Merge branch 'aherrero-main-patch-17592' into 'main'

Update nhi.md See merge request !104

Merge branch 'aherrero-main-patch-17592' into 'main'
Update nhi.md See merge request !104
2bc1473d · Jean CURY · 149475da · 5f99b7b7 · 2bc1473d
Commit 2bc1473d authored 1 year ago by Jean CURY
--- a/content/3.defense-systems/nhi.md
+++ b/content/3.defense-systems/nhi.md
@@ -6,13 +6,27 @@ tableColumns:
      doi: 10.1016/j.chom.2022.03.001
      abstract: |
        The perpetual arms race between bacteria and their viruses (phages) has given rise to diverse immune systems, including restriction-modification and CRISPR-Cas, which sense and degrade phage-derived nucleic acids. These complex systems rely upon production and maintenance of multiple components to achieve antiphage defense. However, the prevalence and effectiveness of minimal, single-component systems that cleave DNA remain unknown. Here, we describe a unique mode of nucleic acid immunity mediated by a single enzyme with nuclease and helicase activities, herein referred to as Nhi (nuclease-helicase immunity). This enzyme provides robust protection against diverse staphylococcal phages and prevents phage DNA accumulation in cells stripped of all other known defenses. Our observations support a model in which Nhi targets and degrades phage-specific replication intermediates. Importantly, Nhi homologs are distributed in diverse bacteria and exhibit functional conservation, highlighting the versatility of such compact weapons as major players in antiphage defense.
-    Sensor: Unknown
+    Sensor: Phage protein sensing
-    Activator: Unknown
+    Activator: Direct binding
-    Effector: Nucleic acid degrading (?)
+    Effector: Nucleic acid degrading
    PFAM: PF01443, PF09848, PF13604
+contributors:
+  - Alba Herrero del Valle
+relevantAbstracts:
+  - doi: 10.1016/j.chom.2022.03.001
+  - doi: 10.1016/j.chom.2022.09.017
 ---
 # Nhi
+## Description
+The Nhi (nuclease-helicase immunity) system targets and degrades specific phage DNA replication intermediates :ref{doi=10.1016/j.chom.2022.03.001}.  Nayeemul Bari et al. showed that Nhi from *Staphylococcus epidermidis* protects against a diverse panel of staphylococcal phages and Millman et al. showed that a protein Nhi-like (that shares the domain organization with Nhi but not the sequence) from *Bacillus cereus* protects against some Bacillus phages :ref{doi=10.1016/j.chom.2022.03.001,10.1016/j.chom.2022.09.017}. 
+## Molecular mechanisms
+Nhi contains two domains, a nuclease and a helicase domain that are both needed for the anti-phage activity. The nuclease domain has 3′–5′ exonuclease and plasmid nicking activities while the helicase unwinds dsDNA biderctionally. Nhi specifically recognizes phage single-stranded DNA binding proteins (SSB) that cover the phage genome to target this DNA for degradation thanks to its helicase and nuclease domains :ref{doi=10.1016/j.chom.2022.03.001}.
 ## Example of genomic structure
 The Nhi system is composed of one protein: Nhi.
@@ -108,13 +122,3 @@ end
    style Title3 fill:none,stroke:none,stroke-width:none
    style Title4 fill:none,stroke:none,stroke-width:none
 </mermaid>
-## Relevant abstracts
-::relevant-abstracts
---
-items:
-    - doi: 10.1016/j.chom.2022.03.001
---
-::