Mapping N- and C-terminals of Leishmania donovani tyrosine aminotransferase by gene truncation strategy: a functional study using in vitro and in silico approaches
Abstract Tyrosine aminotransferase (TAT) catalyzes the transamination of amino acids in Leishmania sp.. TAT from Leishmania donovani has been found to be extremely stable at extreme temperatures and pH conditions. This study was conceived to map the functions of the non-conserved N-terminal and cons...
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Formato: | article |
Lenguaje: | EN |
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Nature Portfolio
2020
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Materias: | |
Acceso en línea: | https://doaj.org/article/936c00f3dbe64414b436bbd4b80b5654 |
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Sumario: | Abstract Tyrosine aminotransferase (TAT) catalyzes the transamination of amino acids in Leishmania sp.. TAT from Leishmania donovani has been found to be extremely stable at extreme temperatures and pH conditions. This study was conceived to map the functions of the non-conserved N-terminal and conserved C-terminal domain of TAT. N-terminal (NTAT) and C-terminal (CTAT) domain of TAT was truncated and cloned into the pET28a(+) vector. The truncated proteins were expressed, purified, and biochemically characterized. The K m of NTAT and CTAT for the tyrosine-pyruvate pair was determined to be 3.468 ± 0.796 mM and 4.581 ± 0.627 mM, repectively. Temperature and pH stability studies found NTAT to be stable like TAT but CTAT was extremely susceptible to temperature and pH changes. Upon docking and simulation for 100 ns, NTAT had lower SASA values. From UV spectroscopic study, PLP bound better to CTAT than NTAT because of the reduced SASA of NTAT. The sensitivity of CTAT was reasoned when the urea denaturation studies showed two-state denaturation which differed from NTAT’s and TAT’s biphasic folding mechanism. From this study, the authors hypothesize that the N-terminal is responsible for PLP stabilization and C-terminal protects the active site from extreme conditions. |
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