| TCID | Name | Domain | Kingdom/Phylum | Protein(s) |
|---|---|---|---|---|
|
9.B.51.1.1 | Membrane DUF202 protein of 115 aas and 3 TMSs, YidH. YidH exhibits large tertiary structural fluctuations such as an opening between helices or the presence of large rotational dynamics of the helices (Eichmann et al. 2014). | Bacteria |
Pseudomonadota | YidH of E. coli |
|
9.B.51.1.2 | Uncharacterized DUF202 protein of 120 aas and 3 TMSs | Bacteria |
Bacillota | DUF202 protein of Bacillus firmus |
|
9.B.51.1.3 | Uncharacterized protein of 109 aas and 3 TMSs. | Bacteria |
Chlamydiota | UP of Waddlia chondrophila |
|
9.B.51.1.4 | pf02656 domain containing protein with 351 aas and 3 C-terminal TMSs. | Eukaryota |
Fungi, Ascomycota | pf02656 domain protein of Colletotrichum orbiculare |
|
9.B.51.1.5 | Uncharacterized protein of 149 aas and 3 TMSs. | Eukaryota |
Fungi, Ascomycota | UP of Scheffersomyces stipitis (Pichia stipitis) |
|
9.B.51.1.6 | VTC1 or PHM4 protein of 129 aas and 3 TMSs. This protein corresponds to the C-terminal domain of polyphosphate polymerase (TC# 4..E.1) (GerasimaitÄ— et al. 2014). VTC proteins influence the vacuolar H+-ATPase (V-ATPase) as well as vacuolar H+ uptake. Like the V-ATPase V0 sectors, VTCs are important factors in vacuolar membrane fusion (Müller et al. 2003). | Eukaryota |
Fungi, Ascomycota | VTC1 of Saccharomyces cerevisiae |
|
9.B.51.1.7 | DUF202 protein of 115 aas and 3 TMSs | Bacteria |
Actinomycetota | DUF202 protein of Rhodococcus opacus |
|
9.B.51.1.8 | Vacuolar transport chaperone-like protein, Vtc1, of 158 aas and 3 TMSs. | Eukaryota |
Viridiplantae, Chlorophyta | Vtc1 of Chlamydomonas reinhardtii (Chlamydomonas smithii) |
|
9.B.51.1.9 | Uncharacterized protein of 128 aas and 3 TMSs. | Eukaryota |
Viridiplantae, Chlorophyta | UP of Chlamydomonas reinhardtii (Chlamydomonas smithii) |