Detailed information
Overview
| Name | comA | Type | Machinery gene |
| Locus tag | KBP48_RS01815 | Genome accession | NZ_CP072932 |
| Coordinates | 446768..449245 (+) | Length | 825 a.a. |
| NCBI ID | WP_071869475.1 | Uniprot ID | - |
| Organism | Xylella fastidiosa subsp. multiplex strain BB08-1 | ||
| Function | DNA uptake (predicted from homology) DNA binding and uptake |
||
Genomic Context
Location: 441768..454245
| Locus tag | Gene name | Coordinates (strand) | Size (bp) | Protein ID | Product | Description |
|---|---|---|---|---|---|---|
| KBP48_RS01790 (KBP48_01790) | - | 442881..443666 (+) | 786 | WP_004085195.1 | succinate dehydrogenase iron-sulfur subunit | - |
| KBP48_RS01795 (KBP48_01795) | - | 443787..444035 (+) | 249 | WP_004085194.1 | succinate dehydrogenase assembly factor 2 | - |
| KBP48_RS01800 (KBP48_01800) | - | 443986..444438 (+) | 453 | WP_004089278.1 | hypothetical protein | - |
| KBP48_RS01805 (KBP48_01805) | - | 444464..445705 (+) | 1242 | WP_004085192.1 | lipoprotein-releasing ABC transporter permease subunit | - |
| KBP48_RS01810 (KBP48_01810) | lolD | 445698..446420 (+) | 723 | WP_161978297.1 | lipoprotein-releasing ABC transporter ATP-binding protein LolD | - |
| KBP48_RS01815 (KBP48_01815) | comA | 446768..449245 (+) | 2478 | WP_071869475.1 | DNA internalization-related competence protein ComEC/Rec2 | Machinery gene |
| KBP48_RS01820 (KBP48_01820) | exbB | 449230..449892 (+) | 663 | WP_004085189.1 | MotA/TolQ/ExbB proton channel family protein | Machinery gene |
| KBP48_RS01825 (KBP48_01825) | - | 449897..450334 (+) | 438 | WP_004089267.1 | biopolymer transporter ExbD | - |
| KBP48_RS01830 (KBP48_01830) | msbA | 450352..452100 (+) | 1749 | WP_004085187.1 | lipid A export permease/ATP-binding protein MsbA | - |
| KBP48_RS01835 (KBP48_01835) | lpxK | 452097..453116 (+) | 1020 | WP_004085186.1 | tetraacyldisaccharide 4'-kinase | - |
Sequence
Protein
Download Length: 825 a.a. Molecular weight: 90765.80 Da Isoelectric Point: 9.5856
>NTDB_id=485795 KBP48_RS01815 WP_071869475.1 446768..449245(+) (comA) [Xylella fastidiosa subsp. multiplex strain BB08-1]
MDDMKPEQRHMLQRCWVDVLSVIRHATCLRYLAFPALLPSAVALLLGCLAALTLPRLPPVWVLWIFLFVGVMLAVVVRRV
AWCGVVLFGFANCCLHGQFGLRHQLSFALEGRDLVLRGRIVSLPVPETRRTRFLLRVDTDQDQEPALRGRLLQLSWYDEN
KAVAPGPRSALHAGSVWQLHVRLRAPHSLMNPGGFDSERYALAQGIVATGYVRAPTMARELAAATGINAWRERMSARIAD
AVLLEASVYLRALALGDTRGLSQQDWEVLRATGLTHLIAISGFHVGMVAGACALLVSLLWRVFPHLAWRWPRPLAMALIA
VPAAAGYTVLAGASLPTVRTALMIGIVALARLTRRRAMPGHVLGLALLVVLVWDPLAILSAGFWLSFAGVAWLLWCMQDG
HAAPWRGFLSAQGVATLGLLPFTVALFGQVSFVGPLANLIAIPLWTFVVVPLALLGTALEALVPGWGSPMWRLGGNCFQW
SWQLFEYLAQTDFALWWLPESDGVALGLALLGAFWLLLPRGTPGKWLALLLWLPLLWPERERPRPGEFEMQMLDVGQGLS
IVVRTSGHTLLYDAGPAVNDGFDAGERVVVPALRASGIRRLDALVASHADSDHVGGLPAVLKAYPVDISYAPPDAPLDVQ
RRCSAGDSWLWDGVQFRFLHPAPHSRYLGNESSCVLRIDTRWGSALLTGDIGKVVERGLLSQDRESVRADVVVVPHHGSA
GSSSLGFVRAVNARLALVSSGDGNRFGHPRCSVVESWSETADVLLTAHSGAVRIWVGQQGLQLRERRVWRRRFWDAVERR
RSAAILSATEDVSKERRRNETCWNW
MDDMKPEQRHMLQRCWVDVLSVIRHATCLRYLAFPALLPSAVALLLGCLAALTLPRLPPVWVLWIFLFVGVMLAVVVRRV
AWCGVVLFGFANCCLHGQFGLRHQLSFALEGRDLVLRGRIVSLPVPETRRTRFLLRVDTDQDQEPALRGRLLQLSWYDEN
KAVAPGPRSALHAGSVWQLHVRLRAPHSLMNPGGFDSERYALAQGIVATGYVRAPTMARELAAATGINAWRERMSARIAD
AVLLEASVYLRALALGDTRGLSQQDWEVLRATGLTHLIAISGFHVGMVAGACALLVSLLWRVFPHLAWRWPRPLAMALIA
VPAAAGYTVLAGASLPTVRTALMIGIVALARLTRRRAMPGHVLGLALLVVLVWDPLAILSAGFWLSFAGVAWLLWCMQDG
HAAPWRGFLSAQGVATLGLLPFTVALFGQVSFVGPLANLIAIPLWTFVVVPLALLGTALEALVPGWGSPMWRLGGNCFQW
SWQLFEYLAQTDFALWWLPESDGVALGLALLGAFWLLLPRGTPGKWLALLLWLPLLWPERERPRPGEFEMQMLDVGQGLS
IVVRTSGHTLLYDAGPAVNDGFDAGERVVVPALRASGIRRLDALVASHADSDHVGGLPAVLKAYPVDISYAPPDAPLDVQ
RRCSAGDSWLWDGVQFRFLHPAPHSRYLGNESSCVLRIDTRWGSALLTGDIGKVVERGLLSQDRESVRADVVVVPHHGSA
GSSSLGFVRAVNARLALVSSGDGNRFGHPRCSVVESWSETADVLLTAHSGAVRIWVGQQGLQLRERRVWRRRFWDAVERR
RSAAILSATEDVSKERRRNETCWNW
Nucleotide
Download Length: 2478 bp
>NTDB_id=485795 KBP48_RS01815 WP_071869475.1 446768..449245(+) (comA) [Xylella fastidiosa subsp. multiplex strain BB08-1]
ATGGACGATATGAAACCCGAGCAGCGACACATGTTGCAGCGATGTTGGGTTGACGTGTTAAGTGTGATCCGGCACGCAAC
GTGCCTGCGTTACCTCGCGTTTCCGGCGTTGTTGCCGAGTGCTGTTGCGTTGCTGCTGGGTTGTCTTGCTGCACTCACCT
TGCCGCGATTACCGCCCGTATGGGTGTTGTGGATTTTTCTGTTTGTCGGAGTAATGCTCGCTGTTGTCGTGCGCCGTGTT
GCTTGGTGCGGTGTGGTGTTGTTTGGTTTTGCTAACTGTTGCTTGCATGGTCAGTTTGGTTTGCGACATCAATTGTCGTT
CGCGTTGGAGGGGCGTGATCTGGTGTTACGTGGTCGGATCGTTTCTTTGCCGGTTCCAGAGACCAGGCGCACACGTTTCT
TGTTGCGTGTGGATACCGATCAAGATCAGGAACCAGCGCTGCGTGGTCGACTGCTGCAGTTATCCTGGTATGACGAGAAT
AAGGCGGTAGCACCGGGGCCACGCAGTGCATTGCATGCTGGATCTGTATGGCAGCTGCACGTGCGTCTGCGTGCGCCGCA
CAGTTTGATGAATCCCGGAGGTTTCGACAGCGAGCGTTATGCCCTAGCCCAGGGGATTGTTGCGACCGGTTACGTACGTG
CGCCGACGATGGCACGTGAGCTGGCGGCAGCCACTGGCATCAATGCTTGGCGGGAACGGATGTCTGCGCGTATTGCTGAT
GCGGTGTTGTTGGAAGCATCGGTGTATTTACGTGCGTTGGCCTTGGGTGATACCCGGGGTTTGTCTCAACAGGATTGGGA
AGTATTGCGCGCTACAGGGCTGACGCATTTGATTGCGATCTCGGGGTTCCATGTCGGTATGGTCGCTGGTGCCTGTGCGT
TGCTTGTGTCGTTGCTGTGGCGAGTTTTCCCACATTTGGCGTGGCGTTGGCCGCGGCCACTCGCTATGGCACTCATTGCG
GTACCGGCCGCAGCCGGCTACACCGTCCTGGCTGGGGCGTCACTGCCCACAGTGAGAACCGCTTTGATGATCGGCATCGT
CGCATTGGCGCGCCTCACTCGGCGTCGTGCCATGCCGGGTCATGTCCTGGGGCTTGCCTTGCTTGTCGTACTGGTTTGGG
ATCCATTAGCCATTCTTAGTGCTGGCTTCTGGCTCAGCTTTGCCGGTGTCGCTTGGTTACTGTGGTGTATGCAAGACGGT
CATGCCGCGCCTTGGCGTGGCTTCTTATCGGCACAAGGTGTTGCAACCCTTGGGTTATTACCATTCACCGTGGCTTTATT
TGGTCAGGTTTCGTTTGTTGGGCCTTTGGCTAACTTGATTGCGATTCCGTTATGGACCTTTGTCGTTGTACCGCTGGCGT
TGTTAGGGACTGCGCTGGAAGCGTTAGTGCCAGGGTGGGGTAGCCCCATGTGGCGTTTGGGGGGGAATTGTTTCCAATGG
AGTTGGCAGCTATTCGAATACTTGGCACAGACTGATTTCGCATTGTGGTGGTTGCCGGAATCTGATGGTGTTGCATTGGG
GTTGGCCTTGCTGGGAGCGTTTTGGTTGCTGTTACCACGCGGTACGCCTGGTAAGTGGTTGGCGCTGTTGCTGTGGTTGC
CTTTGTTGTGGCCTGAGCGTGAGCGTCCCCGCCCCGGGGAGTTTGAGATGCAGATGCTGGACGTGGGGCAAGGACTGTCG
ATTGTGGTGCGTACCTCAGGCCATACGTTGTTGTACGACGCAGGTCCAGCAGTGAATGATGGTTTCGATGCCGGTGAGCG
TGTTGTGGTGCCGGCATTACGTGCCAGTGGCATCCGTCGCTTGGATGCATTGGTGGCTAGTCATGCTGATAGTGATCACG
TCGGAGGTTTGCCCGCAGTCCTGAAGGCTTATCCGGTTGATATCAGCTACGCTCCTCCGGATGCTCCACTCGACGTTCAG
CGCCGTTGCAGTGCTGGGGACAGTTGGCTGTGGGATGGAGTCCAGTTTCGTTTCTTACATCCTGCACCGCATTCGAGGTA
TTTAGGTAACGAGTCCAGTTGTGTATTGCGTATCGACACGCGCTGGGGCAGTGCTTTGTTGACGGGTGACATCGGCAAAG
TGGTCGAACGTGGTTTATTGAGTCAGGATCGTGAGAGTGTACGTGCCGATGTGGTGGTCGTACCGCATCATGGGAGCGCC
GGTTCTTCCTCGCTTGGGTTTGTCCGTGCGGTTAATGCGCGGTTAGCTTTGGTATCCAGTGGTGATGGTAACCGCTTCGG
TCATCCGCGCTGTTCGGTGGTGGAGAGCTGGAGTGAAACGGCAGATGTGTTGCTTACTGCGCATAGCGGCGCAGTACGGA
TTTGGGTTGGACAGCAGGGTCTGCAGTTACGTGAACGCCGTGTTTGGCGTCGTCGATTTTGGGATGCGGTCGAACGTCGC
CGATCCGCTGCTATCCTATCCGCCACTGAAGATGTATCCAAAGAGCGTCGGAGAAACGAGACATGCTGGAACTGGTAA
ATGGACGATATGAAACCCGAGCAGCGACACATGTTGCAGCGATGTTGGGTTGACGTGTTAAGTGTGATCCGGCACGCAAC
GTGCCTGCGTTACCTCGCGTTTCCGGCGTTGTTGCCGAGTGCTGTTGCGTTGCTGCTGGGTTGTCTTGCTGCACTCACCT
TGCCGCGATTACCGCCCGTATGGGTGTTGTGGATTTTTCTGTTTGTCGGAGTAATGCTCGCTGTTGTCGTGCGCCGTGTT
GCTTGGTGCGGTGTGGTGTTGTTTGGTTTTGCTAACTGTTGCTTGCATGGTCAGTTTGGTTTGCGACATCAATTGTCGTT
CGCGTTGGAGGGGCGTGATCTGGTGTTACGTGGTCGGATCGTTTCTTTGCCGGTTCCAGAGACCAGGCGCACACGTTTCT
TGTTGCGTGTGGATACCGATCAAGATCAGGAACCAGCGCTGCGTGGTCGACTGCTGCAGTTATCCTGGTATGACGAGAAT
AAGGCGGTAGCACCGGGGCCACGCAGTGCATTGCATGCTGGATCTGTATGGCAGCTGCACGTGCGTCTGCGTGCGCCGCA
CAGTTTGATGAATCCCGGAGGTTTCGACAGCGAGCGTTATGCCCTAGCCCAGGGGATTGTTGCGACCGGTTACGTACGTG
CGCCGACGATGGCACGTGAGCTGGCGGCAGCCACTGGCATCAATGCTTGGCGGGAACGGATGTCTGCGCGTATTGCTGAT
GCGGTGTTGTTGGAAGCATCGGTGTATTTACGTGCGTTGGCCTTGGGTGATACCCGGGGTTTGTCTCAACAGGATTGGGA
AGTATTGCGCGCTACAGGGCTGACGCATTTGATTGCGATCTCGGGGTTCCATGTCGGTATGGTCGCTGGTGCCTGTGCGT
TGCTTGTGTCGTTGCTGTGGCGAGTTTTCCCACATTTGGCGTGGCGTTGGCCGCGGCCACTCGCTATGGCACTCATTGCG
GTACCGGCCGCAGCCGGCTACACCGTCCTGGCTGGGGCGTCACTGCCCACAGTGAGAACCGCTTTGATGATCGGCATCGT
CGCATTGGCGCGCCTCACTCGGCGTCGTGCCATGCCGGGTCATGTCCTGGGGCTTGCCTTGCTTGTCGTACTGGTTTGGG
ATCCATTAGCCATTCTTAGTGCTGGCTTCTGGCTCAGCTTTGCCGGTGTCGCTTGGTTACTGTGGTGTATGCAAGACGGT
CATGCCGCGCCTTGGCGTGGCTTCTTATCGGCACAAGGTGTTGCAACCCTTGGGTTATTACCATTCACCGTGGCTTTATT
TGGTCAGGTTTCGTTTGTTGGGCCTTTGGCTAACTTGATTGCGATTCCGTTATGGACCTTTGTCGTTGTACCGCTGGCGT
TGTTAGGGACTGCGCTGGAAGCGTTAGTGCCAGGGTGGGGTAGCCCCATGTGGCGTTTGGGGGGGAATTGTTTCCAATGG
AGTTGGCAGCTATTCGAATACTTGGCACAGACTGATTTCGCATTGTGGTGGTTGCCGGAATCTGATGGTGTTGCATTGGG
GTTGGCCTTGCTGGGAGCGTTTTGGTTGCTGTTACCACGCGGTACGCCTGGTAAGTGGTTGGCGCTGTTGCTGTGGTTGC
CTTTGTTGTGGCCTGAGCGTGAGCGTCCCCGCCCCGGGGAGTTTGAGATGCAGATGCTGGACGTGGGGCAAGGACTGTCG
ATTGTGGTGCGTACCTCAGGCCATACGTTGTTGTACGACGCAGGTCCAGCAGTGAATGATGGTTTCGATGCCGGTGAGCG
TGTTGTGGTGCCGGCATTACGTGCCAGTGGCATCCGTCGCTTGGATGCATTGGTGGCTAGTCATGCTGATAGTGATCACG
TCGGAGGTTTGCCCGCAGTCCTGAAGGCTTATCCGGTTGATATCAGCTACGCTCCTCCGGATGCTCCACTCGACGTTCAG
CGCCGTTGCAGTGCTGGGGACAGTTGGCTGTGGGATGGAGTCCAGTTTCGTTTCTTACATCCTGCACCGCATTCGAGGTA
TTTAGGTAACGAGTCCAGTTGTGTATTGCGTATCGACACGCGCTGGGGCAGTGCTTTGTTGACGGGTGACATCGGCAAAG
TGGTCGAACGTGGTTTATTGAGTCAGGATCGTGAGAGTGTACGTGCCGATGTGGTGGTCGTACCGCATCATGGGAGCGCC
GGTTCTTCCTCGCTTGGGTTTGTCCGTGCGGTTAATGCGCGGTTAGCTTTGGTATCCAGTGGTGATGGTAACCGCTTCGG
TCATCCGCGCTGTTCGGTGGTGGAGAGCTGGAGTGAAACGGCAGATGTGTTGCTTACTGCGCATAGCGGCGCAGTACGGA
TTTGGGTTGGACAGCAGGGTCTGCAGTTACGTGAACGCCGTGTTTGGCGTCGTCGATTTTGGGATGCGGTCGAACGTCGC
CGATCCGCTGCTATCCTATCCGCCACTGAAGATGTATCCAAAGAGCGTCGGAGAAACGAGACATGCTGGAACTGGTAA
3D structure
| Source | ID | Structure |
|---|
Similar proteins
Only experimentally validated proteins are listed.
| Protein | Organism | Identities (%) | Coverage (%) | Ha-value |
|---|---|---|---|---|
| comA | Ralstonia pseudosolanacearum GMI1000 |
37.456 |
100 |
0.385 |