Structural and functional analyses of Arabidopsis thaliana chlorophyll a/b-binding protein (cab) promoters.

Arabidopsis thaliana carries three functional copies of the chlorophyll a/b-binding protein (cab) gene which code for an identical mature protein. DNA sequence comparison of all three cab promoters indicated that cab2 and cab3 are more closely related compared to cab1. Although the highest degree of homology was found between the TATA box and -256 of cab3 promoter, suggesting that this region plays a major role in promoter function, this promoter regions are only 47% homologous. To study whether these promoters are regulated by identical cis-acting regulatory elements, the promoters were mutated by progressive deletions and the effects on the promoter activity were measured in either transformed plants or cultured cells. It was found that the minimum sequence necessary for the light-dependent tissue-specific promoter activity of the cab3 is the 89 bp DNA fragment (between -74 and -164) at the region of the TATA and the CCAAT boxes. However, an additional 45 bp DNA fragment (between -164 and -209) upstream of the CCAAT box was necessary for the full promoter activity in the leaves. The regulatory element in the 45 bp region appears to be a positive regulator or enhancer which is specific to photosynthetic cells, since the region did not enhance the promoter activity in cultured cells. This region contains an octamer, TGCCACGT (cab2) or TGCCACAT (cab3), which is similar to the previously identified element, TGACACGT from Arabidopsis cab1 promoter. The upstream regions of the cab promoters appear to contain additional elements which are functionally distinct in each promoter since the upstream region of cab1 activated a non-functional nos promoter whereas that of cab3 did not.