Genomic organization and expression analyses of putrescine pathway genes in soybean.

Putrescine is synthesized using one of two alternative pathways in plants, from arginine by arginine decarboxylase (ADC) or from ornithine by ornithine decarboxylase (ODC) and is catabolized by diamine oxidase (DAO). A survey of approximately 310,000 expressed sequenced tags (ESTs) in soybean EST libraries identified diverse representation of ADC, ODC, and DAO ESTs, with ODC being least frequent and DAO ESTs most abundant. Southern analysis suggested that ADC and ODC belong to small gene families, and DAO is the most divergent. Using three bacterial artificial chromosome (BAC) libraries, 26X genome equivalents, two common loci for ADC and DAO and one independent DAO locus were identified. ADC and DAO are physically linked in the soybean genome within approximately 150 kb. Identification of genomic regions encoding ODC proved difficult and required using additional BAC libraries, increasing genome coverage to approximately 40X. Using Real Time reverse transcriptase-polymerase chain reaction (RT-PCR), higher steady-state levels of ADC than ODC in roots, leaves, shoot apices, and dry seeds suggested that ADC is the predominant pathway for putrescine biosynthesis in soybean. However, organ-specific expression showed that root is the major site of ODC transcription. Significantly elevated accumulation of ADC mRNA and elevated putrescine content in seeds of the fasciation mutant compared with the wild type may stimulate cell divisions and establishment of enlarged apical meristem during early mutant ontogeny. The DAO frequent representation in EST libraries constructed from root tissue and elevated steady-state levels in roots compared to above ground tissues show DAO is critical for regulation of putrescine content in soybean roots.