Add to ORKGDNA sequences that can bind selectively and specifically to target molecules are known as aptamers. Normally such binding analyses are performed using soluble aptamers. However, there is much to be gained by using an on-chip or microarray format, where a large number of aptameric DNA sequences can be interrogated simultaneously. To calibrate the system, known thrombin binding aptamers (TBAs) have been mutated systematically, producing large populations that allow exploration of key structural aspects of the overall binding motif. The ability to discriminate between background noise and low affinity binding aptamers can be problematic on arrays, and we use the mutated sequences to establish appropriate experimental conditions and their limit...
ABSTRACT: Affinity reagent pairs that recognize distinct epitopes on a target protein can greatly im...
The reliable, readily accessible and label-free measurement of aptamer binding remains a challenge i...
Aptamers are promising recognition elements for sensitive and specific detection of small molecules....
BACKGROUND: Optimization of high affinity reagents is a significant bottleneck in medicine and the l...
Aptamers are small, functional nucleic acids that bind a variety of targets, often with high specifi...
When selecting for aptamers the probability of selecting the fittest aptamer is extremely low due to...
abstract: The relationship between sequence and binding properties of an aptamer for immunoglobulin ...
Aptamer microarrays are a promising high-throughput method for ultrasensitive detection of multiple ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
The possibility of introducing a computationally assisted method to study aptamer–protein interactio...
ABSTRACT: Aptamer microarrays are a promising high-throughput method for ultrasensitive detection of...
In situ fabricated nucleic acids microarrays are versatile and very high-throughput platforms for ap...
We describe the integration of microfluidic selection with high-throughput DNA sequencing technology...
<p>Highly enriched aptamer sequences were identified by high-throughput sequencing analysis, and tes...
Aptamers feature a number of advantages, compared to antibodies. However, their application has been...
ABSTRACT: Affinity reagent pairs that recognize distinct epitopes on a target protein can greatly im...
The reliable, readily accessible and label-free measurement of aptamer binding remains a challenge i...
Aptamers are promising recognition elements for sensitive and specific detection of small molecules....
BACKGROUND: Optimization of high affinity reagents is a significant bottleneck in medicine and the l...
Aptamers are small, functional nucleic acids that bind a variety of targets, often with high specifi...
When selecting for aptamers the probability of selecting the fittest aptamer is extremely low due to...
abstract: The relationship between sequence and binding properties of an aptamer for immunoglobulin ...
Aptamer microarrays are a promising high-throughput method for ultrasensitive detection of multiple ...
License, which permits unrestricted use, distribution, and reproduction in any medium, provided the ...
The possibility of introducing a computationally assisted method to study aptamer–protein interactio...
ABSTRACT: Aptamer microarrays are a promising high-throughput method for ultrasensitive detection of...
In situ fabricated nucleic acids microarrays are versatile and very high-throughput platforms for ap...
We describe the integration of microfluidic selection with high-throughput DNA sequencing technology...
<p>Highly enriched aptamer sequences were identified by high-throughput sequencing analysis, and tes...
Aptamers feature a number of advantages, compared to antibodies. However, their application has been...
ABSTRACT: Affinity reagent pairs that recognize distinct epitopes on a target protein can greatly im...
The reliable, readily accessible and label-free measurement of aptamer binding remains a challenge i...
Aptamers are promising recognition elements for sensitive and specific detection of small molecules....