Searched for: author:"Restrepo Perez, L."
(1 - 5 of 5)
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Restrepo Perez, L. (author)
The function and phenotype of a cell is determined by a complex network of interactions between DNA, RNA, proteins and metabolites. Therefore, a comprehensive approach that integrates genomics, transcriptomics, proteomics, and metabolomics is necessary to achieve full understanding of biological processes and disease. Recent technological...
doctoral thesis 2019
document
Zhao, Shidi (author), Restrepo Perez, L. (author), Soskine, Misha (author), Maglia, Giovanni (author), Joo, C. (author), Dekker, C. (author), Aksimentiev, A. (author)
Ion channels form the basis of information processing in living cells by facilitating the exchange of electrical signals across and along cellular membranes. Applying the same principles to man-made systems requires the development of synthetic ion channels that can alter their conductance in response to a variety of external manipulations....
journal article 2019
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Restrepo Perez, L. (author), Joo, C. (author), Dekker, C. (author)
Proteins are major building blocks of life. The protein content of a cell and an organism provides key information for the understanding of biological processes and disease. Despite the importance of protein analysis, only a handful of techniques are available to determine protein sequences, and these methods face limitations, for example,...
review 2018
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Yang, W.W.W. (author), Restrepo Perez, L. (author), Bengtson, M.L. (author), Heerema, S.J. (author), Birnie, A.T.F. (author), van der Torre, J. (author), Dekker, C. (author)
Solid-state nanopores have emerged as promising platforms for biosensing including diagnostics for disease detection. Here we show nanopore experiments that detect CRISPR-dCas9, a sequence-specific RNA-guided protein system that specifically binds to a target DNA sequence. While CRISPR-Cas9 is acclaimed for its gene editing potential, the...
journal article 2018
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Restrepo Perez, L. (author), John, Shalini (author), Aksimentiev, Aleksei (author), Joo, C. (author), Dekker, C. (author)
Using nanopores for single-molecule sequencing of proteins – similar to nanopore-based sequencing of DNA – faces multiple challenges, including unfolding of the complex tertiary structure of the proteins and enforcing their unidirectional translocation through nanopores. Here, we combine molecular dynamics (MD) simulations with single-molecule...
journal article 2017
Searched for: author:"Restrepo Perez, L."
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