Determinants for stability of the chloroplast psbD RNA are located within its short leader region in Chlamydomonas reinhardtii.

Stability of the chloroplast psbD mRNA encoding the D2 protein of the photosystem II reaction center is drastically decreased in the nuclear photosynthetic mutant nac2-26 of Chlamydomonas reinhardtii. Using biolistic transformation and genetic crosses we have introduced chimeric genes consisting of the psbD leader fused to a reporter gene into the chloroplast in both wild-type and mutant nuclear backgrounds. The chimeric message is destabilized in the latter, but not in the former case, indicating that the 74 nt psbD leader includes one of the target sites for psbD RNA degradation in the absence of wild-type NAC2 function. Increased instability of the psbD leader in mutant versus wild-type chloroplast lysates is also demonstrated in vitro and the primary cleavage sites have been mapped. The instability of the psbD RNA in the mutant correlates with the loss of binding of a 47 kDa protein to the psbD leader RNA, suggesting that this factor acts as message stabilizer in wild-type.     

Nucleotide sequence and transcript analysis of three photosystem II genes from the cyanobacterium Synechococcus sp. PCC7942

The genome of the cyanobacterium Synechococcus sp. PCC7942 contains two genes encoding the D2 polypeptide of photosystem II (PSII), which are designated here as psbDI and psbDII. The psbDI gene, like the psbD gene of plant chloroplasts, is cotranscribed with and overlaps the open reading frame of the psbC gene, encoding the PSII protein CP43. The psbDII gene is not linked to psbC, and appears to be transcribed as a monocistronic message. The two psbD genes encode identical polypeptides of 352 amino acids, which are 86% conserved with the D2 polypeptide of spinach. In plants, the translational start codon of the psbC gene has been reported to be an ATG codon 50 bp upstream from the end of the psbD gene. This triplet is not present in the psbDI sequence of Synechococcus sp., but is replaced by ACG, a codon which is very unlikely to initiate translation. Translation of the psbC gene may begin at a GTG codon which overlap the psbDI open reading frame by 14 bp and is preceded by a block of homology to the 3' end of the 16S ribosomal RNA, a potential ribosome-binding site. There are only two bp differences between the sequences of the two psbD genes; one of these results in substitution in psbDII of GCG for the presumed GTG start codon in psbDI.     

Photosystem II of rye. Nucleotide sequence of psbD, psbI genes encoding reaction center proteins

Structures of the rye chloroplast DNA regions, containing psbD and psbI genes coding for the components of the reaction centre of photosystem II, D2 protein and I polypeptide, respectively, have been determined. The gene trnS for tRNA(Ser) (GCU) is located 111 bp downstream from the stop codon of the psbI gene on the opposite strand. The high homology between the rye BamHI-fragment comprising these genes and his counterpart from wheat are discussed.     

Nucleotide sequence of the gene psbD from barley chloroplast DNA coding for protein D2 of the photosystem II

The psbD gene for the membrane polypeptide D2 has been isolated from barley chloroplast DNA and its sequence, along with the flanking regions, has been determined. The 3'-end of the psbD gene is overlapped with a 50 bp stretch of a second open reading frame which belongs to the psbC gene encoding the P6 protein of photosystem II.     

The Nac2 gene of Chlamydomonas encodes a chloroplast TPR-like protein involved in psbD mRNA stability

The psbD mRNA, which encodes the D2 reaction center polypeptide of photosystem II, is one of the most abundant chloroplast mRNAs. We have used genomic complementation to isolate the nuclear Nac2 gene, which is required for the stable accumulation of the psbD mRNA in Chlamydomonas reinhardtii. Nac2 encodes a hydrophilic polypeptide of 1385 amino acids with nine tetratricopeptide-like repeats (TPRs) in its C-terminal half. Cell fractionation studies indicate that the Nac2 protein is localized in the stromal compartment of the chloroplast. It is part of a high molecular weight complex that is associated with non-polysomal RNA. Change of a conserved alanine residue of the fourth TPR motif by site-directed mutagenesis leads to aggregation of Nac2 protein and completely abrogates its function, indicating that this TPR is important for proper folding of the protein and for psbD mRNA stability, processing and/or translation.     

Genetic Manipulation of the Cyanobacterium Synechocystis sp. PCC 6803 (Development of Strains Lacking Photosystem I for the Analysis of Mutations in Photosystem II)

We have taken a genetic approach to eliminating the presence of photosystem I (PSI) in site-directed mutants of photosystem II (PSII) in the cyanobacterium Synechocystis sp. PCC 6803. By selecting under light-activated heterotrophic conditions, we have inactivated the psaA-psaB operon encoding the PSI reaction center proteins in cells containing deletions of the three psbA genes. We have also introduced deletions into both copies of psbD in a strain containing a mutation that inactivates psaA (ADK9). These strains, designated D1-/PSI- and D2-/PSI-, may serve as recipient strains for the incorporation of site-directed mutations in either psbA2 or psbD1. The characterization of these cells, which lack both PSI and PSII, is described.