2001
DOI: 10.1073/pnas.181304598
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An essential role of a TatC homologue of a ΔpH- dependent protein transporter in thylakoid membrane formation during chloroplast development in Arabidopsis thaliana

Abstract: At least three transport systems function in targeting nuclearencoded chloroplast proteins to the chloroplast thylakoid membrane. One of these systems requires a thylakoid pH gradient and is named the ⌬pH-dependent protein transport system. A similar ⌬pH export system of Escherichia coli contains four components, twin arginine translocation A (TatA), TatB, TatC, and TatE. TatC is a major component of the ⌬pH-dependent protein transporter in E. coli and functions in the translocation of tightly folded proteins … Show more

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Cited by 88 publications
(87 citation statements)
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“…Only undifferentiated proplastids were found in the mesophyll cells at all three developmental stages examined, while no thylakoid membrane system Figure 7C-D). Cells became increasingly vacuolated during development, which was also observed in another albino mutant apg2 [32]. These results indicated that proplastids in the mesophyll cells of the pds3 mutant were arrested at the undifferentiated stage and had lost the ability to develop into mature chloroplasts.…”
Section: Chloroplast Development Is Arrested At the Proplastid Stage supporting
confidence: 55%
“…Only undifferentiated proplastids were found in the mesophyll cells at all three developmental stages examined, while no thylakoid membrane system Figure 7C-D). Cells became increasingly vacuolated during development, which was also observed in another albino mutant apg2 [32]. These results indicated that proplastids in the mesophyll cells of the pds3 mutant were arrested at the undifferentiated stage and had lost the ability to develop into mature chloroplasts.…”
Section: Chloroplast Development Is Arrested At the Proplastid Stage supporting
confidence: 55%
“…The thylakoid targeting pathway component mutants cpsrp54-3 (WiscDsLox289_292B14), cpftsY-1 (SALK_049077), cpftsY-2 (SALK_112451), and secA-1 (SALK_063371) were also previously characterized (Asakura et al, 2008;Liu et al, 2010;Yu et al, 2012). To our knowledge, the hcf106 (SALK_020680) mutant has not been characterized before, but it does produce a similar albino phenotype to a previously reported mutant of another Tat pathway component, TatC (Motohashi et al, 2001), while the cpsrp43-2 (SAIL_783_F08) mutant (Sessions et al, 2002) was shown in this study to accumulate no detectable cpSRP43 protein.…”
Section: Plant Materials and Growth Conditionsmentioning
confidence: 60%
“…Even in leaf tissues where photosynthesis provides most of the ATP and reducing power for fatty acid synthesis, exogenous sugar could serve as an alternative resource when photosynthesis is abolished. This is demonstrated by the fact that Arabidopsis albino mutants could grow to fairly normal size in tissue culture in the presence of exogenous sugar (Grevelding et al, 1996;Motohashi et al, 2001). Based on these rationales, we think it is unlikely that the dramatic reduction of oil content in sse1 is due solely to lack of photosynthesis.…”
Section: Other Developmental Defectsmentioning
confidence: 99%