Abstract:
:Understanding the structural rules that govern specific, high-affinity binding characteristic of aptamer-protein interactions is important in view of the increasing use of aptamers across many applications. From the modest number of 16 aptamer-protein structures currently available, trends are emerging. The flexible phosphodiester backbone allows folding into precise three-dimensional structures using known nucleic acid motifs as scaffolds that orient specific functional groups for target recognition. Still, completely novel motifs essential for structure and function are found in modified aptamers with diversity-enhancing side chains. Aptamers and antibodies, two classes of macromolecules used as affinity reagents with entirely different backbones and composition, recognize protein epitopes of similar size and with comparably high shape complementarity.
journal_name
Curr Opin Struct Bioljournal_title
Current opinion in structural biologyauthors
Gelinas AD,Davies DR,Janjic Ndoi
10.1016/j.sbi.2016.01.009subject
Has Abstractpub_date
2016-02-01 00:00:00pages
122-32eissn
0959-440Xissn
1879-033Xpii
S0959-440X(16)00012-9journal_volume
36pub_type
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journal_title:Current opinion in structural biology
pub_type: 杂志文章,评审
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
pub_type: 杂志文章,评审
doi:10.1016/j.sbi.2017.06.010
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
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abstract::Arf GTPases are major regulators of membrane traffic and organelle structure in eukaryotes where they recruit many different effectors, including components of vesicular coats, proteins that tether membranes, sort lipids or have diverse other functions in vesicular traffic, and bacterial proteins that divert Arf funct...
journal_title:Current opinion in structural biology
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journal_title:Current opinion in structural biology
pub_type: 杂志文章,评审
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abstract::Conformational dynamics is a hallmark of diverse non-coding RNA functions. During these functional processes, RNA molecules almost ubiquitously undergo conformational transitions that are tuned to meet distinct structural and kinetic requirements for proper function. A complete mechanistic understanding of RNA functio...
journal_title:Current opinion in structural biology
pub_type: 杂志文章,评审
doi:10.1016/j.sbi.2015.02.011
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journal_title:Current opinion in structural biology
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abstract::Although intermediates have long been recognised as fascinating species that form during the folding of large proteins, the role that intermediates play in the folding of small, single-domain proteins has been widely debated. Recent discoveries using new, sensitive methods of detection and studies combining simulation...
journal_title:Current opinion in structural biology
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abstract::Recently solved structures and proposed models have helped to reveal the structural characteristics of the beta-propeller fold, as well as the features that contribute to its high rigidity and stability. Possible strategies for identifying beta-propeller proteins in newly characterised sequences are helping to overcom...
journal_title:Current opinion in structural biology
pub_type: 杂志文章,评审
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abstract::Biological macromolecules have evolved over billions of years to function inside cells, so it is not surprising that researchers studying the properties of such molecules, either in extracts or in purified form, take care to control factors that reflect the intracellular environment, such as pH, ionic strength and com...
journal_title:Current opinion in structural biology
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doi:10.1016/s0959-440x(00)00172-x
更新日期:2001-02-01 00:00:00
