DEVELOPMENT OF DNA APTAMER SEQUENCE AS BIOSENSOR DETECTING NT-PROBNP A BIOMARKER OF HEART FAILURE
Heart failure disease requires a diagnosis as soon as possible to prevent patient death. NT-proBNP is a stable biomarker in blood that can be used to specifically detect heart failure. Diagnostic kits for detecting NT-proBNP in the market nowadays utilise antibodies as bioreceptors. On the other...
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id-itb.:847032024-08-16T14:47:16ZDEVELOPMENT OF DNA APTAMER SEQUENCE AS BIOSENSOR DETECTING NT-PROBNP A BIOMARKER OF HEART FAILURE Marcius, Donny Indonesia Theses aptasensor, truncation, mutagenesis, gold nanoparticles. INSTITUT TEKNOLOGI BANDUNG https://digilib.itb.ac.id/gdl/view/84703 Heart failure disease requires a diagnosis as soon as possible to prevent patient death. NT-proBNP is a stable biomarker in blood that can be used to specifically detect heart failure. Diagnostic kits for detecting NT-proBNP in the market nowadays utilise antibodies as bioreceptors. On the other hand, aptamers, singlestranded oligonucleotides, offer various advantages compared to antibodies such as lower cost of production and stability. The NT-proBNP aptamer obtained from the previous study still showed weakness in ta structure parts which do not contribute to complex formation. This research aimed to optimize the aptamer sequence to obtain a new sequence that can interact stronger and more stably with NT-proBNP without any non-essential structures. The methods comprise aptamer sequence optimization through computational modification, in silico evaluation, and in vitro experiments for confirmation. Aptamer from SELEX is optimized utilizing sequence truncation and structure similarity-guided random mutations. Binding strength is evaluated by molecular docking score as well as interaction profiles and molecular dynamics simulation is used to assess the stability of aptamer-protein complex. A colorimetric sensor based on gold nanoparticles (AuNPs) aggregation assay is used to confirm the results in vitro. The improvement of aptamer binding strength to NT-proBNP was demonstrated by the more negative values of docking score (?68.8 ± 24.1 to ?91.1 ± 5.5) and the MM/GBSA’s free binding energy (?538.5 ± 67.7 kJ/mol to ?580.1 ± 53.3 kJ/mol). A fifty nanoseconds molecular dynamics’ structural and energetic stability analysis revealed more robust and stable interactions during binding with NT-proBNP. After performing assay conditions optimization (50 ?L of 50 mM NaCl and a concentration of 0.5 ?M for the SELEX-obtained aptamer and 5 ?M for the in silico-optimized aptamer), the AuNP aggregation assay indicated that the limit of detection for detecting NTproBNP using the in silico-optimized aptamer (0.5 ng/mL) was lower compared to that obtained through SELEX (2.3 ng/mL). This research successfully improved the performance of aptamer in detecting NT-proBNP through in silico sequence optimization, suggesting potential applications for enhancing protein-targeting DNA aptamers. text |
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Heart failure disease requires a diagnosis as soon as possible to prevent patient
death. NT-proBNP is a stable biomarker in blood that can be used to specifically
detect heart failure. Diagnostic kits for detecting NT-proBNP in the market
nowadays utilise antibodies as bioreceptors. On the other hand, aptamers, singlestranded
oligonucleotides, offer various advantages compared to antibodies such
as lower cost of production and stability. The NT-proBNP aptamer obtained from
the previous study still showed weakness in ta structure parts which do not
contribute to complex formation. This research aimed to optimize the aptamer
sequence to obtain a new sequence that can interact stronger and more stably with
NT-proBNP without any non-essential structures. The methods comprise aptamer
sequence optimization through computational modification, in silico evaluation,
and in vitro experiments for confirmation. Aptamer from SELEX is optimized
utilizing sequence truncation and structure similarity-guided random mutations.
Binding strength is evaluated by molecular docking score as well as interaction
profiles and molecular dynamics simulation is used to assess the stability of
aptamer-protein complex. A colorimetric sensor based on gold nanoparticles
(AuNPs) aggregation assay is used to confirm the results in vitro. The improvement
of aptamer binding strength to NT-proBNP was demonstrated by the more negative
values of docking score (?68.8 ± 24.1 to ?91.1 ± 5.5) and the MM/GBSA’s free
binding energy (?538.5 ± 67.7 kJ/mol to ?580.1 ± 53.3 kJ/mol). A fifty nanoseconds
molecular dynamics’ structural and energetic stability analysis revealed more
robust and stable interactions during binding with NT-proBNP. After performing
assay conditions optimization (50 ?L of 50 mM NaCl and a concentration of 0.5
?M for the SELEX-obtained aptamer and 5 ?M for the in silico-optimized aptamer),
the AuNP aggregation assay indicated that the limit of detection for detecting NTproBNP
using the in silico-optimized aptamer (0.5 ng/mL) was lower compared to
that obtained through SELEX (2.3 ng/mL). This research successfully improved the
performance of aptamer in detecting NT-proBNP through in silico sequence
optimization, suggesting potential applications for enhancing protein-targeting
DNA aptamers. |
| format |
Theses |
| author |
Marcius, Donny |
| spellingShingle |
Marcius, Donny DEVELOPMENT OF DNA APTAMER SEQUENCE AS BIOSENSOR DETECTING NT-PROBNP A BIOMARKER OF HEART FAILURE |
| author_facet |
Marcius, Donny |
| author_sort |
Marcius, Donny |
| title |
DEVELOPMENT OF DNA APTAMER SEQUENCE AS BIOSENSOR DETECTING NT-PROBNP A BIOMARKER OF HEART FAILURE |
| title_short |
DEVELOPMENT OF DNA APTAMER SEQUENCE AS BIOSENSOR DETECTING NT-PROBNP A BIOMARKER OF HEART FAILURE |
| title_full |
DEVELOPMENT OF DNA APTAMER SEQUENCE AS BIOSENSOR DETECTING NT-PROBNP A BIOMARKER OF HEART FAILURE |
| title_fullStr |
DEVELOPMENT OF DNA APTAMER SEQUENCE AS BIOSENSOR DETECTING NT-PROBNP A BIOMARKER OF HEART FAILURE |
| title_full_unstemmed |
DEVELOPMENT OF DNA APTAMER SEQUENCE AS BIOSENSOR DETECTING NT-PROBNP A BIOMARKER OF HEART FAILURE |
| title_sort |
development of dna aptamer sequence as biosensor detecting nt-probnp a biomarker of heart failure |
| url |
https://digilib.itb.ac.id/gdl/view/84703 |
| _version_ |
1822010466535211008 |