TADB
Metallosphaera sedula DSM 5348 chromosome, complete genome. chromosome

# GENOME INFO
Genome size (bp) : 2191517
Link to NCBI Taxonomy Browser by Tax_id :399549
 
# TA INFO in replicon: NC_009440
#TypeToxinAntitoxinRegulatorLocationClassification(family/domain)
1 2 Msed_0338 Msed_0339 - 294778..295403 vapBC */RHH-PIN
2 2 Msed_0411 Msed_0412 - 363919..364595 vapBC */RHH-PIN
3 2 Msed_0489 Msed_0488 - 445080..445777 -/HEPN-MNT
4 2 Msed_0864 Msed_0865 - 798124..798767 vapBC */AbrB-PIN
5 2 Msed_0899 Msed_0898 - 832164..832749 vapBC */RHH-PIN
6 2 Msed_0908 Msed_0909 - 840238..840836 vapBC */RHH-PIN
7 2 Msed_0999 Msed_0998 - 921205..921956 -/HEPN-MNT
8 2 Msed_1044 Msed_1045 - 972025..972766 -/HEPN-MNT
9 2 Msed_1184 Msed_1183 - 1154671..1155286 vapBC */AbrB-PIN
10 2 Msed_1214 Msed_1215 - 1187711..1188338 vapBC */RHH-PIN
11 2 Msed_1278 Msed_1277 - 1254848..1255598 -/HEPN-MNT
12 2 Msed_1307 Msed_1308 - 1286412..1287058 vapBC */AbrB-PIN
13 2 Msed_1347 Msed_1348 - 1320590..1321325 -/HEPN-MNT
14 2 Msed_1385 Msed_1386 - 1360978..1361627 vapBC */RHH-PIN
15 2 Msed_1534 Msed_1535 - 1497041..1497647 vapBC */AbrB-PIN

: TA pair identified by RASTA-Bacteria .
* : TA family predicted based on the TA domain pair using the relationship in Table S2

The further putative TA pairs predicted by RASTA-Bacteria .
#ToxinDomain1Score1AntitoxinDomain2Score2Replicon
1Msed_0909-66.68Msed_0908VapC/PIN75.34NC_009440
2Msed_1215-65.77Msed_1214COG4113/PIN/COG184874.04NC_009440
3Msed_1246-62.97Msed_1245COG1848/PIN73.71NC_009440
4Msed_0339-65.26Msed_0338COG411373.41NC_009440
5Msed_0898-66.22Msed_0899COG4113/PIN72.01NC_009440
6Msed_1336-61.29Msed_1335HTH_471.82NC_009440
7Msed_0412-63.61Msed_0411COG4113/PIN71.24NC_009440
8Msed_2241-60.06Msed_2242PIN/COG1848/VapC/COG411372.6NC_009440
Note: The RASTA-Bacteria algorithm utilises rpsblast search and typical characteristics of TA loci, such as a two-gene, co-directed module coding for small proteins, to identify TA hits. RASTA-Bacteria TA pair hits with one score >70% and the other > 60% were recorded by TADB, this strict cut-off yields broadly reliable TA candidates.