mRNA stability is regulated by a coding‐region element and the unique 5′ untranslated leader sequences of the three <i>Synechococcus psbA</i> transcripts

Kulkarni, Resham D.; Golden, Susan S.

doi:10.1046/j.1365-2958.1997.4201768.x

Cited by 44 publications

(29 citation statements)

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“…Only when at least 60 nucleotides of the psbA coding sequence were added in frame, upstream of the reporter gene, did the chimeric mRNA accumulate, enabling the phototrophic growth of the transformants (data not shown). These results point to the existence of cis-acting element stabilizing psbA-driven transcripts within the coding sequence of psbA, as already described for other chloroplast genes in C. reinhardtii (Singh et al, 2001) or for psbA in cyanobacteria (Kulkarni and Golden, 1997). Thus, we used for the rest of our study transformed strains expressing cytochrome f translated under the control of the psbA 59UTR, followed by the 60 first nucleotides of the psbA coding sequence, hereafter called bAf because they express a 59psbA-driven cytochrome f.…”

Section: Downregulation Of Apocp47 Expression In the Absence Of D1 Issupporting

confidence: 81%

Chloroplast Biogenesis of Photosystem II Cores Involves a Series of Assembly-Controlled Steps That Regulate Translation

et al. 2005

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The biogenesis of photosystem II, one of the major photosynthetic protein complexes, involves a cascade of assemblygoverned regulation of translation of its major chloroplast-encoded subunits. In Chlamydomonas reinhardtii, the presence of the reaction center subunit D2 is required for the expression of the other reaction center subunit D1, while the presence of D1 is required for the expression of the core antenna subunit apoCP47. Using chimeric genes expressed in the chloroplast, we demonstrate that the decreased synthesis of D1 or apoCP47 in the absence of protein assembly is due to a genuine downregulation of translation. This regulation is mediated by the 59 untranslated region of the corresponding mRNA and originates from negative feedback exerted by the unassembled D1 or apoCP47 polypeptide. However, autoregulation of translation of subunit D1 is not implicated in the recovery from photoinhibition, which involves an increased translation of psbA mRNA in response to the degradation of photodamaged D1. De novo synthesis and repair of photosystem II complexes are independently controlled.

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Section: Downregulation Of Apocp47 Expression In the Absence Of D1 Issupporting

confidence: 81%

Chloroplast Biogenesis of Photosystem II Cores Involves a Series of Assembly-Controlled Steps That Regulate Translation

et al. 2005

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“…These responses can be triggered by changes in light fluence or quality and are independent of photosynthetic electron flow, invoking a genuine response to light rather than to redox changes (32,36). Information that targets these messages, but not that of psbAII, for accelerated degradation at high light resides within their untranslated leaders (22). The apparent half-life of loss of the psbAI transcript at high light is approximately equivalent to the half-life of the message in the presence of a transcription inhibitor, which implies that no new transcription contributes to the psbAI message pool under these conditions.…”

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confidence: 80%

“…The psbAI transcript rapidly decreases in abundance when cells are shifted to high light, with an apparent half-life of about 10 to 12 min (22,23). This is, at least in part, attributable to destabilization of the transcript, which depends on the 52-nucleotide untranslated leader (22).…”

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confidence: 99%

Functional Elements of the Strong psbAI Promoter of Synechococcus elongatus PCC 7942

2001

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The psbAI gene of the cyanobacterium Synechococcus elongatus PCC 7942 is one of three psbA genes that encode a critical photosystem II reaction center protein, D1. Regulation of the gene family in response to changes in the light environment is complex, occurs at transcriptional and posttranscriptional levels, and results in an interchange of two different forms of D1 in the membrane. Expression of psbAI is downregulated under high-intensity light (high light) in contrast to induction of the other two family members. We show that, in addition to a known accelerated degradation of the psbAI message, promoter activity decreases upon exposure to high light. Unlike the other psbA genes, additional sequences upstream of the psbAI ؊35 element are required for expression. Mutagenizing the atypical psbAI ؊10 element from TCTCCT to TATAAT increased the magnitude of expression from both psbAI::lacZ and psbAI::luxAB fusions but did not affect downregulation under high light. Inactivation of group 2 sigma factor genes rpoD2 and sigC, in both wild-type and ؊10-element mutagenized backgrounds, resulted in elevated psbAI::luxAB expression but did not alter the response to high light. The results are consistent with redundancy of promoter recognition among cyanobacterial group 2 sigma factors. Electrophoretic mobility shift assays showed that the DNA sequence corresponding to the untranslated leader of the psbAI message binds one or more proteins from an S. elongatus extract. The corresponding region of psbAII efficiently competed for this binding activity, suggesting a shared regulatory factor among these disparately regulated genes.Cyanobacteria are photosynthetic prokaryotes that carry out oxygenic photosynthesis like the process in the chloroplasts of plants and algae (15). This requires the function of two reaction centers linked in series, of which photosystem II is the site of water splitting and oxygen evolution. Critical to the photosystem II complex are two proteins, D1 and D2, which coordinate the cofactors of light-driven charge separation. In Synechococcus elongatus PCC 7942, small gene families consisting of three psbA and two psbD genes, respectively, encode D1 and D2 (9). The three psbA genes are regulated at both transcriptional and posttranscriptional levels by light intensity and quality (4, 36). Under low light conditions (125 E m Ϫ2 s Ϫ1 ) over 80% of psbA transcripts are from psbAI; however, within 15 min after a shift to high-intensity light conditions (referred to here as "high light"; 750 E m Ϫ2 s Ϫ1 ), psbAI messages decrease by more than 70%, whereas psbAII and psbAIII message levels increase (4). This results in an interchange of two forms of the D1 protein (31), because the product of psbAII and psbAIII differs from that of psbAI by 25 residues. The substitution of one form of D1 for the other is important for cell fitness in a changing light environment (21).Previous studies have shown that psbAII and psbAIII respond to the shift to high light by transcriptional induction, while transcripts from bo...

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“…Fusions of Ptrc to rpoD3, rpoD4, and sigC were then cloned as BglII fragments into the NS1 vector pAM1303 to incorporate the overexpression constructs into the cyanobacterial genome (18). A 4-kb BstZ171-NgoMIV fragment bearing the rpoD2 coding region fused to the Ptrc promoter was cloned into the NS1 vector pAM2314 cut with XmaI and StuI.…”

Section: Methodsmentioning

confidence: 99%

Roles for Sigma Factors in Global Circadian Regulation of the Cyanobacterial Genome

et al. 2002

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The circadian clock of the unicellular cyanobacterium Synechococcus elongatus PCC 7942 imposes a global rhythm of transcription on promoters throughout the genome. Inactivation of any of the four known group 2 sigma factor genes (rpoD2, rpoD3, rpoD4, and sigC), singly or pairwise, altered circadian expression from the psbAI promoter, changing amplitude, phase angle, waveform, or period. However, only the rpoD2 mutation and the rpoD3 rpoD4 and rpoD2 rpoD3 double mutations affected expression from the kaiB promoter. A striking differential effect was a 2-h lengthening of the circadian period of expression from the promoter of psbAI, but not of those of kaiB or purF, when sigC was inactivated. The data show that separate timing circuits with different periods can coexist in a cell. Overexpression of rpoD2, rpoD3, rpoD4, or sigC also changed the period or abolished the rhythmicity of PpsbAI expression, consistent with a model in which sigma factors work as a consortium to convey circadian information to downstream genes.

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mRNA stability is regulated by a coding‐region element and the unique 5′ untranslated leader sequences of the three Synechococcus psbA transcripts

Cited by 44 publications

References 44 publications

Chloroplast Biogenesis of Photosystem II Cores Involves a Series of Assembly-Controlled Steps That Regulate Translation

Chloroplast Biogenesis of Photosystem II Cores Involves a Series of Assembly-Controlled Steps That Regulate Translation

Functional Elements of the Strong psbAI Promoter of Synechococcus elongatus PCC 7942

Roles for Sigma Factors in Global Circadian Regulation of the Cyanobacterial Genome

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