Ashwaria Mehra scite author profile

Inteins are mobile genetic elements that apply standard enzymatic strategies to excise themselves post-translationally from the precursor protein via protein splicing. Since their discovery in the 1990s, recent advances in intein technology allow for them to be implemented as a modern biotechnological contrivance. Radical improvement in the structure and catalytic framework of cis- and trans-splicing inteins devised the development of engineered inteins that contribute to various efficient downstream techniques. Previous literature indicates that implementation of intein-mediated splicing has been extended to in vivo systems. Besides, the homing endonuclease domain also acts as a versatile biotechnological tool involving genetic manipulation and control of monogenic diseases. This review orients the understanding of inteins by sequentially studying the distribution and evolution pattern of intein, thereby highlighting a role in genetic mobility. Further, we include an in-depth summary of specific applications branching from protein purification using self-cleaving tags to protein modification, post-translational processing and labelling, followed by the development of intein-based biosensors. These engineered inteins offer a disruptive approach towards research avenues like biomaterial construction, metabolic engineering and synthetic biology. Therefore, this linear perspective allows for a more comprehensive understanding of intein function and its diverse applications.

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Metal effect on intein splicing: A review

Panda

Nanda

Nasker

et al. 2021

Biochimie

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Metal regulation of Mycobacterium tuberculosis SufB intein splicing at the host–pathogen crossroad

Panda

Nanda

Nasker

et al. 2023

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Intein sequences self-excise from precursor proteins to generate functional proteins in various organisms. Thus, regulation of intein splicing at the host pathogen interface can determine the fate of infection by controlling generation of essential proteins in microbes. For instance, Mycobacterium tuberculosis (Mtu) SufB intein splicing is crucial for the functionality of SUF complex. This multi-protein system is the sole pathway for [Fe-S] cluster biogenesis in mycobacteria during oxidative stress and Fe starvation. Although, metal toxicity and metal starvation are components of host immunity, correlation of metal stress to Mtu SufB intein splicing, is missing till date. Current study examines the splicing and N-terminal cleavage reactions of Mtu SufB precursor protein in presence of micronutrient metal ions like Zn+2, Cu+2, and Fe+3/+2 . A known intein splicing inhibitor Pt+4 was also tested to support its proposed role as an anti-TB agent. Mtu SufB precursor protein exhibited significant attenuation of splicing and N-terminal cleavage reactions across different concentration ranges for Pt+4, Cu+2, Zn+2 while Fe+3 interaction resulted in precursor accumulation. UV-Vis spectroscopy, ICP-OES, Tryptophan fluorescence assay, and DLS techniques analyzed metal~protein interaction. Mutagenesis experiments and Ellman’s assay identified plausible metal-coordination sites within Mtu SufB protein. Analyzing the metal effect on Mtu SufB splicing may provide elemental information about the fate of mycobacterial infection, and a probable mechanism to attenuate intracellular survival of Mtu. Current research hints at the host regulatory mechanism on SufB splicing in its native environment and a likely target for developing next generation anti-TB drugs.

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Ashwaria Mehra

Inteins in Science: Evolution to Application

Metal effect on intein splicing: A review

Metal regulation of Mycobacterium tuberculosis SufB intein splicing at the host–pathogen crossroad

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