RNA Diels−Alderases: Relationships between Unique Sequences and Catalytic Function
A group of eight unique RNA sequences isolated from a single in vitro selection experiment were characterized based on their Diels−Alderase properties. Five of the eight isolates contain a 10-base conserved region, while the remaining three do not share any sequence similarities with any of the othe...
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| Veröffentlicht in: | Journal of the American Chemical Society 2000-02, Vol.122 (6), p.1015-1021 |
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| creator | Tarasow, Theodore M Tarasow, Sandra L Eaton, Bruce E |
| description | A group of eight unique RNA sequences isolated from a single in vitro selection experiment were characterized based on their Diels−Alderase properties. Five of the eight isolates contain a 10-base conserved region, while the remaining three do not share any sequence similarities with any of the others. This series of RNA Diels−Alderases displayed k cat and K m values that spanned 74 and 80-fold ranges, respectively. These values appeared to compensate for one another, as the value of k cat/K m varied by only 5-fold among the isolates studied. Product inhibition experiments revealed a general trend between affinity for the cycloaddition product and catalytic ability as measured by k cat. The activities of each of the RNA Diels−Alderases were completely dependent on the presence of cupric ion. In addition, all of the RNA catalysts demonstrated a high degree of substrate selectivity, even for structurally and electronically similar dienophiles. Overall, the data demonstrate how a variety of RNA sequences can solve a specific chemical problem. The information gathered provides a foundation from which to build our understanding of how sequence, structure, and function are interrelated. Such knowledge could be applied to create new catalysts, both large and small. |
| doi_str_mv | 10.1021/ja992448+ |
| format | Article |
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Five of the eight isolates contain a 10-base conserved region, while the remaining three do not share any sequence similarities with any of the others. This series of RNA Diels−Alderases displayed k cat and K m values that spanned 74 and 80-fold ranges, respectively. These values appeared to compensate for one another, as the value of k cat/K m varied by only 5-fold among the isolates studied. Product inhibition experiments revealed a general trend between affinity for the cycloaddition product and catalytic ability as measured by k cat. The activities of each of the RNA Diels−Alderases were completely dependent on the presence of cupric ion. In addition, all of the RNA catalysts demonstrated a high degree of substrate selectivity, even for structurally and electronically similar dienophiles. Overall, the data demonstrate how a variety of RNA sequences can solve a specific chemical problem. The information gathered provides a foundation from which to build our understanding of how sequence, structure, and function are interrelated. 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Am. Chem. Soc</addtitle><description>A group of eight unique RNA sequences isolated from a single in vitro selection experiment were characterized based on their Diels−Alderase properties. Five of the eight isolates contain a 10-base conserved region, while the remaining three do not share any sequence similarities with any of the others. This series of RNA Diels−Alderases displayed k cat and K m values that spanned 74 and 80-fold ranges, respectively. These values appeared to compensate for one another, as the value of k cat/K m varied by only 5-fold among the isolates studied. Product inhibition experiments revealed a general trend between affinity for the cycloaddition product and catalytic ability as measured by k cat. The activities of each of the RNA Diels−Alderases were completely dependent on the presence of cupric ion. In addition, all of the RNA catalysts demonstrated a high degree of substrate selectivity, even for structurally and electronically similar dienophiles. Overall, the data demonstrate how a variety of RNA sequences can solve a specific chemical problem. The information gathered provides a foundation from which to build our understanding of how sequence, structure, and function are interrelated. 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Am. Chem. Soc</addtitle><date>2000-02-16</date><risdate>2000</risdate><volume>122</volume><issue>6</issue><spage>1015</spage><epage>1021</epage><pages>1015-1021</pages><issn>0002-7863</issn><eissn>1520-5126</eissn><abstract>A group of eight unique RNA sequences isolated from a single in vitro selection experiment were characterized based on their Diels−Alderase properties. Five of the eight isolates contain a 10-base conserved region, while the remaining three do not share any sequence similarities with any of the others. This series of RNA Diels−Alderases displayed k cat and K m values that spanned 74 and 80-fold ranges, respectively. These values appeared to compensate for one another, as the value of k cat/K m varied by only 5-fold among the isolates studied. Product inhibition experiments revealed a general trend between affinity for the cycloaddition product and catalytic ability as measured by k cat. The activities of each of the RNA Diels−Alderases were completely dependent on the presence of cupric ion. In addition, all of the RNA catalysts demonstrated a high degree of substrate selectivity, even for structurally and electronically similar dienophiles. Overall, the data demonstrate how a variety of RNA sequences can solve a specific chemical problem. The information gathered provides a foundation from which to build our understanding of how sequence, structure, and function are interrelated. Such knowledge could be applied to create new catalysts, both large and small.</abstract><pub>American Chemical Society</pub><doi>10.1021/ja992448+</doi><tpages>7</tpages></addata></record> |
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| title | RNA Diels−Alderases: Relationships between Unique Sequences and Catalytic Function |
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