Eukaryotic promoters? by Proudfoot, N

Genome design in eukaryotes by Li, Peng

“…The availability of complete genome sequences for many eukaryotic organisms continues to contribute towards a better understanding of their genome design and evolution. …”
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Paleovirology of the DNA viruses of eukaryotes by Barreat, JGN, Katzourakis, A

“…Members of multiple viral families have been found integrated in the genomes of eukaryotes, providing a rich fossil record to study. …”

The eukaryotic flagellum in health and disease by Farr, H

“…<p>The 9 + 2 microtubule axoneme of flagella and cilia represents one of the most iconic structures built by eukaryotic cells and organisms. Some cilia are motile, whilst others serve as sensory organelles, and can variously possess 9+2, 9+0 axonemes and other associated structures. …”

The ribosomal proteins of eukaryotic cells by Kuter, D

Bioenergetics and metabolism of eukaryotic cell proliferation by Li, Zhaoqi

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The archaeal origins of the eukaryotic translational system by Hartman, Hyman, Favaretto, Paola, Smith, Temple F.

“…Although this and other analyses strongly support an archaeal origin for a substantial fraction of the eukaryotic translational machinery, especially the ribosomal proteins, there have been numerous unique and ubiquitous additions to the eukaryotic translational system besides the 11 unique eukaryotic ribosomal proteins. …”
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NMR study of eukaryotic translation termination by Wong, Leo E

“…Unlike in bacteria, eukaryotic translation termination is more complex. …”
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Earth's earliest non-marine eukaryotes. by Strother, P, Battison, L, Brasier, M, Wellman, C

“…The apparent dominance of eukaryotes in non-marine settings by 1 Gyr ago indicates that eukaryotic evolution on land may have commenced far earlier than previously thought.…”

Systems biology of the eukaryotic cell cycle by Novak, B

Eukaryotic and prokaryotic stomatins: the proteolytic link. by Green, J, Fricke, B, Chetty, M, von Düring, M, Preston, G, Stewart, G

“…The corollary is that stomatin could be a partner protein for a membrane-bound proteolytic process, in both prokaryotes and in eukaryotes generally: this idea is consistent with experimental evidence.…”

Earth's earliest non-marine eukaryotes by Strother, P, Battison, L, Brasier, MD, Wellman, C

“…The apparent dominance of eukaryotes in non-marine settings by 1-Gyr ago indicates that eukaryotic evolution on land may have commenced far earlier than previously thought. © 2011 Macmillan Publishers Limited. …”

Eukaryotic expression: developments for structural proteomics. by Aricescu, A, Assenberg, R, Bill, R, Busso, D, Chang, V, Davis, S, Dubrovsky, A, Gustafsson, L, Hedfalk, K, Heinemann, U, Jones, I, Ksiazek, D, Lang, C, Maskos, K, Messerschmidt, A, Macieira, S, Peleg, Y, Perrakis, A, Poterszman, A, Schneider, G, Sixma, T, Sussman, J, Sutton, G, Tarboureich, N, Zeev-Ben-Mordehai, T

“…Strategies for co-expression, selenomethionine labelling (in all three eukaryotic systems) and control of glycosylation (for secreted proteins in mammalian cells) are assessed.…”

Biophysical properties of the eukaryotic ribosomal stalk. by Grela, P, Krokowski, D, Gordiyenko, Y, Krowarsch, D, Robinson, C, Otlewski, J, Grankowski, N, Tchórzewski, M

“…The most distinctive feature of this center is an oligomeric complex, the stalk, responsible for the recruitment of translation factors and stimulation of translation factor-dependent GTP hydrolysis. In eukaryotes, the stalk has been investigated in vitro and in vivo, but most information available concerns its individual components only. …”

Sequence analysis of eukaryotic mRNA. by Proudfoot, N, Cheng, C, Brownlee, G

Single-molecule studies of eukaryotic helicase loading by Ticau, Simina

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A global ocean atlas of eukaryotic genes by Carradec, Quentin, Pelletier, Eric, Da Silva, Corinne, Alberti, Adriana, Seeleuthner, Yoann, Blanc-Mathieu, Romain, Lima-Mendez, Gipsi, Rocha, Fabio, Tirichine, Leila, Labadie, Karine, Kirilovsky, Amos, Bertrand, Alexis, Engelen, Stefan, Madoui, Mohammed-Amin, Méheust, Raphaël, Poulain, Julie, Romac, Sarah, Richter, Daniel J., Yoshikawa, Genki, Dimier, Céline, Kandels-Lewis, Stefanie, Picheral, Marc, Searson, Sarah, Jaillon, Olivier, Aury, Jean-Marc, Karsenti, Eric, Sullivan, Matthew B., Sunagawa, Shinichi, Bork, Peer, Not, Fabrice, Hingamp, Pascal, Raes, Jeroen, Guidi, Lionel, Ogata, Hiroyuki, de Vargas, Colomban, Iudicone, Daniele, Bowler, Chris, Wincker, Patrick, Acinas, Silvia G., Boss, Emmanuel, Gorsky, Gabriel, Grimsley, Nigel, Karp-Boss, Lee, Krzic, Uros, Pesant, Stephane, Reynaud, Emmanuel G., Sardet, Christian, Sieracki, Mike, Speich, Sabrina, Stemmann, Lars, Velayoudon, Didier, Weissenbach, Jean, Follows, Michael J

“…The individual sequence reads cluster into 116 million unigenes representing the largest reference collection of eukaryotic transcripts from any single biome. The catalog is used to unveil functions expressed by eukaryotic marine plankton, and to assess their functional biogeography. …”
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Is the control of recombination conserved among diverse eukaryotes? by Goodstadt, L, Ponting, C

Structural studies of chemotaxis in prokaryotes and higher eukaryotes by Bell, C

“…In this thesis, chemotactic signal transduction pathways in bacteria, in particular two component signalling in <em>R. sphaeroides</em>, and eukaryotes, in particular human axon guidance, are studied by means of X-ray crystallography complemented with biophysical, biochemical and cellular studies.…”

Asymmetric mechanosensitivity in a eukaryotic ion channel by Clausen, M, Jarerattanachat, V, Carpenter, E, Sansom, M, Tucker, S

“…Our results reveal how the asymmetric structure of TREK-2 allows it to distinguish a broad profile of forces within the membrane, and illustrate the mechanisms that eukaryotic mechanosensitive ion channels may use to detect and fine-tune their responses to different mechanical stimuli.…”