Results 321 to 330 of about 83,395 (335)
Some of the next articles are maybe not open access.
The Plastids of Isoetes howellii
American Journal of Botany, 1962Paolillo, D. J., Jr. (U. Illinois, Urbana.) The plastids of Isoetes. howellii. Amer. Jour. Bot. 49(6): 590–598. Illus. 1962.—The plastids of various tissues of the sporophyte of Isoetes howellii have been investigated with the light and electron microscopes.
openaire +2 more sources
Plastids and gravitropic sensing
Planta, 1997Data and theories about the identity of the mass that acts in gravitropic sensing are reviewed. Gravity sensing may have evolved several times in plants and algae in processes such as gravitropism of organs and tip-growing cells, gravimorphism, gravitaxis, and the regulation of cytoplasmic streaming in internodal cells of Chara.
openaire +2 more sources
PHOSPHATE TRANSLOCATORS IN PLASTIDS
Annual Review of Plant Physiology and Plant Molecular Biology, 1999▪ Abstract During photosynthesis, energy from solar radiation is used to convert atmospheric carbon dioxide into intermediates that are used within and outside the chloroplast for a multitude of metabolic pathways. The daily fixed carbon is exported from the chloroplasts as triose phosphates and 3-phosphoglycerate. In contrast, nongreen plastids rely
openaire +3 more sources
Current Opinion in Plant Biology, 2004
The function of the eukaryotic cell depends on the reciprocal interaction between its different compartments. Plastids emit signals that regulate nuclear gene expression to ensure the stoichiometric assembly of plastid protein complexes and to initiate macromolecular reorganisation in response to environmental cues.
openaire +3 more sources
The function of the eukaryotic cell depends on the reciprocal interaction between its different compartments. Plastids emit signals that regulate nuclear gene expression to ensure the stoichiometric assembly of plastid protein complexes and to initiate macromolecular reorganisation in response to environmental cues.
openaire +3 more sources
Plastids and Protein Targeting1
Journal of Eukaryotic Microbiology, 1999Plastids with two bounding membranes—as exemplified by red algae, green algae, plants, and glaucophytes—derive from primary endosymbiosis: a process involving engulfment and retention of a cyanobacterium by a phagotrophic eukaryote. Plastids with more than two bounding membranes (such as those of euglenoids, dinoflagellates, heterokonts, haptopytes ...
openaire +3 more sources
Plastids and cellular function
2009From what has been discussed in the preceding chapters, it should be clear that the plastid is a highly dynamic organelle in terms of its biochemistry, its molecular biological systems, its photochemistry and its molecular interaction with the nucleus.
openaire +2 more sources
Isolation of Plastid Ribosomes
2016Plastid ribosomes are responsible for a large part of the protein synthesis in plant leaves, green algal cells, and the vast majority in the thalli of red algae. Plastid translation is necessary not only for photosynthesis but also for development/differentiation of plants and algae.
openaire +3 more sources