1.B.4.2.19
RopB of 211 aas and 1 N-terminal TMS. RopA (TC# 1.B.70.1.2) and RopB, which have β-barrel structures, may be involved in the control of plant-microbial symbiosis. Kosolapova et al. 2019 demonstrated that the full-length RopA and RopB proteins form amyloid
fibrils in vitro. These fibrils are β-sheet-rich, bind
Thioflavin T (ThT), exhibit green birefringence upon staining with Congo
Red (CR), and resist treatment with ionic detergents and proteases.
Heterologously expressed RopA and RopB intracellularly aggregate in
yeast and assemble into amyloid fibrils at the surface of E. coli. The capsules of the R. leguminosarum cells bind CR, exhibit green birefringence, and contain fibrils of RopA and RopB in vivo (Kosolapova et al. 2019).
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| Accession Number: | AUW41727.1 |
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| Protein Name: | AUW41727.1 22 kDa outer membrane protein [Rhizobium leguminosarum] |
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| Length: | 212 |
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| Molecular Weight: | |
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| Species: | Rhizobium leguminosarum [384] |
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| Number of TMSs: | 1 |
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| Substrate |
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1: MRVLIAGLMA SVFAIAGVSA AQAADAVDQV PEAPVAQDAP VKPAGNWEGF YLGGAGTYNM
61: GDFGSDRHTY GFGGQVFTGY NWQQGQIVYG VESDLGYSGD DVSSGGVKNK YGWNGSVRGR
121: VGYDMNPFLL YGTAGLAIGD VKVSDGTSDE SKTNYGYTVG AGVEAFVTNN ITTRLEYRYT
181: DYQSKDYDLD SGSFSRGYDE NSVKLGIGVK F