Nishit Pathak scite author profile

To develop an efficient protein expression system, we designed a late embryogenesis abundant (LEA) peptide by mutating the LEA peptide constructed in our previous study (LEA-I). The peptide is based on the repeating units of an 11mer motif characteristic of LEA proteins from Polypedilum vanderplanki larvae. In the amino acid sequence of the 13mer LEA peptide, glycine at the 6th and 12th positions was replaced with other amino acids via point mutations. Glutamic acid, lysine, leucine, and asparagine in the LEA peptide at the 6th and 12th positions increased green fluorescence protein (GFP) expression. The GFP expression of the mutated LEA peptide was 1.5 to 2.0 times higher than that without LEA peptide. In contrast, the serine-containing mutated LEA peptide has low GFP expression levels. We hypothesize that the position of amino acids and the nature of amino acid in LEA peptide are important for our coexpression system. These data suggest that the size, structure, and charge of amino acids in the LEA peptide improve the protection and expression of the target protein. The amino acid balance also plays an important role in the expression of the target protein.

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Pandemic in India: Special reference to Covid-19 and its technological aspect

Gautam

Pathak²,

Ahamad

et al. 2021

Journal of Statistics and Management Systems

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Escherichia coli tolerance of ultraviolet radiation by in vivo expression of a short peptide designed from late embryogenesis abundant protein

Huwaidi

Pathak

Syahir

et al. 2018

Biochemical and Biophysical Research Communications

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Contributors

Abdulla¹,

Abraham²,

Abraham³

et al. 2023

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Nishit Pathak

In vivo expression of a short peptide designed from late embryogenesis abundant protein for enhancing abiotic stress tolerance in Escherichia coli

Construction and characterization of mutated LEA peptides in Escherichia coli to develop an efficient protein expression system

Pandemic in India: Special reference to Covid-19 and its technological aspect

Escherichia coli tolerance of ultraviolet radiation by in vivo expression of a short peptide designed from late embryogenesis abundant protein

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