Reconsidering Movement of Eukaryotic mRNAs between Polysomes and P Bodies by Doudna, Jennifer A., Arribere, Joshua Alexander, Gilbert, Wendy

“…From reporter gene studies in glucose-starved yeast, it was proposed that translationally silenced eukaryotic mRNAs accumulate in P bodies and can return to active translation. …”
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Engineering control of eukaryotic translation with application to the malaria parasite Plasmodium falciparum by Goldfless, Stephen J. (Stephen Jacob)

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The role of the DNA sliding clamp in Okazaki fragment maturation in archaea and eukaryotes. by Beattie, T, Bell, S

“…Studies in eukaryotic systems have revealed that the co-ordination of DNA polymerase δ and FEN-1 (Flap Endonuclease 1) is sufficient to remove the majority of primers. …”

Models in biology: lessons from modeling regulation of the eukaryotic cell cycle by Tyson, JJ, Novák, B

“…In this essay we illustrate some general principles of mathematical modeling in biology by our experiences in studying the molecular regulatory network underlying eukaryotic cell division. We discuss how and why the models moved from simple, parsimonious cartoons to more complex, detailed mechanisms with many kinetic parameters. …”

Investigating the epigenetic regulation of the eukaryotic centromere by the segregase enzyme p97 by East, S

Conservation of intramembrane proteolytic activity and substrate specificity in prokaryotic and eukaryotic rhomboids. by Urban, S, Schlieper, D, Freeman, M

Molecular determinants of sphingomyelin specificity of a eukaryotic pore-forming toxin. by Bakrac, B, Gutiérrez-Aguirre, I, Podlesek, Z, Sonnen, A, Gilbert, R, Macek, P, Lakey, J, Anderluh, G

“…SM binding is thus a widespread and important biochemical function, and here we reveal the molecular basis of SM recognition by the membrane-binding eukaryotic cytolysin equinatoxin II (EqtII). The presence of SM in membranes drastically improves the binding and permeabilizing activity of EqtII. …”

Mechanisms of signalling-memory governing progression through the eukaryotic cell cycle by Novák, B, Tyson, JJ

Eukaryotic/Archaeal Primase and MCM Proteins Encoded in a Bacteriophage Genome by McGeoch, A, Bell, S

DNAReplication: a database of information and resources for the eukaryotic DNA replication community by Cotterill, S, Kearsey, S

“…DNAReplication (at http://www.dnareplication.net) has been set up as a freely available single resource to facilitate access to information on eukaryotic DNA replication. This database summarizes organism-sorted data on replication proteins in the categories of nomenclature, biochemical properties, motifs, interactions, modifications, structure, cell localization and expression, and general comments. …”

DNAReplication: a database of information and resources for the eukaryotic DNA replication community. by Cotterill, S, Kearsey, S

“…DNAReplication (at http://www.dnareplication.net) has been set up as a freely available single resource to facilitate access to information on eukaryotic DNA replication. This database summarizes organism-sorted data on replication proteins in the categories of nomenclature, biochemical properties, motifs, interactions, modifications, structure, cell localization and expression, and general comments. …”

GIFT domains: linking eukaryotic intraflagellar transport and glycosylation to bacterial gliding. by Beatson, S, Ponting, C

“…We describe GIFT [for GldG, intraflagellar transport (IFT)] domains in the flavobacterial gliding protein GldG and eukaryotic IFT-52. In eukaryotes, domain homologues are also found in the eukaryotic oligosaccharyltransferase complex and in subtilisin kexin isozyme-1 (SKI-1 or S1P). …”

In vitro reconstitution of eukaryotic ion channels using droplet interface bilayers. by Leptihn, S, Thompson, JR, Ellory, J, Tucker, S, Wallace, M

“…The ability to routinely study eukaryotic ion channels in a synthetic lipid environment would have a major impact on our understanding of how different lipids influence ion channel function. …”

Oxygen-sensing mechanisms across eukaryotic kingdoms and their roles in complex multicellularity by Hammarlund, EU, Flashman, E, Mohlin, S, Licausi, F

“…Oxygen-sensing mechanisms of eukaryotic multicellular organisms coordinate hypoxic cellular responses in a spatiotemporal manner. …”

Molecular determinants of sphingomyelin specificity of a eukaryotic pore-forming toxin by Bakrač, B, Gutiérrez-Aguirre, I, Podlesek, Z, Sonnen, A, Gilbert, R, Maček, P, Lakey, J, Anderluh, G

“…SM binding is thus a widespread and important biochemical function, and here we reveal the molecular basis of SM recognition by the membrane-binding eukaryotic cytolysin equinatoxin II (EqtII). The presence of SM in membranes drastically improves the binding and permeabilizing activity of EqtII. …”

A billion years arms-race between viruses, virophages, and eukaryotes by Nino Barreat, JG, Katzourakis, A

“…Bamfordviruses are arguably the most diverse group of viruses infecting eukaryotes. They include the Nucleocytoplasmic Large DNA viruses (NCLDVs), virophages, adenoviruses, Mavericks and Polinton-like viruses. …”

A “latching-gate” model of progression through the eukaryotic cell cycle by Tyson, JJ, Novak, B

The spatial organization of sequences involved in initiation and termination of eukaryotic DNA replication. by Cook, P, Lang, J

Patterns of kinesin evolution reveal a complex ancestral eukaryote with a multifunctional cytoskeleton by Wickstead, B, Gull, K, Richards, T

“…Here, we have used the kinesin motor repertoire of 45 extant eukaryotes to infer the ancestral state of this superfamily in the last common eukaryotic ancestor (LCEA). …”

Pentaradial eukaryote suggests expansion of suspension feeding in White Sea-aged Ediacaran communities by Cracknell, K, García-Bellido, DC, Gehling, JG, Ankor, MJ, Darroch, SAF, Rahman, I

“…Here, we use three-dimensional modelling and computational fluid dynamics to establish the feeding mode of the enigmatic Ediacaran pentaradial eukaryote Arkarua. Through comparisons with two Cambrian echinoderms, Cambraster and Stromatocystites, we show that flow patterns around Arkarua strongly support its interpretation as a passive suspension feeder. …”