A membrane transporter for tryptophan composed of RNA

Janas, Tadeusz; Yarus, Michael

doi:10.1261/rna.7112704

Cited by 46 publications

(50 citation statements)

References 22 publications

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“…As some permeability mechanisms invoke transient pores and packing defects as routes for solute passage, it is plausible that RNA molecules that simply interact with membrane surfaces could influence the structure and dynamics of the membrane enough to effectively enhance solute permeation. In fact, a RNA chimera consisting of selected membrane and tryptophan binding motifs is able to facilitate tryptophan transport across diacyl phospholipid membranes (Janas and Yarus 2004). Although few examples exist of such RNAmembrane interactions, the ability of RNA to serve a wide range of functions in vitro and in contemporary cells suggests that facilitated solute transport may not have been impossibility during the origin of life ).…”

Section: Early Transportersmentioning

confidence: 99%

Membrane Transport in Primitive Cells

Mansy

2010

Cold Spring Harbor Perspectives in Biology

103

102

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Although model protocellular membranes consisting of monoacyl lipids are similar to membranes composed of contemporary diacyl lipids, they differ in at least one important aspect. Model protocellular membranes allow for the passage of polar solutes and thus can potentially support cell-to functions without the aid of transport machinery. The ability to transport polar molecules likely stems from increased lipid dynamics. Selectively permeable vesicle membranes composed of monoacyl lipids allow for many lifelike processes to emerge from a remarkably small set of molecules.

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Section: Early Transportersmentioning

confidence: 99%

Membrane Transport in Primitive Cells

Mansy

2010

Cold Spring Harbor Perspectives in Biology

103

102

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“…Impressively, ribozymes that polymerize nucleoside triphosphates have been constructed, but improving the fidelity and efficiency to the levels needed for replication remains a significant hurdle (Szostak et al 2001). Another hurdle is construction of a membrane transporter made of RNA despite its membrane impermeability, yet this has recently been proved feasible (Janas et al 2004). A benefit of this approach is experimental insight into the extinct "RNA world.…”

Section: Synthesizing Self-replication and Lifementioning

confidence: 99%

Synthetic biology projects in vitro

Forster

Church²

2006

Genome Res.

152

111

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Advances in the in vitro synthesis and evolution of DNA, RNA, and polypeptides are accelerating the construction of biopolymers, pathways, and organisms with novel functions. Known functions are being integrated and debugged with the aim of synthesizing life-like systems. The goals are knowledge, tools, smart materials, and therapies. Synthetic biology projects (SBPs)The basic elements of chemistry and biology are few, but the synthetic combinations are unlimited and awe inspiring. The first international conference on synthetic biology charted its goals as understanding and utilizing life's diverse solutions to process information, materials, and energy (Silver and Way 2004)

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“…Thus, specific nucleotide sequences are required for enhanced affinity to phospholipid bilayers but such RNA domains, judging from ease of selection, must be small and numerous. By combining such preselected RNA-membrane affinity domains with an RNA amino acid binding RNA site, a passive membrane transporter specifically directed to the amino acid tryptophan was constructed and characterized (Janas et al 2004). This membrane RNA, composed only of the four standard ribonucleotides, is specific to the amino acid side chain and transports tryptophan at a rate that overlaps proteins carrying out a similar membrane transport reaction.…”

Section: Introductionmentioning

confidence: 99%

Human tRNA^Secassociates with HeLa membranes, cell lipid liposomes, and synthetic lipid bilayers

Janas

Yarus

2012

RNA

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We have shown previously that simple RNA structures bind pure phospholipid liposomes. However, binding of bona fide cellular RNAs under physiological ionic conditions is shown here for the first time. Human tRNA Sec contains a hydrophobic anticodon-loop modification: N 6 -isopentenyladenosine (i 6 A) adjacent to its anticodon. Using a highly specific double-probe hybridization assay, we show mature human tRNA Sec specifically retained in HeLa intermediate-density membranes. Further, isolated human tRNA Sec rebinds to liposomes from isolated HeLa membrane lipids, to a much greater extent than an unmodified tRNA Sec transcript. To better define this affinity, experiments with pure lipids show that liposomes forming rafts or including positively charged sphingosine, or particularly both together, exhibit increased tRNA Sec binding. Thus tRNA Sec residence on membranes is determined by several factors, such as hydrophobic modification (likely isopentenylation of tRNA Sec ), lipid structure (particularly lipid rafts), or sphingosine at a physiological concentration in rafted membranes. From prior work, RNA structure and ionic conditions also appear important. tRNA Sec dissociation from HeLa liposomes implies a mean membrane residence of 7.6 min at 24°C (t 1 ⁄ 2 = 5.3 min). Clearly RNA with a 5-carbon hydrophobic modification binds HeLa membranes, probably favoring raft domains containing specific lipids, for times sufficient to alter biological fates.

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A membrane transporter for tryptophan composed of RNA

Cited by 46 publications

References 22 publications

Membrane Transport in Primitive Cells

Membrane Transport in Primitive Cells

Synthetic biology projects in vitro

Human tRNA^Secassociates with HeLa membranes, cell lipid liposomes, and synthetic lipid bilayers

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A membrane transporter for tryptophan composed of RNA

Cited by 46 publications

References 22 publications

Membrane Transport in Primitive Cells

Membrane Transport in Primitive Cells

Synthetic biology projects in vitro

Human tRNASecassociates with HeLa membranes, cell lipid liposomes, and synthetic lipid bilayers

Contact Info

Product

Resources

About

Human tRNA^Secassociates with HeLa membranes, cell lipid liposomes, and synthetic lipid bilayers