Beaulieu, C. 2006. Foliar application of elicitors alters isoflavone concentrations and other seed characteristics of field-grown soybean. Can. J. Plant Sci. 86: 677-684.
3. Berger, M., Rasolohery, C. A., Cazalis, R. and Dayde, J. 2008. Isoflavone accumulation kinetics in soybean seed cotyledons and hypocotyls: Distinct pathways and genetic controls. Crop Sci. 48: 700-708.
4. Chen, H., Seguin, P., Archambault, A., Constan, L. and Jabaji, S. 2009. Gene expression and isoflavone concentrations in soybean sprouts treated with chitosan. Crop Sci. 49: 224-236.
5. Clough, J. C., Tuteja, J. H., Laura, M. L., Marek, F., Shoemaker, R. C. and Vodkin, L. O. 2004. Features of a 103-kb gene-rich region in soybean include an inverted perfect repeat cluster of CHS genes comprising the I locus. Genome 47: 819-831.
6. Dhaubhadel, S., Gijzen, M., Moy, P. and Farhangkhoee, M. 2007. Transcriptome analysis reveals a critical role of CHS7 and CHS8 genes for isoflavonoid synthesis in soybean seeds. Plant Physiol. 143: 326-338.
7. Dhaubhadel, S., McGarvey, B. D., Williams, R. and Gijzen, M. 2003. Isoflavonoid biosynthesis and accumulation in developing soybean seeds. Plant Mol. Biol. 53: 733-743.
8. Fehr, W. R., Caviness, C. E., Burmood, D. T. and Pennington, J. S. 1971. Stages of development descriptions for soybeans Glycine max (L.) Merrill. Crop Sci. 11: 929-931.
9. Gutierrez-Gonzalez, J. J., Guttikonda, S. K., Tran, L-S. P., Aldrich, D. L., Zhong, R., Yu, O., Nguyen, H. T. and Sleper, D. A. 2010. Differential expression expression of isoflavone biosynthetic genes in soybean during water deficits. Plant Cell Physiol. 51: 936-948.
10. Jung, W., Yu, O., Lau, S-M C., O'Keefe, D. P., Odell, J., Fader, G. and McGonigle, B. 2000. Identification and expression of isoflavone synthase, the key enzyme for biosynthesis of isoflavones in legumes. Nature Biotechnol. 18: 208-212.
11. Kim, E. H., Kim, S. H., Chung, J. I., Chi, H. Y., Kim, J. A. and Chung, I. M. 2006. Analysis of phenolic compounds and isoflavones in soybean seeds (Glycine max (L.) Merill) and sprouts grown under different conditions. Eur. Food Res. Technol. 222: 201-208.
12. Latunde-Dada, A. O., Cabello-Hurtado, F., Czittrich, N., Didierjean, L., Schopfer, C., Hertkorn, N., Werck-Reichhart, D. and Ebel, J. 2001. Flavonoid 6-hydroxylase from soybean (Glycine max L.), a novel plant P-450 monooxygenase. J. Biol. Chem. 276: 1688-1695.
13. Lee, S. J., Ahn, J. K., Kim, S. H., Kim, J. T., Han, S. J., Jung, M. Y. and Chung, I. M. 2003. Variation in isoflavone of soybean cultivars with location and storage duration. J. Agric. Food Chem. 51: 3382-3389.
14. Liu, W. H. and Saint, D. A. 2002a. A new quantitative method of real time reverse transcription polymerase chain reaction assaybased on simulation of polymerase chain reaction kinetics. Anal. Biochem. 302: 52-59.
15. Liu, W. H. and Saint, D. A. 2002b. Erratum - a new quantitative method of real time reverse transcription polymerase chain reaction assaybased on simulation of polymerase chain reaction kinetics: Volume 302, Issue 1 (2002), pages 52-59. Anal. Biochem. 305: 291.
16. Long, S. R. and Ehrhardt, D. W. 1989. Nitrogen fixation - new route to a stickysubject. Nature 338: 545-546.
17. McCue, P. and Shetty, K. 2004. Health benefits of soy isoflavonoids and strategies for enhancement: A review. Crit. Rev. Food Sci. Nutr. 44: 361-367.
18. Omoni, A. O. and Aluko, R. E. 2005. Soybean foods and their benefits: Potential mechanisms of action. Nutr. Rev. 63: 272-283.
19. Ralston, L., Subramanian, S., Matsuno, M. and Yu, O. 2005. Partial reconstruction of flavonoid and isoflavonoid biosynthesis in yeast using soybean type I and type II chalcone isomerases. Plant Physiol. 137: 1375-1388.
20. Romani, A., Vignolini, P., Galardi, C., Aroldi, C., Vazzana, C. and Heimler, D. 2003. Polyphenolic content in different plant parts of soycultivars grown under natural conditions. J. Agric. Food Chem. 51: 5301-5306.
21. Rozen, S. and Skaletsky, H. 2000. Primer3 on the WWW for general users and for biologist programmers. Methods Mol. Biol. 132: 365-386.
22. Saeed, H. A., Vodkin, L. O. and Stromvik, M. V. 2008. Promoters of the soybean seed lectin homologues Le2 and Le3 regulate gene expression in vegetative tissues in Arabidopsis. Plant Sci. 175: 868-876.
23. SAS Institute, Inc. 1999. The SAS system for windows V8. SAS Institute, Inc., Cary, NC.
24. Seguin, P., Bodo, R. and Al-Tawaha, A. M. 2007. Soybean isoflavones: factors affecting concentrations in seeds. Pages 65-80 in S. Acharya and J. Thomas, eds. Advances in medicinal plant research. Research Signpost, Trivandrum, Kerala, India.
25. Seguin, P., Zheng, W. J., Smith, D. L. and Deng, W. H. 2004. Isoflavone content of soybean cultivars grown in eastern Canada. J. Sci. Food Agric. 84: 1327-1332.
26. Setchell, K. D. R. and Cole, S. J. 2003. Variations in isoflavone levels in soyfoods and soyprotein isolates and issues related to isoflavone databases and food labeling. J. Agric. Food Chem. 51: 4146-4155.
27. Subramanian, S., Hu, X., Lu, G., Odelland, J. T. and Yu, O. 2004. The promoters of two isoflavone synthase genes respond differentiallyto nodulation and defense signals in transgenic soybean roots. Plant Mol. Biol. 54: 623-639.
28. Thompson, J. D., Gibson, T. J., Plewniak, F., Jeanmougin, F. and Higgins, D. G. 1997. The CLUSTAL-X windows interface: Flexible strategies for multiple sequence alignment aided byqualityanaly sis tools. Nucleic Acids Res. 25: 4876-4882.
29. Tuteja, J. H., Clough, S. J., Chan, W-C. and Vodkin, L. O. 2004. Tissue-specific gene silencing mediated bya naturally occurring chalcone synthase gene cluster in Glycine max. Plant Cell 16: 819-835.
30. Vodkin, L., Jones, S., Gonzalez, D. O., Thibaud-Nissen, F., Zabala, G. and Tuteja, J. 2008. Genomics of soybean seed development. Pages 163-184 in G. Stacey, ed. Genetics and genomics of soybean. Springer Science-Business Media LLC, Philadelphia, PA.
31. Vyn, T. J., Yin, X. H., Bruulsema, T. W., Jackson, C. J. C., Rajcan, I. and Brouder, S. M. 2002. Potassium fertilization effects on isoflavone concentrations in soybean [Glycine max (L.) Merr.]. J. Agric. Food Chem. 50: 3501-3506.
32. Yu, O. and McGonigle, B. 2005. Metabolic engineering of isoflavone biosynthesis. Adv. Agron. 86: 147-190.
33. Zhang, F., Mace, F. and Smith, D. L. 2000. Mineral nitrogen availabilityand isoflavonoid accumulation in the root systems of soybean (Glycine max (L.) Merr.). J. Agron. Crop Sci. 184: 197-204.