Light-dependent changes in psbD and psbC transcripts of barley chloroplasts: accumulation of two transcripts maintains psbD and psbC translation capability in mature chloroplasts.

The psbD and psbC genes encode two polypeptides of Photosystem II. These genes are adjacent in the barley chloroplast genome and are part of a 5.7 kbp transcription unit. In dark-grown barley, four large transcripts hybridize to psbD and psbC; two additional transcripts hybridize to psbC. Illumination of 4.5-day-old dark-grown seedlings causes a decrease in the six psbD--psbC transcripts found in etioplasts and the accumulation of two different transcripts of 4.0 and 3.2 kb which hybridize to psbD and psbC. The light-induced transcripts have a common 5' end approximately 600 nt upstream of psbD and 3' ends 1175 and 175 nt downstream of psbC. The shift in psbD--psbC transcript population occurs during a phase of chloroplast maturation when transcript levels and translation of chloroplast genes such as psaA--psaB and psbB decline approximately 3- to 5-fold. In contrast, translation of the psbD and psbC gene products declines to a lesser extent, suggesting that the light-induced accumulation of the 4.0 and 3.2 kb psbD--psbC transcripts is required to maintain psbD and psbC gene product translation in mature chloroplasts.