Detailed information    

insolico Bioinformatically predicted

Overview


Name   amiA3   Type   Regulator
Locus tag   QMM10_RS01820 Genome accession   NZ_AP025938
Coordinates   346359..348341 (+) Length   660 a.a.
NCBI ID   WP_281738806.1    Uniprot ID   -
Organism   Streptococcus pneumoniae strain PZ900701057     
Function   binding to XIP (predicted from homology)   
Competence regulation

Genomic Context


Location: 341359..353341
Locus tag Gene name Coordinates (strand) Size (bp) Protein ID Product Description
  QMM10_RS01805 (PC1044_03430) - 342232..343214 (+) 983 Protein_355 acyltransferase -
  QMM10_RS01810 (PC1044_03440) glf 343227..344330 (+) 1104 WP_281738808.1 UDP-galactopyranose mutase -
  QMM10_RS01815 (PC1044_03450) - 344721..346067 (-) 1347 WP_050207251.1 IS1380-like element ISSpn5 family transposase -
  QMM10_RS01820 (PC1044_03460) amiA3 346359..348341 (+) 1983 WP_281738806.1 peptide ABC transporter substrate-binding protein Regulator

Sequence


Protein


Download         Length: 660 a.a.        Molecular weight: 73020.62 Da        Isoelectric Point: 4.7195

>NTDB_id=79008 QMM10_RS01820 WP_281738806.1 346359..348341(+) (amiA3) [Streptococcus pneumoniae strain PZ900701057]
MKSSKLFALAGVTLLAATTLAACSGSGSSTKGEKTFSYIYETDPDNLNYLTTAKAATANITSNVVDGLLENDRYGNFVPS
MAEDWSVSKDGLTYTYTIRKDAKWYTSEGEEYAAVKAQDFVTGLKYAADKKSDALYLVQESIKGLDAYVKGEIKDFSQVG
IKALDEQTVQYTLNKPESFWNSKTTMGVLAPVNEEFLNSKGDDFAKATDPSSLLYNGPYLLKSIVTKSSVEFAKNPNYWD
KDNVHVDKVKLSFWDGQDTSKPAENFKDGSLTAAPLYPTSASFAELEKSMKDNIVYTQQDSITYLVGTNIDRQSYKYTSK
TSDEQKASTKKALLNKDFRQAIAFGFDRTAYASQLNGQTGASKILRNLFVPPTFVQADGKNFGDMVKEKLVTYGDEWKDV
NLADSQDGLYNPEKAKAEFAKAKSALQAEGVQFPIHLDMPVDQTATTKVQRVQSMKQSLEATLGADNVIIDIQQLQKDEV
NNITYFAENAAGEDWDLSDNVGWGPDFADPSTYLDIIKPSVGESTKTYLGFDSGEDNVAAKKVGLYDYEKLVTEAGDETT
DVAKRYDKYAAAQAWLTDSALIIPTTSRTGRPILSKMVPFTIPFALSGNKGTSEPVLYKYLELQDKAVTVDEYQKAQEKW
MKEKEESNKKAQEDLAKHVK

Nucleotide


Download         Length: 1983 bp        

>NTDB_id=79008 QMM10_RS01820 WP_281738806.1 346359..348341(+) (amiA3) [Streptococcus pneumoniae strain PZ900701057]
ATGAAAAGTTCAAAACTATTTGCCCTTGCGGGCGTGACATTATTGGCGGCGACTACTTTAGCTGCATGCTCTGGATCAGG
TTCAAGCACTAAAGGTGAGAAGACATTCTCATACATTTATGAGACAGACCCTGATAACCTCAACTATTTGACAACTGCTA
AGGCTGCGACAGCAAATATTACCAGTAACGTGGTTGATGGTTTGCTAGAAAATGATCGCTACGGGAACTTTGTGCCGTCT
ATGGCTGAGGATTGGTCTGTATCCAAGGATGGATTGACTTACACTTATACTATCCGTAAGGATGCAAAATGGTATACTTC
TGAAGGTGAAGAATACGCGGCAGTCAAAGCTCAAGACTTTGTAACAGGATTAAAATATGCTGCTGATAAAAAATCAGATG
CTCTTTACCTTGTTCAAGAATCAATCAAAGGGTTGGATGCCTATGTAAAAGGGGAAATCAAAGATTTCTCACAAGTAGGA
ATTAAGGCTCTGGATGAACAGACAGTTCAGTACACTTTGAACAAACCAGAAAGCTTCTGGAATTCTAAGACAACCATGGG
TGTGCTTGCGCCAGTTAATGAAGAGTTTTTGAATTCAAAAGGAGATGATTTTGCCAAAGCTACGGATCCAAGTAGTCTCT
TGTATAACGGTCCTTATTTGTTGAAATCCATTGTGACCAAATCCTCTGTTGAATTTGCGAAAAATCCGAACTACTGGGAT
AAGGACAATGTGCATGTTGACAAAGTTAAATTGTCATTCTGGGATGGTCAAGATACCAGCAAACCTGCAGAAAACTTTAA
AGATGGTAGCCTTACAGCAGCTCCTCTCTATCCAACAAGTGCAAGTTTCGCAGAACTTGAGAAGAGTATGAAGGACAATA
TTGTCTATACTCAACAAGACTCTATTACGTATCTAGTTGGTACAAATATTGACCGTCAGTCCTATAAATACACATCTAAG
ACCAGCGACGAACAAAAGGCATCGACTAAAAAGGCTCTCTTAAACAAGGATTTCCGTCAGGCTATTGCCTTTGGATTTGA
CCGTACAGCCTATGCCTCTCAGTTGAATGGACAAACTGGAGCAAGTAAAATCTTGCGTAATCTCTTTGTGCCACCAACAT
TTGTTCAAGCAGATGGTAAAAACTTTGGCGATATGGTCAAAGAGAAATTGGTCACTTATGGGGATGAATGGAAGGATGTT
AATCTTGCAGATTCTCAGGATGGTCTTTACAATCCAGAAAAAGCCAAGGCTGAATTTGCTAAAGCTAAATCAGCCTTACA
AGCAGAAGGAGTCCAATTCCCAATTCATTTGGATATGCCAGTTGACCAAACAGCAACTACAAAAGTTCAGCGCGTCCAAT
CTATGAAACAATCCTTGGAAGCAACTTTAGGAGCTGATAATGTCATTATTGATATTCAACAACTACAAAAAGACGAAGTA
AACAATATTACATATTTTGCTGAAAATGCTGCTGGCGAAGACTGGGATTTATCAGATAATGTCGGTTGGGGTCCAGACTT
TGCCGATCCATCAACCTACCTTGATATTATCAAACCTTCTGTAGGAGAAAGTACTAAAACATATTTAGGGTTTGACTCAG
GGGAAGATAATGTAGCTGCTAAAAAAGTAGGTCTATATGACTACGAAAAATTGGTTACTGAGGCTGGTGATGAGACTACA
GATGTTGCTAAACGCTATGATAAATACGCTGCAGCCCAAGCTTGGTTGACAGATAGTGCTTTGATTATTCCAACTACATC
TCGTACAGGGCGTCCAATCTTGTCTAAGATGGTACCATTTACAATACCATTTGCATTGTCAGGAAATAAAGGTACAAGTG
AACCAGTCTTGTATAAATACTTGGAACTTCAAGACAAGGCAGTCACTGTAGATGAATACCAAAAAGCTCAGGAAAAATGG
ATGAAAGAAAAAGAAGAGTCTAATAAAAAGGCTCAAGAAGATCTCGCAAAACATGTGAAATAA


Secondary structure


Protein secondary structures were predicted by S4PRED and visualized by seqviz.



3D structure


Source ID Structure

Transmembrane helices


Transmembrane helices of protein were predicted by TMHMM 2.0 and visualized by seqviz and ECharts.



Visualization of predicted probability:


Similar proteins


Only experimentally validated proteins are listed.

Protein Organism Identities (%) Coverage (%) Ha-value
  amiA3 Streptococcus thermophilus LMD-9

58.548

100

0.586

  amiA3 Streptococcus thermophilus LMG 18311

58.245

100

0.583

  amiA Streptococcus salivarius strain HSISS4

58.094

100

0.582


Multiple sequence alignment