Optical genome mapping in nanochannels is a powerful genetic analysis method, complementary to deoxyribonucleic acid (DNA) sequencing. The method is based on detecting a pattern of fluorescent labels attached along individual DNA molecules. When such molecules are extended in nanochannels, the labels create a fluorescent genetic barcode that is used for mapping the DNA molecule to its genomic locus and identifying large-scale variation from the genome reference. Mapping resolution is currently limited by two main factors: the optical diffraction limit and the thermal fluctuations of DNA molecules suspended in the nanochannels. Here, we utilize single-molecule tracking and super-resolution localization in order to improve the mapping accurac...
A new chip design for handling and studying chromosomal DNA is described. Folding the nanochannels e...
Optical mapping of genomic DNA is of relevance for a plethora of applications such as scaffolding fo...
abstract: Effective DNA translocation into nanochannels is critical for advancing genome mapping and...
Optical genome mapping in nanochannels is a powerful genetic analysis method, complementary to deoxy...
Optical genome mapping in nanochannels is a powerful genetic analysis method, complementary to deoxy...
Optical DNA mapping has over the last decade emerged as a very powerful tool for obtaining long rang...
We describe genome mapping on nanochannel arrays. In this approach, specific sequence motifs in sing...
<p>A. The DNA backbone is stained with YOYO-1 and loaded into the port of a nanochannel array chip. ...
The power of nanofluidic channels to analyze DNA is described along with practical experimental hint...
Optical mapping by direct visualization of individual DNA molecules, stretched in nanochannels with ...
Here we explore the potential power of denaturation mapping as a single-molecule technique. By parti...
We show how a bird’s-eye view of genomic structure can be obtained at ∼1-kb resolution from long (∼2...
The contiguity and phase of sequence information are intrinsic to obtain complete understanding of t...
In optical DNA mapping technologies sequence-specific intensity variations (DNA barcodes) along stre...
DNA strands can be analyzed at the single-molecule level by isolating them inside nanoscale holes. T...
A new chip design for handling and studying chromosomal DNA is described. Folding the nanochannels e...
Optical mapping of genomic DNA is of relevance for a plethora of applications such as scaffolding fo...
abstract: Effective DNA translocation into nanochannels is critical for advancing genome mapping and...
Optical genome mapping in nanochannels is a powerful genetic analysis method, complementary to deoxy...
Optical genome mapping in nanochannels is a powerful genetic analysis method, complementary to deoxy...
Optical DNA mapping has over the last decade emerged as a very powerful tool for obtaining long rang...
We describe genome mapping on nanochannel arrays. In this approach, specific sequence motifs in sing...
<p>A. The DNA backbone is stained with YOYO-1 and loaded into the port of a nanochannel array chip. ...
The power of nanofluidic channels to analyze DNA is described along with practical experimental hint...
Optical mapping by direct visualization of individual DNA molecules, stretched in nanochannels with ...
Here we explore the potential power of denaturation mapping as a single-molecule technique. By parti...
We show how a bird’s-eye view of genomic structure can be obtained at ∼1-kb resolution from long (∼2...
The contiguity and phase of sequence information are intrinsic to obtain complete understanding of t...
In optical DNA mapping technologies sequence-specific intensity variations (DNA barcodes) along stre...
DNA strands can be analyzed at the single-molecule level by isolating them inside nanoscale holes. T...
A new chip design for handling and studying chromosomal DNA is described. Folding the nanochannels e...
Optical mapping of genomic DNA is of relevance for a plethora of applications such as scaffolding fo...
abstract: Effective DNA translocation into nanochannels is critical for advancing genome mapping and...