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RISS 인기검색어
- 검색키워드
- 저자 : Mohammad Uzzal Hossain (검색결과 4 건)
- 무료
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Hasan, Md. Anayet,Mazumder, Md. Habibul Hasan,Khan, Md. Arif,Hossain, Mohammad Uzzal,Chowdhury, A.S.M. Homaun Kabir Korea Genome Organization 2014 Genomics & informatics Vol.12 No.4
The harshness of legionellosis differs from mild Pontiac fever to potentially fatal Legionnaire's disease. The increasing development of drug resistance against legionellosis has led to explore new novel drug targets. It has been found that phosphoglucosamine mutase, phosphomannomutase, and phosphoglyceromutase enzymes can be used as the most probable therapeutic drug targets through extensive data mining. Phosphoglucosamine mutase is involved in amino sugar and nucleotide sugar metabolism. The purpose of this study was to predict the potential target of that specific drug. For this, the 3D structure of phosphoglucosamine mutase of Legionella pneumophila (strain Paris) was determined by means of homology modeling through Phyre2 and refined by ModRefiner. Then, the designed model was evaluated with a structure validation program, for instance, PROCHECK, ERRAT, Verify3D, and QMEAN, for further structural analysis. Secondary structural features were determined through self-optimized prediction method with alignment (SOPMA) and interacting networks by STRING. Consequently, we performed molecular docking studies. The analytical result of PROCHECK showed that 95.0% of the residues are in the most favored region, 4.50% are in the additional allowed region and 0.50% are in the generously allowed region of the Ramachandran plot. Verify3D graph value indicates a score of 0.71 and 89.791, 1.11 for ERRAT and QMEAN respectively. Arg419, Thr414, Ser412, and Thr9 were found to dock the substrate for the most favorable binding of S-mercaptocysteine. However, these findings from this current study will pave the way for further extensive investigation of this enzyme in wet lab experiments and in that way assist drug design against legionellosis.
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Md. Anayet Hasan,Md. Habibul Hasan Mazumder,Md. Arif Khan,Mohammad Uzzal Hossain,A. S. M. Homaun Kabir Chowdhury 한국유전체학회 2014 Genomics & informatics Vol.12 No.4
The harshness of legionellosis differs from mild Pontiac fever to potentially fatal Legionnaire’s disease. The increasingdevelopment of drug resistance against legionellosis has led to explore new novel drug targets. It has been found thatphosphoglucosamine mutase, phosphomannomutase, and phosphoglyceromutase enzymes can be used as the mostprobable therapeutic drug targets through extensive data mining. Phosphoglucosamine mutase is involved in amino sugarand nucleotide sugar metabolism. The purpose of this study was to predict the potential target of that specific drug. For this,the 3D structure of phosphoglucosamine mutase of Legionella pneumophila (strain Paris) was determined by means ofhomology modeling through Phyre2 and refined by ModRefiner. Then, the designed model was evaluated with a structurevalidation program, for instance, PROCHECK, ERRAT, Verify3D, and QMEAN, for further structural analysis. Secondarystructural features were determined through self-optimized prediction method with alignment (SOPMA) and interactingnetworks by STRING. Consequently, we performed molecular docking studies. The analytical result of PROCHECK showedthat 95.0% of the residues are in the most favored region, 4.50% are in the additional allowed region and 0.50% are in thegenerously allowed region of the Ramachandran plot. Verify3D graph value indicates a score of 0.71 and 89.791, 1.11 forERRAT and QMEAN respectively. Arg419, Thr414, Ser412, and Thr9 were found to dock the substrate for the most favorablebinding of S-mercaptocysteine. However, these findings from this current study will pave the way for further extensiveinvestigation of this enzyme in wet lab experiments and in that way assist drug design against legionellosis.
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Ferdous, Nadim,Reza, Mahjerin Nasrin,Emon, Md. Tabassum Hossain,Islam, Md. Shariful,Mohiuddin, A.K.M.,Hossain, Mohammad Uzzal Korea Genome Organization 2020 Genomics & informatics Vol.18 No.3
Streptomyces coelicolor is a gram-positive soil bacterium which is well known for the production of several antibiotics used in various biotechnological applications. But numerous proteins from its genome are considered hypothetical proteins. Therefore, the present study aimed to reveal the functions of a hypothetical protein from the genome of S. coelicolor. Several bioinformatics tools were employed to predict the structure and function of this protein. Sequence similarity was searched through the available bioinformatics databases to find out the homologous protein. The secondary and tertiary structure were predicted and further validated with quality assessment tools. Furthermore, the active site and the interacting proteins were also explored with the utilization of CASTp and STRING server. The hypothetical protein showed the important biological activity having with two functional domain including POD-like_MBL-fold and rhodanese homology domain. The functional annotation exposed that the selected hypothetical protein could show the hydrolase activity. Furthermore, protein-protein interactions of selected hypothetical protein revealed several functional partners those have the significant role for the bacterial survival. At last, the current study depicts that the annotated hypothetical protein is linked with hydrolase activity which might be of great interest to the further research in bacterial genetics.
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Hypothetical protein predicted to be tumor suppressor: a protein functional analysis
Kader, Md. Abdul,Ahammed, Akash,Khan, Md. Sharif,Ashik, Sheikh Abdullah Al,Islam, Md. Shariful,Hossain, Mohammad Uzzal Korea Genome Organization 2022 Genomics & informatics Vol.20 No.1
Litorilituus sediminis is a Gram-negative, aerobic, novel bacterium under the family of Colwelliaceae, has a stunning hypothetical protein containing domain called von Hippel-Lindau that has significant tumor suppressor activity. Therefore, this study was designed to elucidate the structure and function of the biologically important hypothetical protein EMK97_00595 (QBG34344.1) using several bioinformatics tools. The functional annotation exposed that the hypothetical protein is an extracellular secretory soluble signal peptide and contains the von Hippel-Lindau (VHL; VHL beta) domain that has a significant role in tumor suppression. This domain is conserved throughout evolution, as its homologs are available in various types of the organism like mammals, insects, and nematode. The gene product of VHL has a critical regulatory activity in the ubiquitous oxygen-sensing pathway. This domain has a significant role in inhibiting cell proliferation, angiogenesis progression, kidney cancer, breast cancer, and colon cancer. At last, the current study depicts that the annotated hypothetical protein is linked with tumor suppressor activity which might be of great interest to future research in the higher organism.
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