⊟Summary[edit | edit source]

• organism: Streptococcus pneumoniae ATCC 700669
• locus tag: SPN23F12780 [new locus tag: SPN23F_RS06485 ]
• pan locus tag^?: PNEUPAN002181000
• symbol: SPN23F12780
• pan gene symbol^?: —
• synonym:
• product: putative conjugative transposon DNA recombination protein

⊟Genome View[edit | edit source]

⊟Gene[edit | edit source]

⊟General[edit | edit source]

• type: CDS
• locus tag: SPN23F12780 [new locus tag: SPN23F_RS06485 ]
• symbol: SPN23F12780
• product: putative conjugative transposon DNA recombination protein
• replicon: chromosome
• strand: -
• coordinates: join(1245208..1246179,1248638..1253932)
• length: 6267
• essential: unknown

⊟Accession numbers[edit | edit source]

• Location: FM211187 join(1245208..1246179,1248638..1253932) NCBI
• BioCyc: see SPN23F_RS06485
• MicrobesOnline:
• PneumoBrowse for strain D39V:

⊟Phenotype[edit | edit source]

⊟DNA sequence[edit | edit source]

• 1
  61
  121
  181
  241
  301
  361
  421
  481
  541
  601
  661
  721
  781
  841
  901
  961
  1021
  1081
  1141
  1201
  1261
  1321
  1381
  1441
  1501
  1561
  1621
  1681
  1741
  1801
  1861
  1921
  1981
  2041
  2101
  2161
  2221
  2281
  2341
  2401
  2461
  2521
  2581
  2641
  2701
  2761
  2821
  2881
  2941
  3001
  3061
  3121
  3181
  3241
  3301
  3361
  3421
  3481
  3541
  3601
  3661
  3721
  3781
  3841
  3901
  3961
  4021
  4081
  4141
  4201
  4261
  4321
  4381
  4441
  4501
  4561
  4621
  4681
  4741
  4801
  4861
  4921
  4981
  5041
  5101
  5161
  5221
  5281
  5341
  5401
  5461
  5521
  5581
  5641
  5701
  5761
  5821
  5881
  5941
  6001
  6061
  6121
  6181
  6241
  
  ATGGAAGTAATGAAATTATTGGCTATGTTTCGTGGAACAATTCCAAAAGATAGGGAGAAA
  ATGGACCTATTTCTTCGTTATCAAGCGCAACATTTTGATGAGAAATGGCAGGACTTGGTA
  GAGAGTTTTTTGGCTGAAGAGGGCAAGATAGAAGAGATACCTCATGTCTATTCGTTTCAT
  CAAGATATTATTTCTTTCCTAGAGGCTAGTTCTGAAAATAATGACCAAGATTTAGAAAGT
  TACACAAGAAATTTTGGACAAGCAGGTCTAAGTAAATTATCTCAATTAAGTAATTTTGAG
  AAAAACTTGGTGCTAGAAGTCGCAACCTATAATCTTTCCACTCGATTTTACATCCAATCT
  GAAAAAGAGAAGTTAGAACCATTAAGTGAACTTGTATGTCTTCAGAATCAGGATGTCAAT
  TTAGTCAATGTCTATCGGGTTGCGAATAATCTATCTGACCGCATTAGTAGAGATATAGAG
  GAGTTTCTTCTAATGGTTGATTCCAAAGAACTAACAAAAGAAGTTCTTGAGATTCATTTT
  GAAGAAAAAGAAGGAGATGTTCTAGCTTATTTGGGTTCAGAATTGATGGCTACTTTAGAT
  ACTGTGACGGATCTTGTCCATCATGAAGAAAACTACACACAACTCCCACTGACACAAAAG
  CTGAAGATTATTACTCATTTTGATGATGTAAAAGCTAGAAGCGAAAAGTCTAATCAAGTA
  GAGGAAGTTTTATCTCCTTCAAGTGATATTGAACAGGAAACGGAAGAAACGAACTCTTTT
  TCTAATGTCGATAAAATTGTAGAAGAAGCTTTGAGGGAATATCCAATCGGTTCACAAGTA
  AGTTATAAAGGACAAGTTTTTCAGTTGGTTTCGATTGAAAATGCACAGTTAAATGACTTA
  ATTCGCCTAGAACTATTCAATGATTCCAACCAGTTATTTGAAGAAAATCCTATCTTATAC
  TTGAACAGTTTGGAAGAGATTGAACAAGTATTGTCTCTTGTAGAACTTGAAAAAGAAGAT
  TCAGAGATTGAGATTGATTCATCAAGTGAAAGTCAGGAAATAGATTTGTTTTCCTACCTG
  GAAGAAGAAAAAGAAAATGAAAAGGATAAGGAAACAGAAACGCTTATTGTAGGCATAGAA
  GAGACGGATGTCCCTGTTCAAGATTTTGTTTTTCCAGATGATTTAGAGGACTTTTATCCT
  AAGACAAATCGAGAAAAGATTGAAACGAATATCGCCGCAATTGAACTTGTTAAAAGATTA
  GAAAAAGAGGGACGACAAGCGAATCCAGAAGAACAAGAACTACTAGCCAAGTATGTCGGA
  TGGGGTGGCCTTGCCAATGAATTTTTCGATGAACTCAATCCAAAGTATGAAACAGAACGT
  TTAACTCTTAAGAGCTTAGTAAGTAAATCAGAATACTCGACCATGAAACAAAGTTCTCTC
  ACAGCCTATTATACAGACCCAATGATTATTCGCCAGATTTGGCAAAAATTACTGGATGAT
  GGTTTTGAGGGAGGAAGGATATTAGATCCTTCTATGGGGACTGGGAACTTCTTTGCGGCG
  ATGCCTAGAAGTATACGAGATAAATCAGAACTCTATGGGGTTGAATTAGACAGTGTGACA
  GGCGCAATCGCAAAAAAACTCCACCCCAATACCCATATTGAAGTGCGAGGATTTGAAGAA
  GTTCCCTATCAAAATAATAGTTTTGATTTAGTCTTAACGAATGTTCCATTTGGAAATTTT
  CGCATTGCCGATAAAAACTATGATAAACCTTATATGATTCATGATTACTTTGTCAAACAC
  TCACTTGATTTAGTAAGAGACGGAGGACAAGTTTCGATTATCTCATCTATCGGGACAATG
  GATAAGCGGACAGATAATGTCTTACAAGAGATTAAAACCAACACTCATTTTTTAGGGGGA
  GTTCGGTTGCCAGATACGGCTTTTAAAAGCATTGCAGGTACCCGAGTGACCACAGATATC
  CTCTTCTTTCAAAAGGATCAAGCAAAGAATCTTAATGAAGAGGAACTTGTTTTTAGTGGC
  TCTATTCCCTTTGAGGAGGATAAGCGTGTCTGGATCAATCCTTATTTTGATGGGAAATAC
  AACACACAAGTTTTGGGTGAATATGAGGTACGTAATTTTAATGGAGGAACTCTCAATGTT
  AAGGGGGTATCAGAAACATTATCTACTGATATAATGAAAGCATTAGAGAATGTGGAAGCA
  CCTAAACAAATTGACAATTTTTTGAAAGCACCTGTTTTTATCCAAGAAGAAGTGGATAAT
  TCGCTCCCAAGTCGTATACGTGAGGACTTAGCGCTCTATTCTTTTGGATATGAGAGAAAT
  CAAATTTATTACCGAGATACGCATGGCATTCGGAAAAGTTCAAAAGTAGACGAAATTAGT
  TATTATGTAGATGAAAAGGGAGATTTTAAAGCTTGGGACAGTTCTTTGTCTGAACATAAA
  ATAGACCGATTCGTGCAACTTCATTTGACAGATGAGGAAGCACTAGATGTTTACAAGTCA
  GAAGAAGCGAGTAAAAGAGGGAAATATAAGGGACTGTTCAAAAAAACTGTCTTTTATGAA
  AGTCCCTTATCGGATAAGGATATTAGTCGCATTAAGGGCATGGTTGATTTGAGAGAGACC
  TATCAATCCTTAATTGAAATTCAACGCCATCAAGATTATAGTCGGACAGATTTTCAGGTG
  TTACTTAGTAAACTCAATCATAACTATGACCGTTTTGTAAGTCAATTTGGATACTTGAAT
  GCCTCAGTCAATCGGAACTTATTTGATAGTGACGATAAGTATTCTTTACTGGCAAGTTTA
  GAAGATGAATACATTGATTCTAAAGATCAGAAAGTAAAATATAAAAAATCTTTAGCCTTT
  GAGAAAGCATTGGTTAGGCCAGAGAGAGTGATTGCAAGAGTTTCAACGGCTCTAGATGCC
  TTAAACTCTAGTTTATCGGATGGTAGAGGGGTTGATTTAGACTATATGGTATCCATTTAT
  CCCGAACATAGCCAAGCTGCTATTTTAGATGAGTTAGGAGACCAGATTTTAATAGATCCA
  GAAAGCTATTTAAGAGGGGAAAGAAAATATCTTTCTAAGAACCAGTTTTTATCAGGAGAC
  ATTCTCAACAAGATAGAAGTAGTTCAACTATTAGTGGAGGAAAACAACCAAGAATATGAT
  TGGAACCATGCTTTAGATTTGTTAGAATCTGTTCGCCCTCCAAGGATTCATCTGGCAGAT
  ATTGAGTTTAAAATAGGGTCACGTTGGATTCCTCAATCCGTTTATGGTAAATTTGCCTTT
  GAATGTTTTACCAATCGTGAATTTGAATTATCTTCGCCTGATGTTGAACAGGTCATTGAA
  GCGAATCCTGTCGATGGGCAGGTTCATTTAAGGACATCATTTGCTTATCGCTATCCAAGT
  GCCAAAGATAGTAGTCTTGGAGTCAGTGGCTCACGTTATGATACAGGAAGAAAGATTTTT
  GAGAATTTACTTAATTCGAACCAACCGACGATTACTATGACTGTTACGGAAGGAGAAAAG
  AAAAAGACCATCACAGATTTGGAAAAAACCTCTGTTCTAAGAGCAAAAGAACAGCATTTA
  CAAGAGCTCTTTCAAGACTTTGTCTCACGGTATCCAGAAGTCCAACAAGTCATTGAAGAA
  AGTTACAATCGTCTTTATAACCGAACGGTTAGTCGAGAGTATGACGGTAGCCATCTAGTC
  ATTGATGGCTTAGCACAAAACATCAGTCTTCGTCCTCACCAAGAAAATGCCATTCAAAGA
  ATCGTAGAAGAAAAAAGAGCCCTATTAGCTCATGAGGTAGGTTCAGGAAAGACCTTGACC
  ATGCTTGGTGCTGGGTTTAAATTAAAGGAGTTGGGGATGGTTCATAAGCCATTATATGTG
  GTGCCCTCTAGTTTGTCTGCTCAATTTGGCCAAGAAATCATGAAATTTTTCCCTACTAAA
  AAAGTCTTTGTGACCACTAAGAAAGATTTTGTGAAGGCGAGAAGAAAACAATTTGTATCA
  CGTATTATTACAGGAGATTACGATGCTATTGTCATTGGGGATTCTCAATTTGAAAAAATC
  CCTGTCAGTAAGGAAAGACAGATGAACTATATAGAGGATAAACTCAATGAACTACGAGAG
  ATTAAAACACATTCTGAAAATAAGTATACCGTTAAAGAAGCAGAACAATCAATAAGTGGT
  CTAGAGAAACAATTGGAAGAACTGCAACGCTTTAATCGTGATAGTTTTATTGATTTTGAG
  AACTTAGGAATTGATTTTCTCTTTGTGGATGAAGCACATCACTTTAAAAATATTCGTCCA
  ATTACTGGACTTGGGAATGTAGCAGGTATTACCAATACAACCTCTAAGAAGAACGTGGAT
  ATGGAGATGAAGGTTCGACAGATTCAGGAAGAACATGATTTTAAAAATATTGTCTTTGCG
  ACAGGAACACCTGTTTCCAATTCTATTAGTGAGTTGTATACTATGATGAACTATATTCAA
  CCAGATATCTTAAAACGCTATCAAGTTGATTATTTTGACTCTTGGGTAGGTGCTTTTGGA
  GAAATTCAAAACTCTATGGAATTAGCTCCTACAGGGGATAAGTACCAACCTAAGAAACGA
  TTTAAAAAGTTTGTCAATCTACCTGAGTTGATGAAAATCTATAAAGAAACAGCCGACATT
  CAAACACAAGATATGTTGGATTTACCTGTTCCAGAAGCTCATATTATCCCTATTGAGAGT
  GAGTTAACTGAAAACCAGAAACTCTATTTAGAAGAATTAGTTATGAGGTCAGATATGGTC
  AAATGTGGAACAGTTGATCCGAGCCAGGATAACATGTTAAAAATTACGGGTGAGGCACGA
  AAACTAGCTATTGATATGCGTTTATTGGACTCTAGTTATAGTCTAGCAGACAATCATAAA
  CTGCTTCAGGTAGTGGATAATGTTGAAAGAATTTATCGTGAGGGAATGGAAAATAAGGCT
  ACTCAGATGATTTTTTCAGATATTGGCACACCTAAGAAAAAAGATAATGGCTTTGATGTT
  TATTCTGAGATTAAGGCTTTATTAGTTGATAGAGGAATCCCTAGTAAAGAAATTGCCTTT
  GTACATGATGCCAATAGTGATGAAAAGAAGAATAGTTTGTCTCGAAAGGTCAATGCAGGA
  GAGGTGCGGATTCTCCTTGCCTCAACTGAAAAAGGAGGAACAGGTTTAAATGTTCAGAGC
  AAGATGAAAGCAGTTCATCATCTGGATGTACCGTGGAGACCAAGTGACATTCAGCGTGCG
  TCCGTAAAGGCGGTAATGGTAAGGCGCTGGGTACTTAGCCTACAACGCAATGGACGTATT
  ATCCGACAGGGAAATGAAAATAAGGAAGTGGATATTTACCACTACATTACCAAAGGTTCA
  TTTGATAATTATCTATGGGCAACTCAGGAGAACAAACTCCGTTATATTAAGCAGATTATG
  ACTTCTAAGGAGCCGATTCGTGCTGCAGAAGACATTGATGAACAGACTATGACAGCTTCT
  GATTTTAAGGCACTAGCAACAGGTAATCCTTATCTCAAATATAAGATGGAACTAGAGAAT
  GATCTAACTCTATTAGAAAATCAAAGACGCGCCTTTCAACGCAGCAAGGATCACTATCGT
  CATACAATCTCTTACTGTGAAGAAAATATGCCCATTCTTGAGAAACGATTAAGCAAGTAT
  GAAGGCGATATTCAACAGTCTGAAATATCGAAAGACCAGGCATTTTCTATGAGGGTAGGT
  AAGCAATCTTTTGATCAACGAGCTGAAGCAGGGGAATCCCTACACCGTCTTATTCGTCAT
  AATCAAGCTGACAGCAAAGAATTTCGTACCCTAGCAAGCTATCGAGGATTTGACATTAAA
  ATGCTTAGTCTTCCAACAAATCAACCTCTTCCTGAAACCTTCTCTGTTAAAATTGTAGGA
  GAGAATCAGTATTCTGTCAGTTTAGATTTATATTCTCCTTTGGGGACAATTCAAAGGCTT
  CAGCATACGATTGATCACATTAAAGAGGACCAAGTGAAAACTCAGAACTTATTGGATGAA
  TTAAAGGATAAATGGAATACTGCTAAAGTTGAAATTGAGAAAAATTTTCCAAAGGAAGAG
  GATTATCAAACTAAAAAGGCCGAATACGATGTACTCGCGCCATTGATTGAAACAGAAACG
  GATTTAGATACTATTGATCAGGCCTTAAGACAATTCCACGAAAAAGGAAAAGAAAAGCAA
  GAACAACTTTCTTTTGAATTAGATTAA
  60
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  5940
  6000
  6060
  6120
  6180
  6240
  6267
  

⊟Protein[edit | edit source]

⊟General[edit | edit source]

• locus tag: SPN23F12780 [new locus tag: SPN23F_RS06485 ]
• symbol: SPN23F12780
• description: putative conjugative transposon DNA recombination protein
• length: 2088
• theoretical pI: 4.7954
• theoretical MW: 240999
• GRAVY: -0.587835

⊟Function[edit | edit source]

• TIGRFAM:
• TheSEED:
• PFAM:
  P-loop_NTPase (CL0023) SNF2-rel_dom; SNF2-related domain (PF00176; HMM-score: 44.4)
  ResIII; Type III restriction enzyme, res subunit (PF04851; HMM-score: 43.8)
  and 6 more
  NADP_Rossmann (CL0063) Methyltransf_25; Methyltransferase domain (PF13649; HMM-score: 22.9)
  Methyltransf_11; Methyltransferase domain (PF08241; HMM-score: 21)
  P-loop_NTPase (CL0023) Helicase_C; Helicase conserved C-terminal domain (PF00271; HMM-score: 19.8)
  DEAD; DEAD/DEAH box helicase (PF00270; HMM-score: 19.3)
  NADP_Rossmann (CL0063) Methyltransf_31; Methyltransferase domain (PF13847; HMM-score: 14.2)
  no clan defined PX; PX domain (PF00787; HMM-score: 11.7)

⊟Structure, modifications & cofactors[edit | edit source]

• domains:
• modifications:
• cofactors:
• effectors:

⊟Localization[edit | edit source]

• PSORTb: Cytoplasmic
  • Cytoplasmic Score: 7.5
  • Cytoplasmic Membrane Score: 1.15
  • Cellwall Score: 0.62
  • Extracellular Score: 0.73
  • Internal Helices: 0
• DeepLocPro: Cytoplasmic
  • Cytoplasmic Score: 0.6333
  • Cytoplasmic Membrane Score: 0.055
  • Cell wall & surface Score: 0.0975
  • Extracellular Score: 0.2143
• SignalP: no predicted signal peptide
  • SP(Sec/SPI): 0.001349
  • TAT(Tat/SPI): 0.000085
  • LIPO(Sec/SPII): 0.000268
• predicted transmembrane helices (TMHMM): 0

⊟Accession numbers[edit | edit source]

• GI:
• RefSeq: CAR69082 NCBI
• UniProt:

⊟Protein sequence[edit | edit source]

• MEVMKLLAMFRGTIPKDREKMDLFLRYQAQHFDEKWQDLVESFLAEEGKIEEIPHVYSFHQDIISFLEASSENNDQDLESYTRNFGQAGLSKLSQLSNFEKNLVLEVATYNLSTRFYIQSEKEKLEPLSELVCLQNQDVNLVNVYRVANNLSDRISRDIEEFLLMVDSKELTKEVLEIHFEEKEGDVLAYLGSELMATLDTVTDLVHHEENYTQLPLTQKLKIITHFDDVKARSEKSNQVEEVLSPSSDIEQETEETNSFSNVDKIVEEALREYPIGSQVSYKGQVFQLVSIENAQLNDLIRLELFNDSNQLFEENPILYLNSLEEIEQVLSLVELEKEDSEIEIDSSSESQEIDLFSYLEEEKENEKDKETETLIVGIEETDVPVQDFVFPDDLEDFYPKTNREKIETNIAAIELVKRLEKEGRQANPEEQELLAKYVGWGGLANEFFDELNPKYETERLTLKSLVSKSEYSTMKQSSLTAYYTDPMIIRQIWQKLLDDGFEGGRILDPSMGTGNFFAAMPRSIRDKSELYGVELDSVTGAIAKKLHPNTHIEVRGFEEVPYQNNSFDLVLTNVPFGNFRIADKNYDKPYMIHDYFVKHSLDLVRDGGQVSIISSIGTMDKRTDNVLQEIKTNTHFLGGVRLPDTAFKSIAGTRVTTDILFFQKDQAKNLNEEELVFSGSIPFEEDKRVWINPYFDGKYNTQVLGEYEVRNFNGGTLNVKGVSETLSTDIMKALENVEAPKQIDNFLKAPVFIQEEVDNSLPSRIREDLALYSFGYERNQIYYRDTHGIRKSSKVDEISYYVDEKGDFKAWDSSLSEHKIDRFVQLHLTDEEALDVYKSEEASKRGKYKGLFKKTVFYESPLSDKDISRIKGMVDLRETYQSLIEIQRHQDYSRTDFQVLLSKLNHNYDRFVSQFGYLNASVNRNLFDSDDKYSLLASLEDEYIDSKDQKVKYKKSLAFEKALVRPERVIARVSTALDALNSSLSDGRGVDLDYMVSIYPEHSQAAILDELGDQILIDPESYLRGERKYLSKNQFLSGDILNKIEVVQLLVEENNQEYDWNHALDLLESVRPPRIHLADIEFKIGSRWIPQSVYGKFAFECFTNREFELSSPDVEQVIEANPVDGQVHLRTSFAYRYPSAKDSSLGVSGSRYDTGRKIFENLLNSNQPTITMTVTEGEKKKTITDLEKTSVLRAKEQHLQELFQDFVSRYPEVQQVIEESYNRLYNRTVSREYDGSHLVIDGLAQNISLRPHQENAIQRIVEEKRALLAHEVGSGKTLTMLGAGFKLKELGMVHKPLYVVPSSLSAQFGQEIMKFFPTKKVFVTTKKDFVKARRKQFVSRIITGDYDAIVIGDSQFEKIPVSKERQMNYIEDKLNELREIKTHSENKYTVKEAEQSISGLEKQLEELQRFNRDSFIDFENLGIDFLFVDEAHHFKNIRPITGLGNVAGITNTTSKKNVDMEMKVRQIQEEHDFKNIVFATGTPVSNSISELYTMMNYIQPDILKRYQVDYFDSWVGAFGEIQNSMELAPTGDKYQPKKRFKKFVNLPELMKIYKETADIQTQDMLDLPVPEAHIIPIESELTENQKLYLEELVMRSDMVKCGTVDPSQDNMLKITGEARKLAIDMRLLDSSYSLADNHKLLQVVDNVERIYREGMENKATQMIFSDIGTPKKKDNGFDVYSEIKALLVDRGIPSKEIAFVHDANSDEKKNSLSRKVNAGEVRILLASTEKGGTGLNVQSKMKAVHHLDVPWRPSDIQRASVKAVMVRRWVLSLQRNGRIIRQGNENKEVDIYHYITKGSFDNYLWATQENKLRYIKQIMTSKEPIRAAEDIDEQTMTASDFKALATGNPYLKYKMELENDLTLLENQRRAFQRSKDHYRHTISYCEENMPILEKRLSKYEGDIQQSEISKDQAFSMRVGKQSFDQRAEAGESLHRLIRHNQADSKEFRTLASYRGFDIKMLSLPTNQPLPETFSVKIVGENQYSVSLDLYSPLGTIQRLQHTIDHIKEDQVKTQNLLDELKDKWNTAKVEIEKNFPKEEDYQTKKAEYDVLAPLIETETDLDTIDQALRQFHEKGKEKQEQLSFELD

⊟Experimental data[edit | edit source]

• protein localization:
• interaction partners:

⊟Expression & Regulation[edit | edit source]

⊟Operon[edit | edit source]

⊟Regulation[edit | edit source]

• regulator:

⊟Transcription[edit | edit source]

• transcription start site:

⊟Expression data[edit | edit source]

• PneumoExpress for strain D39V:

⊟Biological Material[edit | edit source]

⊟Mutants[edit | edit source]

⊟Expression vector[edit | edit source]

⊟lacZ fusion[edit | edit source]

⊟GFP fusion[edit | edit source]

⊟two-hybrid system[edit | edit source]

⊟FLAG-tag construct[edit | edit source]

⊟Antibody[edit | edit source]

⊟Other Information[edit | edit source]

⊟Literature[edit | edit source]

⊟References[edit | edit source]

⊟Relevant publications[edit | edit source]