Cloning of the Pleiotropic T Locus in Soybean and Two Recessive Alleles That Differentially Affect Structure and Expression of the Encoded Flavonoid 3' Hydroxylase

Cloning of the Pleiotropic T Locus in Soybean and Two Recessive Alleles That Differentially Affect Structure and Expression of the Encoded Flavonoid 3' Hydroxylase

Gracia Zabala^a and Lila Vodkin^a
^a Department of Crop Sciences, University of Illinois, Urbana, Illinois 61801

Corresponding author: Lila Vodkin, 1201 W. Gregory, Urbana, IL 61801., l-vodkin{at}uiuc.edu (E-mail)

Communicating editor: J. A. BIRCHLER

Three loci (I, R, and T) control pigmentation of the seed coatsin Glycine max and are genetically distinct from those controllingflower color. The T locus also controls color of the trichomehairs. We report the identification and isolation of a flavonoid3' hydroxylase gene from G. max (GmF3'H) and the linkage ofthis gene to the T locus. This GmF3'H gene was highly expressedin early stages of seed coat development and was expressed atvery low levels or not at all in other tissues. Evidence thatthe GmF3'H gene is linked to the T locus came from the occurrenceof multiple RFLPs in lines with varying alleles of the T locus,as well as in a population of plants segregating at that locus.GmF3'H genomic and cDNA sequence analysis of color mutant lineswith varying t alleles revealed a frameshift mutation in oneof the alleles. In another line derived from a mutable geneticstock, the abundance of the mRNAs for GmF3'H was dramaticallyreduced. Isolation of the GmF3'H gene and its identificationas the T locus will enable investigation of the pleiotropiceffects of the T locus on cell wall integrity and its involvementin the regulation of the multiple branches of the flavonoidpathway in soybean.

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