|1.||Varshney, U: 2 articles (12/2013 - 06/2001)|
|2.||Giudice, Emmanuel: 1 article (11/2015)|
|3.||Wong, Chi C: 1 article (11/2015)|
|4.||Warren, Alan J: 1 article (11/2015)|
|5.||Churcher, Mark: 1 article (11/2015)|
|6.||Traynor, David: 1 article (11/2015)|
|7.||Jin, Li: 1 article (11/2015)|
|8.||Kay, Robert R: 1 article (11/2015)|
|9.||Weis, Félix: 1 article (11/2015)|
|10.||Hilcenko, Christine: 1 article (11/2015)|
|1.||AIDS-Related Complex (ARC)
07/01/1999 - "Upon GTP hydrolysis, the bifurcation is reversed and an arc-like connection is formed between the base of the stalk and EF-G."
12/09/2005 - "During tRNA translocation on the ribosome, an arc-like connection (ALC) is formed between the G' domain of elongation factor G (EF-G) and the L7/L12-stalk base of the large ribosomal subunit in the GDP state. "
08/24/2001 - "Fitting of the X-ray coordinates of L11-23 S RNA complex and EF-G into the cryo-EM maps combined with molecular modeling, reveals that, following EF-G-dependent GTP hydrolysis, domain V of EF-G intrudes into the cleft between the 23 S ribosomal RNA and the N-terminal domain of L11 (where the antibiotic thiostrepton binds), causing the N-terminal domain to move and thereby inducing the formation of the arc-like connection with the G' domain of EF-G. "
04/01/2006 - "Using a sophisticated extension of the PCR technique, we have successfully isolated two single-copy nuclear genes, DMC1 and EF-G, from each of the three genomes found in hexaploid wheat (BA(u)D) and from the two genomes of the tetraploid progenitor Triticum turgidum (BA(u)). "
01/01/2006 - "Sequences from three nuclear regions (DMC1, EF-G and ITS) were combined and analysed phylogenetically for all diploid (20 species) and two tetraploid Hordeum species and the outgroup Psathyrostachys. "
01/01/1981 - "However, EF-G is probably not required for the synthesis of ppGpp during the stringent response, since its inactivation did not prevent ppGpp accumulation during amino acid starvation."
07/01/2000 - "We show that fusidic acid-resistant EF-G mutants have perturbed ppGpp basal levels during steady-state growth and perturbed induced levels during starvation. "
01/01/1981 - "Furthermore, fusidic acid, an inhibitor of protein synthesis which specifically inactivates EF-G, prevented any accumulation of ppGpp during the heat shock. "
02/01/2009 - "A mitochondrial NAD-dependent malate dehydrogenase and a probable elongation factor G were up-regulated, while heat shock cognate 70 was down-regulated in the SC pistils compared to those in the SI pistils. "
|1.||Peptide Elongation Factor G (EF G)
|2.||Fusidic Acid (Fucithalmic)
|3.||GTP Phosphohydrolases (GTPases)
|4.||Transfer RNA (tRNA)
|5.||Guanosine Triphosphate (GTP)
|7.||Ribosomal Protein S6
|8.||Peptide Elongation Factor 2 (EF-2)
|9.||Peptide Elongation Factor 1 (1, EF)