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Genome wide analysis revealed conserved domains involved in the effector discrimination of bacterial type VI secretion system.

Caihong WangMingxing ChenYuhan ShaoMengyuan JiangQuanjie LiLihong ChenYun WuShan CenNicholas R WaterfieldJian YangGuowei Yang
Published in: Communications biology (2023)
Type VI secretion systems (T6SSs) deliver effectors into target cells. Besides structural and effector proteins, many other proteins, such as adaptors, co-effectors and accessory proteins, are involved in this process. MIX domains can assist in the delivery of T6SS effectors when encoded as a stand-alone gene or fused at the N-terminal of the effector. However, whether there are other conserved domains exhibiting similar encoding forms to MIX in T6SS remains obscure. Here, we scanned publicly available bacterial genomes and established a database which include 130,825 T6SS vgrG loci from 45,041 bacterial genomes. Based on this database, we revealed six domain families encoded within vgrG loci, which are either fused at the C-terminus of VgrG/N-terminus of T6SS toxin or encoded by an independent gene. Among them, DUF2345 was further validated and shown to be indispensable for the T6SS effector delivery and LysM was confirmed to assist the interaction between VgrG and the corresponding effector. Together, our results implied that these widely distributed domain families with similar genetic configurations may be required for the T6SS effector recruitment process.
Keyphrases
  • type iii
  • regulatory t cells
  • genome wide
  • dendritic cells
  • genome wide analysis
  • copy number
  • single cell
  • emergency department
  • gene expression
  • genome wide identification
  • endoplasmic reticulum stress
  • pi k akt