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61.
Ribosomal proteins in the spotlight 总被引:1,自引:0,他引:1
The assignment of specific ribosomal functions to individual ribosomal proteins is difficult due to the enormous cooperativity of the ribosome; however, important roles for distinct ribosomal proteins are becoming evident. Although rRNA has a major role in certain aspects of ribosomal function, such as decoding and peptidyl-transferase activity, ribosomal proteins are nevertheless essential for the assembly and optimal functioning of the ribosome. This is particularly true in the context of interactions at the entrance pore for mRNA, for the translation-factor binding site and at the tunnel exit, where both chaperones and complexes associated with protein transport through membranes bind. 相似文献
62.
Previously we described an in vitro selection variant abbreviated SERF (in vitro selection from random rRNA fragments) that identifies protein binding sites within large RNAs. With this method, a small rRNA fragment derived from the 23S rRNA was isolated that binds simultaneously and independently the ribosomal proteins L4 and L24 from Escherichia coli. Until now the rRNA structure within the ternary complex L24-rRNA-L4 could not be studied due to the lack of an appropriate experimental strategy. Here we tackle the issue by separating the various complexes via native gel-electrophoresis and analyzing the rRNA structure by in-gel iodine cleavage of phosphorothioated RNA. The results demonstrate that during the transition from either the L4 or L24 binary complex to the ternary complex the structure of the rRNA fragment changes significantly. The identified protein binding sites are in excellent agreement with the recently reported crystal structure of the 50S subunit. Because both proteins play a prominent role in early assembly of the large subunit, the results suggest that the identified rRNA fragment is a key element for the folding of the 23S RNA during early assembly. The introduced in-gel cleavage method should be useful when an RNA structure within mixed populations of different but related complexes should be studied. 相似文献
63.
64.
Measurements of dielectric spectroscopy (DS) and microcalorimetry (differential scanning calorimetry (DSC)) of Escherichia coli 70S, 50S and 30S were performed on particles prepared according either to the "classical" twice NH(4)Cl-washed ribosomes, also known as loose couples (LC), or to the "tight couples" preparative protocol (TC). Results show that 70S particles prepared according to the two different protocols exhibit different structural properties. Two subsequent relaxation processes occur in both samples as measured by DS. However, in LC ribosomes the first one is shifted towards a lower frequency with a higher dielectric increment. This is suggestive of a more extensive exposure of RNA to the solvent and of an overall more relaxed structure. The smaller LC subunit exhibits only one relaxation while the TC 30S shows two dielectric dispersions as well as 70S. No substantial differences were evidenced in either 50S species. Two typical melting peaks were observed by DSC both in LC and TC 70S as well as in 50S. Thermograms obtained from the TC 30S show a single well structured peak while LC particles produce a large unstructured curve. On the basis of these results we conclude that TC 70S particles are more compact than LC ribosomes and that in the former ones the rRNA is less exposed to the solvent phase. Furthermore 30S particles obtained from TC show a more stable structure with respect to LC 30S. We conclude that the 30S subunit gives a major contribution to the compact character of the whole TC 70S. These differences might be related to the intrinsic and well documented functional difference between the two ribosome species. 相似文献
65.
Daniel N. Wilson Knud H. Nierhaus 《Critical reviews in biochemistry and molecular biology》2013,48(5):243-267
ABSTRACTThe assignment of specific ribosomal functions to individual ribosomal proteins is difficult due to the enormous cooperativity of the ribosome; however, important roles for distinct ribosomal proteins are becoming evident. Although rRNA has a major role in certain aspects of ribosomal function, such as decoding and peptidyl-transferase activity, ribosomal proteins are nevertheless essential for the assembly and optimal functioning of the ribosome. This is particularly true in the context of interactions at the entrance pore for mRNA, for the translation-factor binding site and at the tunnel exit, where both chaperones and complexes associated with protein transport through membranes bind. 相似文献
66.
Dr Yuri N. Korystov Maksim O. Emel'yanov Antonina F. Korystova Mariya KH. Levitman Vera V. Shaposhnikova 《Free radical research》2013,47(2):149-155
A method for the determination of reactive oxygen species (ROS) and reactive nitrogen species (RNS) in macroscopic sections of vessels has been developed on the basis of the dichlorofluorescein (DCF) assay. DCF was measured by fluorescence in extracts of vessels. The main artifact of the method is the oxidation of dichlorodihydrofluorescein (DCFH2) which is released from vessels together with DCF during the extraction procedure. This problem was resolved by decreasing pH during the extraction. The optimal conditions and the time for aorta incubation with DCFH2-DA and for the extraction of DCF from aorta have been determined. The ROS/RNS production in different aorta segments and the dependence of ROS/RNS production on rat age have been studied. It was shown that thoracic aorta sections produced the same amounts of ROS/RNS and the intermediate between the thoracic and the abdominal aorta part produced ROS and RNS by 14% more than the thoracic aorta. It was found that ROS/RNS production in aorta increases with rat age: the doubling time of ROS/RNS production rate is 113 days from birth. 相似文献
67.
Andrew MF Liu Rico KH Lo Emily X Guo Maurice KC Ho Richard D Ye Yung H Wong 《BMC structural biology》2011,11(1):17
Background
G protein-coupled receptors constitute the largest family of cell surface receptors in the mammalian genome. As the core of the G protein signal transduction machinery, the Gα subunits are required to interact with multiple partners. The GTP-bound active state of many Gα subunits can bind a multitude of effectors and regulatory proteins. Yet it remains unclear if the different proteins utilize distinct or common structural motifs on the Gα subunit for binding. Using Gα16 as a model, we asked if its recently discovered adaptor protein tetratricopeptide repeat 1 (TPR1) binds to the same region as its canonical effector, phospholipase Cβ (PLCβ). 相似文献68.
69.
Witold Szaflarski Knud H. Nierhaus 《Origins of life and evolution of the biosphere》2007,37(4-5):423-428
In our previous contribution (Nierhaus, Orig Life Evol Biosph, this volume, 2007) we mentioned that life had solved the problem
of energy supply in three major steps, and that these steps also mark major stages during the development of life. We further
outlined a possible scenario concerning a minimal translational apparatus focusing on the essential components necessary for
protein synthesis. Here we continue that consideration by addressing on one of the main problems of early life, namely avoiding
wasteful energy loss. With regard to the limiting energy supply of early living systems, i.e. those of say more than 3,000 Ma,
a carefully controlled and product oriented energy consumption was in demand. In recent years we learned how a bacterial cell
avoids energy drain, thus being able to pump most of the energy into protein synthesis. These lessons must be followed by
the design of a minimal living system, which is surveyed in this short article.
Presented at the International School of Complexity – 4th Course: Basic Questions on the Origins of Life; “Ettore Majorana”
Foundation and Centre for Scientific Culture, Erice, Italy, 1–6 October 2006. 相似文献
70.
The weird and wonderful world of bacterial ribosome regulation 总被引:4,自引:0,他引:4
In every organism, translation of the genetic information into functional proteins is performed on the ribosome. In Escherichia coli up to 40% of the cell's total energy turnover is channelled toward the ribosome and protein synthesis. Thus, elaborate networks of translation regulation pathways have evolved to modulate gene expression in response to growth rate and external factors, ranging from nutrient deprivation, to chemical (pH, ionic strength) and physical (temperature) fluctuations. Since the fundamental players involved in regulation of the different phases of translation have already been extensively reviewed elsewhere, this review focuses on lesser known and characterized factors that regulate the ribosome, ranging from processing, modification and assembly factors, unusual initiation and elongation factors, to a variety of stress response proteins. 相似文献