PEMODELAN STRUKTUR PROTEIN RESEPTOR BETA-1 ADRENERGIK DENGAN METODE HOMOLOGY MODELLING
Human beta-1 adrenergic receptor (B1AR) is an adrenergic receptor which has important role in the sympathetic nervous system. Rational drug development on ligands for this receptor was hard to be performed as until this study was conducted there was no three-dimensional structure of B1AR availabl...
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| Format: | Final Project |
| Language: | Indonesia |
| Online Access: | https://digilib.itb.ac.id/gdl/view/54484 |
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| Institution: | Institut Teknologi Bandung |
| Language: | Indonesia |
| Summary: | Human beta-1 adrenergic receptor (B1AR) is an adrenergic receptor which has important role in the
sympathetic nervous system. Rational drug development on ligands for this receptor was hard to
be performed as until this study was conducted there was no three-dimensional structure of B1AR
available. The structure had not been elucidated through experimental methods such as X-Ray
Diffraction due to its instable properties. The aim of this study was to obtain three-dimentional
structure of B1AR by homology modelling approach. Modelling process was conducted through
several steps, such as protein template search, sequence alignment, model building, and validation
which was followed by refinement and further validation. The protein target sequence was taken
from the NCBI database with ascension number of NP_000675.1. Models were built using three
webservers, namely SWISSMODEL, MODWEB, and I-Tasser, and 4 models were generated: SM1,
SM2, WM1, and IT1. Validation process were performed using the following parameters:
clashscore, Ramachandran outlier, Ramachandran favoured, Rama distribution z-score, dan
QMEAN Z-score. SM2 was chosen to undergo the refinement process which was accomplished by
using the GalaxyRefine program. Refined model SM2-R5 was the best model with the following
values in validation: Ramachandran outlier 1,47% (1 outlier); Ramachandran favored 97,95%; Rama
Distribution Z-score -0,10 ± 0,37; dan QMEAN Z-score -2,93. In conclusion, SM2-R5 was predicted
to have the closest resemblance to the actual structure of B1AR protein.
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