Difference between revisions of "Part:BBa K4960002"
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===Usage and Biology=== | ===Usage and Biology=== | ||
| − | Photorhabdus virulence cassette (PVC) is one group of extracellular Contractile injection systems (CISs) that are cell-puncturing nanodevices and present in both bacteria and archaea.[1]In structure, PVCs are macromolecular complexes containing a rigid tube structure housed in a contractile sheath, which is anchored to a baseplate and sharpened by a spike protein.[2]<br> | + | Photorhabdus virulence cassette (PVC) is one group of extracellular Contractile injection systems (CISs) that are cell-puncturing nanodevices and present in both bacteria and archaea.[1]In structure, PVCs are macromolecular complexes containing a rigid tube structure housed in a contractile sheath, which is anchored to a baseplate and sharpened by a spike protein.[2](Figure1,Figure2)<br> |
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| − | The sheath in the pre-contraction state is composed of 23 stacked hexameric rings of sheath proteins, Pvc4, Pvc3, and Pvc2. A part of sheath, comprises alternating Pvc2 and Pvc3 subunits, which both interact with Pvc1. The PVC sheath body is predominantly made of Pvc2 hexamers, and deletion of the main sheath protein Pvc2 results in sheath-free particles. <br> | + | Figure1:PVC illustrations<br> |
| + | Figure2:Payload illustrations<br> | ||
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| + | The sheath in the pre-contraction state is composed of 23 stacked hexameric rings of sheath proteins, Pvc4, Pvc3, and Pvc2. A part of sheath, comprises alternating Pvc2 and Pvc3 subunits, which both interact with Pvc1. The PVC sheath body is predominantly made of Pvc2 hexamers,(Figure.3) and deletion of the main sheath protein Pvc2 results in sheath-free particles. <br> | ||
Among the three, Pvc2 has the simplest structure, which closely relates to the R-type pyocin sheath protein. Pvc2 is consisted of two major domains (domain I and II) <br> | Among the three, Pvc2 has the simplest structure, which closely relates to the R-type pyocin sheath protein. Pvc2 is consisted of two major domains (domain I and II) <br> | ||
Pvc2 starts to assemble along the inner tube for the maturation of PVC particles with Pvc3 at the end of assembly.<br> | Pvc2 starts to assemble along the inner tube for the maturation of PVC particles with Pvc3 at the end of assembly.<br> | ||
| − | <html> | + | <html>(Figure.4) |
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| − | + | Figure3.The proteins consisting of the pvc | |
| + | Figure4.The protein pvc2 encodes | ||
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<span class='h3bb'>Sequence and Features</span> | <span class='h3bb'>Sequence and Features</span> | ||
Revision as of 19:34, 10 October 2023
pvc2
Properties
Pvc2 is a part of the sheath.
Usage and Biology
Photorhabdus virulence cassette (PVC) is one group of extracellular Contractile injection systems (CISs) that are cell-puncturing nanodevices and present in both bacteria and archaea.[1]In structure, PVCs are macromolecular complexes containing a rigid tube structure housed in a contractile sheath, which is anchored to a baseplate and sharpened by a spike protein.[2](Figure1,Figure2)
Figure2:Payload illustrations
The sheath in the pre-contraction state is composed of 23 stacked hexameric rings of sheath proteins, Pvc4, Pvc3, and Pvc2. A part of sheath, comprises alternating Pvc2 and Pvc3 subunits, which both interact with Pvc1. The PVC sheath body is predominantly made of Pvc2 hexamers,(Figure.3) and deletion of the main sheath protein Pvc2 results in sheath-free particles.
Among the three, Pvc2 has the simplest structure, which closely relates to the R-type pyocin sheath protein. Pvc2 is consisted of two major domains (domain I and II)
Pvc2 starts to assemble along the inner tube for the maturation of PVC particles with Pvc3 at the end of assembly.
(Figure.4)
- 10COMPATIBLE WITH RFC[10]
- 12COMPATIBLE WITH RFC[12]
- 21COMPATIBLE WITH RFC[21]
- 23COMPATIBLE WITH RFC[23]
- 25COMPATIBLE WITH RFC[25]
- 1000COMPATIBLE WITH RFC[1000]
Reference
[1]Kreitz J, Friedrich MJ, Guru A, Lash B, Saito M, Macrae RK, Zhang F. Programmable protein delivery with a bacterial contractile injection system. Nature. 2023 Apr;
[2]Jiang F, Li N, Wang X, Cheng J, Huang Y, Yang Y, Yang J, Cai B, Wang YP, Jin Q, Gao N. Cryo-EM Structure and Assembly of an Extracellular Contractile Injection System. Cell. 2019 Apr