0478_slr1759-sacB

Accession
slr1759
Barcode
GGTTTGGTTTTGTTGGCC
Plasmid made
yes
Plasmid info
[empty]
Mutant made
yes
Mutant segregated
yes
Mutant info
[empty]
Gene Homology
hybrid sensory kinase
Gene ID
hik14
CDS
ATGGTTATTAGTGCCACTGTGATATCGATGAAATCTCCCCTGCGTCGCCTATTACTTTCCCCCGTACTACCAATTCTCATCGGGGCCGGGCTATCGGTAATGACTGTTCATACTTGGCTTTTTCTCTACAACCAAGTTCAAGAGCGACTGAAGCAGGTTTTGACCAATCGCCTAACTAACATCCACGAACAAATTGAAAACCAGCTCAATATCCATGTCCGTCAATTAGAGCAGATGGCCGGACGTTGGGAACGATCGCCGACGGGAACGGAGCAAACAGATTGGCGGTTAGATGCCAGGGCCCAAGCAGAAGGCTTCGATGGGTATCAGACGATTCAATGGGTAGATCCAAAGTTTGTGGTGCGGTGGGTTGAACCATTGCCCGATGATGAGCACGACATTGACTATGCCAACCAATATCCCCACCAAATCCAGTCCCTAGAGCTAGCGGCCCGGCAAAAAAATACCATCCTCAGCGGAGTGGTGGATTTAGACCAAGGAGAGAAGGGATTTTTGGTCTATGTCCCCCTATTTATTGGCGATAGGTTTGACGGTTTTGTGGTGGGGGTTTTCCAGCTCGATCAGTTCATCGGCTCCGTTCGTCCTCTGTCCGGCAATAAACCAGACCAGGATAGTGGTCTGCGGAGTTTTGGTCTACGTATTTTTGAAGGCAATCAACTCATTTATAACGATGTCCCTGACGATTGGGAGCAGGACATTGTGGTGACCCAGGAATTGGCATGGGCTAACTCATTGCCCCAGGCGGAAGCCATGACCAGCCGTTGGCAACTGCAATTGGTGCCGGGCCCCATTCTGCTAGATCAGTACGGTTCATCGCAATGGATTTTGTTCAGTGGTTTGCTGATGGCTTGGGCCGTGGCGATCGCCGTTTATTATCTGCAAAAAAGTAGTAAACATAGTGAACAACTGAGTGAATCAATCAAACAACAGCAAAAGGTCGAAGAGTTTTTAAAATCCACTCTCCAGGAATTAGCCGTGCAAAAAACCGCCCTGGATGAAGCGGCCATTGTGGCCATTACTGATACCGAGGGCGTTATCACCTACGTCAACGATAAATTTGTCGAGGTGTCTGGTTATAGTCGGGAAGAATTAATTGGCAACACTCATCGCTTGGTCAGTTCTGGCTACCATTCCCCAGAATTCTTTCAACAATTTTGGCAGACCATTAGGGCAGGAAAAGTCTGGCATGGGCAAATTAACAATAGAGCCAAAGCCGGTAATACCTATTGGGTTGACAGCACCGTTGTTCCTTTTTTGGATGACAATGGCAATCCCTATCAATACCTAGCCATCCGCTTTGAAATTACCTCCAGCAAACAGGCGGAAAAAAGTTTGCGCGAAAGTGAAGCCCGGTTTCGCATGATGGCGGACACCTCCCCGATTATGTTGTGGGTGGCGGACCAGGACAAAAAAATGACCTTTGTCAATCAGTCTTGGTTGGAATTCCGGGGGGCTACCCTAGCGGAAGAATCGGGCAATGGTTATCTAGAAGGCATTCACCCCGATGATAAGGGCCATTACTTAGGGGTTTATTCCCAGGCCTTTGGCGATCGCCGACGTTTTGAATTGGAATATCGCTACCGCAGGGTAGACCAGCAATACCGTTGGATTGTCAATGTGGGGGTGCCCCGTTACCTCGAAGACGGGAAATTTATGGGCTACGTGGGGTCTTGTCTGGATATTACTGACCGTAAACAGGCCCAGGACATCCTCCAGAAAAAGCTTAATCAAATCCTGTTAATGCGGAAAATTAGCCAGGAAATCCGCCGGAGCTTACAACCGACCTTAATTTTCCAAACCGCCGCCCGTCAAGTGGGCAATGTCTTTGCGGTGAGCCGTTGCCTGATCCACAACTACTCGGAAGCCACTACCCTACAGGTGCCCGTGGTGGCGGAGTATTTAGGGGGACAATTTACTTCCCTGTTAGCCGGAGAAATTGCCGTGGAACAAGCCTATGACCCCACCATCATTCAAGGCGATCGGGCTATGGCTGTGGTGGACCTAGACCAGGATTTAAACTCCACCCACACCAAAGCATTTTACCAACGGTTTCAGGTCAAATCCTTTTTGGCAGTGCGGACTTCCTATCAAGGTAAAGCCAACGGCATCATCGCCCTGCACCAGTGTGACCGACAACGGGTTTGGACAGCGGACGAAATTGAGTTACTAGAGGCGATCGCCGAACAAATGGGCATAGCCCTGGCCCAAGCCGCCCTACTGGAAAAGGAACGGGAACGCCGTCGGGAATTGGCCCAGAAAAATCTGGAATTAGAAAAAGCTACATGGGCCGCCGAAGCCGCTAACCGTGCCAAAGGTGAATTCCTGGCCATGATGAGCCATGAAATTCGCACTCCCATGAATGGAGTCATTGGCATGACGGAATTGTTGATTATGACCGACTTAAATCTACAGCAACTAGATTACGTCCAAACCATTCGCCAGAGTGGAGAAACCCTGCTGACCATCATCAACGATATCCTCGACTTTTCTAAAATTGAAGCCGATAAACTGGTGTTGGAAACCCAAGCATTTGAACTGAGACCCCTAATTGAAACCGTGCTGGAAATGTTTGGTCCCATTGCCAGGGCTAAACATTTGGAATTGACCTATGGCATCGACCCCCAAACCCCGGCCCGCATTTTGGGAGACCAGGTACGATTGCGGCAAATTCTCTCCAATTTGATCGGCAATGCCCTCAAATTCACCGAAAAGGGGGAAGTAGTGCTGACGGTGAAAGGGGAACCCTTTGATCCCGCTGAGTCTTACCACACTATTTTGAATTTACCCCACCCCAGCCATCGCATCTGTTTTAATCTGCGGGATACGGGCATTGGCATACCGTTGGATCGGCAAGACCGTCTGTTCAAGTCCTTTAGCCAAGTGGATTCTTCCACCACCCGGAAATATGGTGGCACAGGATTGGGTTTAGTCATTAGCCAACGCCTGACCCAGATGATGGGAGGGGTGCTGACGGTGACCAGTGAACCGGGGGTAGGTTCCAATTTTCGTTTCTGCATTCTGACCACAGCCCAGGCCCCCGCCCTAGCGGAAGCTGATTCGGTGCAACAGATGAAGGGTAAACAAGTTTTGATTGTGGATGATAACGAAACTAACCGGCGGATTCTGCAGGATCAATGCCAGGCCTGGGGGTTGGTGTGCCATTGCTTTACCAGTGGGGAATCAGCCCTAGATTGGTTTGCCCGTTGCCCAGACTTGGATGCGGCTATTTTAGATTTACAAATGCCCAATATGGACGGCATTACCCTGGCGCACCATCTACGACAATTTGCTCAGGGCAAGGATCTGCCCATTATTCTGCTTTCCTCTGGGCTAGTGGCGGGAGCGGATGAGTTGTCTGTATTTCAGACGGTGCTCAATAAACCAGTGCGTCAGTCCTTAATATTTGACAGTTTAGTTAACATTTTTCAGGGGTCTATAGGTCTGGCTGATTACGCGCCACAGTTTGATCAGTTAGATTTACCGGAGTTTGTCCCAGACGGGGATGGGCTCCCCACGGAAGATAACGCCACCAGTCTACAACCGGCCCTACAAATTCTCTTGGCAGAGGATAATCTGGTTAATCAAAAGGTAGCCCACCAGATGCTAAATAATTTGGGTTACCCGGTGGCGATCGCCAACAATGGCCAGGAAGTGATCGATGCCTTGGAGAAAAAATTCTATGACTTGGTCTTGATGGATATGCAAATGCCGGTGATGGATGGCATAACCGCCTGCCGCCACATCCGTCAAACCTTGCCGCTGGAACGTCAGCCTCGCATTGTGGCCATGACCGCCAATGCCATGCCGGGCGATCGCCAAGAGTGCTTGGATGCTGGCATGGACGGCTATATTAGTAAGCCTATTTCCATTAACCAACTACGAAAAGTACTACAGGATACTTCAGCCCTAATCACTTCCCCCCAAGCTAGGGAAGATATTGTTACTCTAGGGGACAAAATTACGGTTGTGGAAGAACAAACCATGGTCAAACCCACTGATGTAACCGAGTCTCCCCTTGACCCCACGGCGATCGCCTTTTTACGGGACGACCTCTGTGGCGGCGACCTGACCCTATTCGGGGAAATGGTGGCGTGTTACTGCCAGGAAAGCCAAAAGCTCATAGAAGAATTAGTACAGGGCTTAGAGGTGGACGATTTTGCCGTGATCAGACGCACCGCCCATTCCCTCAAATCCAGCAGTGCTTCCCTGGGAGCCCAACAATTGTCCACTTTTTGTCAACAACTAGAAAAGAACGCTGGATCAGGTAACCTAGGATTAGGGTCTCCCCCTCAGTTGGTTGACCGCTGTCGACAATTACACATCGCCGTGGTGGAAGCCCTTGCGCCCTTCACCATTCCCTCGCCATGA
CDS Length
4389 bp
Strand
Positive
Up flank
GTTTTAGCTCCGGTGGCCCTGGGAAAAATCTGTTTCAATAACCGGCCTAGTTCACCGATTATGGCCCCGACTAAGTTGGTCTAGAAATAACAAAAAATTAAATTAAACGGCGATCGCCAAACGGATAATTTTTCTGGGGGGCGATTTTTCTTTTGGAAAGATTTGTTGAGTCTAATCAATGGTCTGAATAGGTATTTATC
Up flank length
200 bp
Down flank
ATGAATCTGCCTCAACCAATAGAAACCGCCGCCGCAAAAATTTTGGTGGTGGACGATGACGGTTTTATGAGGATGCAACTGCGGGTTTATTTGCAAAAGGAAGGACACCGGGTAGAACTGGCTACCAATGGGGAAGAAGCCCTAACCAAATTTGCCGAAATTAAACCAGAAGTGGTGCTACTGGATGCCGTGATGCCCGT
Down flank length
200 bp
Map (Benchling)
[empty]
Parts (SynBioHub)
[empty]
Uniprot search
https://www.uniprot.org/uniprot/?query=slr1759
Google Scholar search
https://scholar.google.co.uk/scholar?q=%22slr1759%22
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