Involvement of multiple cis-elements in the regulation of GA responsive promoters: Definition of a new cis-element in the Amy32b gene promoter of barley (Hordeum vulgare).

The Amy32b gene is a member of the low-pI alpha-amylase gene family of barley, whose expression is tightly regulated by hormones in the aleurone layer. Four cis-elements are known to be important for the GA induction of this gene: GARE, amylase box, pyrimidine box, and O2S. These sequences are located between -101 and -149 relative to the transcription start site.

Expression and purification of functional human alpha-1-Antitrypsin from cultured plant cells.

Human alpha-1-antitrypsin (AAT), the most abundant protease inhibitor found in the blood, was expressed in rice embryonic tissue suspension cell culture. This was accomplished by cloning the codon-optimized AAT gene into a vector containing the rice RAmy3D promoter and its signal sequence. The synthetic gene incorporates codons synonymous with those found in highly expressed rice genes.

Gibberellin treatment stimulates nuclear factor binding to the gibberellin response complex in a barley alpha-amylase promoter.

The promoters of a majority of cereal alpha-amylase genes contain three highly conserved sequences (gibberellin response element, box I, and pyrimidine box). Recent studies have demonstrated the functional importance of four regions that either coincide with or are immediately proximal to these three conserved elements as well as an upstream Opaque-2 binding sequence. In this study, we describe the characterization of nuclear protein factors from barley aleurone layers whose binding activity toward gibberellin response complex sequences from the barley low-pl alpha-amylase gene (Amy32b) promoter is stimulated by gibberellin A3 (GA3) treatment.

Characterization of an alpha-amylase multigene cluster in rice.

Rice genomic clones containing eight different alpha-amylase genes have been previously classified into five groups based on DNA hybridization studies and restriction site mapping. This report describes the clustering of three Group 3 genes (RAmy3A, RAmy3B and RAmy3C) within 28 kb of genomic DNA. The genes are separated from each other by about 5 kb and transcribed in the same direction.

Classification and characterization of the rice alpha-amylase multigene family.

To establish the size and organization of the rice alpha-amylase multigene family, we have isolated 30 alpha-amylase clones from three independent genomic libraries. Partial characterization of these clones indicates that they fall into 5 hybridization groups containing a total of 10 genes. Two clones belonging to the Group 3 hybridization class have more than one gene per cloned fragment.