Abstract
With the advancement in proteomics and bioinformatics, it is paramount to predict the causes of aggregation in all Human Hydrolase Enzymes (HHE), which have more tendencies to aggregate. Protein aggregation is associated with manifold pathological and neurodegenerative diseases because of amyloid fibrillation. Physico-chemical factors responsible for aggregation were studied in details. The positional dependencies of amylogenic regions in active participation for aggregation in HHE were correlated and brought into limelight through this study. Novel deductions from several studies in this research revealed that helical regions in the N-Terminal amylogenic regions mainly contributed for aggregation in HHE, especially for the ones having acidic theoretical pI. The presence of aggregation-prone highly fluctuating amino acid residues mainly in N-Terminal amylogenic regions was also explored. Withal, mutational alterations in the active sites, that could reduce net aggregation propensity and free energy of folding of entire HHE family leading to better foldability and reduction in the chances for the neurodegenerative disorders to be caused were also discerned with supportive statistical significance.
Keywords: Amylogenic regions, free energy of folding, folding rate, mutational alteration, protein aggregation.
Current Biotechnology
Title:A Proteome-Level Computational Biology Insight on Sequence Based Aggregation Propensity Profile of Human Hydrolase Structural Enzymes
Volume: 4 Issue: 1
Author(s): Sujay Ray and Arundhati Banerjee
Affiliation:
Keywords: Amylogenic regions, free energy of folding, folding rate, mutational alteration, protein aggregation.
Abstract: With the advancement in proteomics and bioinformatics, it is paramount to predict the causes of aggregation in all Human Hydrolase Enzymes (HHE), which have more tendencies to aggregate. Protein aggregation is associated with manifold pathological and neurodegenerative diseases because of amyloid fibrillation. Physico-chemical factors responsible for aggregation were studied in details. The positional dependencies of amylogenic regions in active participation for aggregation in HHE were correlated and brought into limelight through this study. Novel deductions from several studies in this research revealed that helical regions in the N-Terminal amylogenic regions mainly contributed for aggregation in HHE, especially for the ones having acidic theoretical pI. The presence of aggregation-prone highly fluctuating amino acid residues mainly in N-Terminal amylogenic regions was also explored. Withal, mutational alterations in the active sites, that could reduce net aggregation propensity and free energy of folding of entire HHE family leading to better foldability and reduction in the chances for the neurodegenerative disorders to be caused were also discerned with supportive statistical significance.
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Cite this article as:
Ray Sujay and Banerjee Arundhati, A Proteome-Level Computational Biology Insight on Sequence Based Aggregation Propensity Profile of Human Hydrolase Structural Enzymes, Current Biotechnology 2015; 4 (1) . https://dx.doi.org/10.2174/2211550104666150403230931
DOI https://dx.doi.org/10.2174/2211550104666150403230931 |
Print ISSN 2211-5501 |
Publisher Name Bentham Science Publisher |
Online ISSN 2211-551X |
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