Results 301 to 310 of about 101,230 (354)
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Plant Physiology and Biochemistry, 2004
Plastids are essential organelles present in virtually all cells in plants and in green algae. The proteomes of plastids, and in particular of chloroplasts, have received significant amounts of attention in recent years. Various fractionation and mass spectrometry (MS) techniques have been applied to catalogue the chloroplast proteome and its membrane ...
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Plastids are essential organelles present in virtually all cells in plants and in green algae. The proteomes of plastids, and in particular of chloroplasts, have received significant amounts of attention in recent years. Various fractionation and mass spectrometry (MS) techniques have been applied to catalogue the chloroplast proteome and its membrane ...
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Molecular Biology, 2005
Plastids have a very interesting transcription apparatus that gives us an opportunity to investigate mono- and multisubunut RNA polymerase interaction under conditions of complex biogenesis of the organelles and the necessity to coordinate the expression of genes located in different cell compartments.
E A, Lysenko, V V, Kuznetsov
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Plastids have a very interesting transcription apparatus that gives us an opportunity to investigate mono- and multisubunut RNA polymerase interaction under conditions of complex biogenesis of the organelles and the necessity to coordinate the expression of genes located in different cell compartments.
E A, Lysenko, V V, Kuznetsov
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Nature, 1948
IN a previous paper1, a method has been described for the detection of the enzyme phosphorylase in plant tissues. Briefly, it consists of incubating freehand sections of the tissue, previously freed of starch by starvation, in a buffered solution of glucose-1-phosphate, and subsequent staining in iodine–potassium iodide for the resultant starch.
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IN a previous paper1, a method has been described for the detection of the enzyme phosphorylase in plant tissues. Briefly, it consists of incubating freehand sections of the tissue, previously freed of starch by starvation, in a buffered solution of glucose-1-phosphate, and subsequent staining in iodine–potassium iodide for the resultant starch.
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Plastid Transformation in Tomato
2014Tomato (Solanum lycopersicum) is one of the most important vegetable crops and has long been an important model species in plant biology. Plastid biology in tomato is especially interesting due to the chloroplast-to-chromoplast conversion occurring during fruit ripening.
Ruf, S., Bock, R.
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2014
Overall translational machinery in plastids is similar to that of E. coli. Initiation is the crucial step for translation and this step in plastids is somewhat different from that of E. coli. Unlike the Shine-Dalgarno sequence in E. coli, cis-elements for translation initiation are not well conserved in plastid mRNAs.
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Overall translational machinery in plastids is similar to that of E. coli. Initiation is the crucial step for translation and this step in plastids is somewhat different from that of E. coli. Unlike the Shine-Dalgarno sequence in E. coli, cis-elements for translation initiation are not well conserved in plastid mRNAs.
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1997
Abstract Ch-cpn10 (Bertsch et al., 1992), cpn24 (Chen, Jagendorf, 1994). Cpn21 was originally identified in pea (Pisum sativum), spinach (Spinacea oleracea) chloroplasts (Bertsch.
A A Gatenby, H Chen
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Abstract Ch-cpn10 (Bertsch et al., 1992), cpn24 (Chen, Jagendorf, 1994). Cpn21 was originally identified in pea (Pisum sativum), spinach (Spinacea oleracea) chloroplasts (Bertsch.
A A Gatenby, H Chen
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1997
Abstract Rubisco large subunit binding protein (Ellis, 1981; Lennox, Ellis, 1986; Musgrove, Ellis, 1986: Musgrove etal., 1987) ;rubisco subunit binding protein (Ellis, van der Vies, 1988); chloroplast chaperonin 60 (Gutteridge, Gatenby, 1995); chi cpn60.
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Abstract Rubisco large subunit binding protein (Ellis, 1981; Lennox, Ellis, 1986; Musgrove, Ellis, 1986: Musgrove etal., 1987) ;rubisco subunit binding protein (Ellis, van der Vies, 1988); chloroplast chaperonin 60 (Gutteridge, Gatenby, 1995); chi cpn60.
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2009
Plastids reside in all plant cells, and take on different forms in relation to their cellular function, biochemistry and storage capacity. The modern era of molecular biology and molecular genetics has enabled much to be learnt about how plastids function, and how they relate to their evolutionary past.
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Plastids reside in all plant cells, and take on different forms in relation to their cellular function, biochemistry and storage capacity. The modern era of molecular biology and molecular genetics has enabled much to be learnt about how plastids function, and how they relate to their evolutionary past.
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Targeted base editing in the plastid genome of Arabidopsis thaliana
Nature Plants, 2021Miki Okuno +2 more
exaly