Difference between revisions of "Part:BBa K4140021"

(Characterization of Mutational Landscape)
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After creating a multiple sequence alignment of the protein sequence and predicting mutational landscapes, the effect of these mutations on the evolutionary fitness of the protein is tested. The prediction of the mutational landscape by saturation mutagenesis of the Acr||A5 v2 anti-crisper protein. The (R32E) mutation, as depicted in the chart, had the greatest score when compared to other mutations. On the other hand, it's clear that the (G42K) had the least evolutionary fitness for Acr||A5 v2 anti-crisper protein. As displayed in Figure(1)
 
After creating a multiple sequence alignment of the protein sequence and predicting mutational landscapes, the effect of these mutations on the evolutionary fitness of the protein is tested. The prediction of the mutational landscape by saturation mutagenesis of the Acr||A5 v2 anti-crisper protein. The (R32E) mutation, as depicted in the chart, had the greatest score when compared to other mutations. On the other hand, it's clear that the (G42K) had the least evolutionary fitness for Acr||A5 v2 anti-crisper protein. As displayed in Figure(1)
  
[[File:Acr.png|thumb|Right|Figure 1. (shows the mutational landscape of the Acr A5 v2 anti-crisper protein.) ]]
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[[File:Acr.png|Right| ]]
 
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Figure 1. shows the mutational landscape of the Acr A5 v2 anti-crisper protein.
 
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==Literarture Characterization==
 
==Literarture Characterization==
 
AcrIIA5 Inhibits Genome Editing Mediated by Type II-A and Type II-C CRISPR Systems in Mammalian Cells:
 
AcrIIA5 Inhibits Genome Editing Mediated by Type II-A and Type II-C CRISPR Systems in Mammalian Cells:

Revision as of 14:37, 7 October 2022


AcrIIA5 v2 anti-CRISPR


Part Description

Anti CRISPR for Cas12g Anti CRISPR are small proteins (approximately, 12–193 amino acids) which have become, quickly a new method to regulate CRISPR system activity by altering the nuclease activity or hindering binding to the target gene


Usage

We have thought to work on developing powerful protein designs to enable us to control the specificity and limit off-targeting of cas proteins. We have been relying on our protein evolution models that use deep learning to develop and predict new mutants of anti crispr proteins that are cas-specific and can act as an on-demand safety component for cas-based biosynthetic designs. This biosafety aspect is integrated with our therapeutic project for this year to develop our sensitive therapeutic design with natural brake elements (Acr-proteins) deployed to assure the safety of our design.

Characterization of Mutational Landscape

After creating a multiple sequence alignment of the protein sequence and predicting mutational landscapes, the effect of these mutations on the evolutionary fitness of the protein is tested. The prediction of the mutational landscape by saturation mutagenesis of the Acr||A5 v2 anti-crisper protein. The (R32E) mutation, as depicted in the chart, had the greatest score when compared to other mutations. On the other hand, it's clear that the (G42K) had the least evolutionary fitness for Acr||A5 v2 anti-crisper protein. As displayed in Figure(1)

Acr.png Figure 1. shows the mutational landscape of the Acr A5 v2 anti-crisper protein.













Literarture Characterization

AcrIIA5 Inhibits Genome Editing Mediated by Type II-A and Type II-C CRISPR Systems in Mammalian Cells:
In this study, they temporarily co-transfected mouse Neuro-2a (N2a) or human HEK293T cells with plasmids encoding anti-CRISPR proteins, Cas9s, and their corresponding sgRNAs designed to target specific genomic regions in order to check whether AcrIIA5 might impede genome editing mediated by the four Cas9 homologs frequently utilised for genome-editing purposes in mammalian cells.The results demonstrate that AcrIIA5 effectively supresses four different Cas9 proteins (Nme1Cas9, SpyCas9, CjeCas9, and SauCas9) from editing the genome in vivo in both bacterial and mammalian cells. Additionally, AcrIIA5 blocks genome editing with an inhibitory strength comparable to that of earlier anti-CRISPRs.

Figure 2. AcrIIA5 Inhibits Genome Editing Mediated by Nme1Cas9, SpyCas9, CjeCas9, and SauCas9 in Mammalian Cells





























References

1. Garcia, B., Lee, J., Edraki, A., Hidalgo-Reyes, Y., Erwood, S., Mir, A., ... & Davidson, A. R. (2019). Anti-CRISPR AcrIIA5 potently inhibits all Cas9 homologs used for genome editing. Cell reports, 29(7), 1739-1746.‏ Sequence and Features


Assembly Compatibility:
  • 10
    INCOMPATIBLE WITH RFC[10]
    Illegal EcoRI site found at 31
    Illegal EcoRI site found at 521
    Illegal XbaI site found at 25
    Illegal XbaI site found at 530
    Illegal SpeI site found at 19
    Illegal SpeI site found at 539
    Illegal PstI site found at 1
    Illegal PstI site found at 565
  • 12
    INCOMPATIBLE WITH RFC[12]
    Illegal EcoRI site found at 31
    Illegal EcoRI site found at 521
    Illegal SpeI site found at 19
    Illegal SpeI site found at 539
    Illegal PstI site found at 1
    Illegal PstI site found at 565
    Illegal NotI site found at 43
    Illegal NotI site found at 502
  • 21
    INCOMPATIBLE WITH RFC[21]
    Illegal EcoRI site found at 31
    Illegal EcoRI site found at 521
    Illegal BglII site found at 13
    Illegal BglII site found at 548
    Illegal BamHI site found at 37
    Illegal BamHI site found at 513
  • 23
    INCOMPATIBLE WITH RFC[23]
    Illegal EcoRI site found at 31
    Illegal EcoRI site found at 521
    Illegal XbaI site found at 25
    Illegal XbaI site found at 530
    Illegal SpeI site found at 19
    Illegal SpeI site found at 539
    Illegal PstI site found at 1
    Illegal PstI site found at 565
  • 25
    INCOMPATIBLE WITH RFC[25]
    Illegal EcoRI site found at 31
    Illegal EcoRI site found at 521
    Illegal XbaI site found at 25
    Illegal XbaI site found at 530
    Illegal SpeI site found at 19
    Illegal SpeI site found at 539
    Illegal PstI site found at 1
    Illegal PstI site found at 565
  • 1000
    COMPATIBLE WITH RFC[1000]