Zeshan Habib scite author profile

Protein-protein interaction (PPI) network maintains proper function of all organisms. Simple high-throughput technologies are desperately needed to delineate the landscape of PPI networks. While recent state-of-the-art yeast two-hybrid (Y2H) systems improved screening efficiency, either individual colony isolation, library preparation arrays, gene barcoding or massive sequencing are still required. Here, we developed a recombination-based ‘library vs library’ Y2H system (RLL-Y2H), by which multi-library screening can be accomplished in a single pool without any individual treatment. This system is based on the phiC31 integrase-mediated integration between bait and prey plasmids. The integrated fragments were digested by MmeI and subjected to deep sequencing to decode the interaction matrix. We applied this system to decipher the trans-kingdom interactome between Mycobacterium tuberculosis and host cells and further identified Rv2427c interfering with the phagosome–lysosome fusion. This concept can also be applied to other systems to screen protein–RNA and protein–DNA interactions and delineate signaling landscape in cells.

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Improving CRISPR-Cas9 On-Target Specificity

Jamal¹,

Ullah²,

Ahsan³

et al. 2018

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The CRISPR-Cas9 has revolutionized the field of molecular biology, medical genetics and medicine. The technology is robust, facile and simple to achieve genome targeting in cells and organisms. However, to propagate these nucleases for therapeutic application, the on-target specificity is of paramount importance. Although the binding and cleavage of off-target sites by Cas9 is issue of concern, however the specificity of CRISPR technology is greatly improved in current research employing the use of engineer nucleases, improved gRNA selection, novel Cas9 orhtologs and the advancement in methods to detect and screen off-target sites and its effects. Here we summarize the advances in this state-of-the-art technology that will equip the genome editing tools to be applied in clinical research. The researcher should optimize these methods with emphasize to achieve perfection in the specificity.

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Keeping CRISPR/Cas on-Target

Jamal

Khan²,

Lin³

et al. 2016

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Reprogramming Mycobacterium Tuberculosis CRISPR System for Gene Editing and Genome-Wide RNA Interference Screening

Rahman

Jamal

Chen

et al. 2021

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Mycobacterium tuberculosis is the causative agent of tuberculosis (TB), which is still the leading cause of mortality from a single infectious disease worldwide. The development of novel anti-TB drugs and vaccines is severely hampered by the complicated and time-consuming genetic manipulation techniques for M. tuberculosis. Here, we harnessed an endogenous type III-A CRISPR/Cas10 system of M. tuberculosis for efficient gene editing and RNA interference (RNAi). This simple and easy method only needs to transform a single mini-CRISPR array plasmid, thus avoiding the introduction of exogenous protein and minimizing proteotoxicity. We demonstrated that M. tuberculosis genes can be efficiently and specifically knocked in/out by this system as confirmed by DNA high-throughput sequencing. This system was further applied to single- and multiple-gene RNAi. Moreover, we successfully performed genome-wide RNAi screening to identify M. tuberculosis genes regulating in vitro and intracellular growth. This system can be extensively used for exploring the functional genomics of M. tuberculosis and facilitate the development of novel anti-TB drugs and vaccines.

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Prediction and evaluation of multi epitope based sub-unit vaccine against Salmonella typhimurium

Zafar

Ajab

Mughal

et al. 2022

Saudi Journal of Biological Sciences

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Zeshan Habib

Development and application of a recombination-based library versus library high- throughput yeast two-hybrid (RLL-Y2H) screening system

Improving CRISPR-Cas9 On-Target Specificity

Keeping CRISPR/Cas on-Target

Reprogramming Mycobacterium Tuberculosis CRISPR System for Gene Editing and Genome-Wide RNA Interference Screening

Prediction and evaluation of multi epitope based sub-unit vaccine against Salmonella typhimurium

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