Selective sensing of saccharides using simple boronic acids and their aggregatesDedicated to Professor Seiji Shinkai to celebrate his 70th birthday
The reversible boronic acid-diol interaction empowers boronic acid receptors' saccharide binding capacities, rendering them a class of lectin mimetic, termed "boronlectins". Boronic acids follow lectin functions not just in being able to bind saccharides, but in multivalent saccharide...
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| creator | Wu, Xin Li, Zhao Chen, Xuan-Xuan Fossey, John S James, Tony D Jiang, Yun-Bao |
| description | The reversible boronic acid-diol interaction empowers boronic acid receptors' saccharide binding capacities, rendering them a class of lectin mimetic, termed "boronlectins". Boronic acids follow lectin functions not just in being able to bind saccharides, but in multivalent saccharide binding that enhances both affinity and selectivity. For almost a decade, efforts have been made to achieve and improve selectivity for given saccharide targets, most notably glucose, by using properly positioned boronic acids, offering multivalent interactions. Incorporation of several boronic acid groups into a covalent framework or non-covalent assembly of boronic acid are two general methods used to create such
smart sensors
, of which the latter resembles lectin oligomerisation that affords multivalent saccharide-binding architectures. In this
review
, we discuss supramolecular selective sensing of saccharides by using simple boronic acids in their aggregate forms, after a brief survey of the general aspects of boronic acid-based saccharide sensing.
Saccharide-selective supramolecular sensors based on boronic acids, with a focus on using self-assembly of multiple boronic acids to target multivalent saccharide analytes. |
| doi_str_mv | 10.1039/c3cs60148j |
| format | Article |
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smart sensors
, of which the latter resembles lectin oligomerisation that affords multivalent saccharide-binding architectures. In this
review
, we discuss supramolecular selective sensing of saccharides by using simple boronic acids in their aggregate forms, after a brief survey of the general aspects of boronic acid-based saccharide sensing.
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smart sensors
, of which the latter resembles lectin oligomerisation that affords multivalent saccharide-binding architectures. In this
review
, we discuss supramolecular selective sensing of saccharides by using simple boronic acids in their aggregate forms, after a brief survey of the general aspects of boronic acid-based saccharide sensing.
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smart sensors
, of which the latter resembles lectin oligomerisation that affords multivalent saccharide-binding architectures. In this
review
, we discuss supramolecular selective sensing of saccharides by using simple boronic acids in their aggregate forms, after a brief survey of the general aspects of boronic acid-based saccharide sensing.
Saccharide-selective supramolecular sensors based on boronic acids, with a focus on using self-assembly of multiple boronic acids to target multivalent saccharide analytes.</abstract><doi>10.1039/c3cs60148j</doi><tpages>17</tpages></addata></record> |
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| source | Royal Society Of Chemistry Journals 2008-; Alma/SFX Local Collection |
| title | Selective sensing of saccharides using simple boronic acids and their aggregatesDedicated to Professor Seiji Shinkai to celebrate his 70th birthday |
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