Gene Information Plasmid Coverage information Fosmid Coverage information Sequence |
Gene Information |
Locus tag | Pcryo_2363 |
Symbol | |
ID | 4034609 |
Type | CDS |
Is gene spliced | No |
Is pseudo gene | No |
Organism name | Psychrobacter cryohalolentis K5 |
Kingdom | Bacteria |
Replicon accession | NC_007969 |
Strand | - |
Start bp | 2898455 |
End bp | 2901658 |
Gene Length | 3204 bp |
Protein Length | 1067 aa |
Translation table | 11 |
GC content | 39% |
IMG OID | 637974843 |
Product | HsdR family type I site-specific deoxyribonuclease |
Protein accession | YP_581624 |
Protein GI | 93007187 |
COG category | [V] Defense mechanisms |
COG ID | [COG0610] Type I site-specific restriction-modification system, R (restriction) subunit and related helicases |
TIGRFAM ID | [TIGR00348] type I site-specific deoxyribonuclease, HsdR family |
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Plasmid Coverage information |
Num covering plasmid clones | 6 |
Plasmid unclonability p-value | 1 |
Plasmid hitchhiking | No |
Plasmid clonability | normal |
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Fosmid Coverage information |
Num covering fosmid clones | 6 |
Fosmid unclonability p-value | 0.267976 |
Fosmid Hitchhiker | No |
Fosmid clonability | normal |
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Sequence |
Gene sequence | ATGAGCTACG AATATTCAGA AGATGGCATG GTTGAGGAAG CGACCAAAGA CGTATTAATT GAGCTTGGCT GGGAAGTCGT AACAGCTTGG AAAAAAGAAA CCTTTGGTAA GGACGGTCTA CTTGGAAGAG AGAATAGATC AGAGGTCATT CTCACTCGTG AGTTAAGCCA TGCTTTGGTT ACCCTAAATC CTGGCTTGCC TGATACCGCT TATCAGCAAG CTATCGACAT CATTACTCAA AAAACGGCAG ATAAAACGCT TGGTAAGATC AACCAAGAAA AGTATAAGCT GCTAAAAGAT GGTGTCCCTG TTAAATTCAC TAATAGCGAT AATGAACTTG AAGAGCGCGA TCTAAAGGTC TTTGATTATC AAGACTATAG CAATAATAGC TTTTTGGCGG TAAGCCAATT AGAAGTGGTT GGAGATCTAT ATAACCGTCG CCCTGATATA GTGGGTTTTG TTAATGGCAT TCCGCTAGTG TTCTTTGAGT TAAAAGCTCA TCATCAGGAT CTGCGTCACG CTTATGATGA TAACTTTACT GATTATAAAG ATACCATCCC TGCTATTTTT CATTGCAACG GCTTCGTTAT CCTTAGTAAT GGTACAGAGT CTAAAGTAGG AACGGTAACC AGCCCTTATA AGTACTTCCT TGATTGGAAG CGTATTGAGG AAGATGCAGA AGGGGTAGTT AGCTTAGATA CCATGATTCG TGGTACTTGT GACCCAAAAC GCTTAATGGA TATTTTTGAG AACTTTCTAT TGTTCGACAC CTCCTATGGT GAAGTCGTTA AGCTGATGGC AAAAAATCAC CAATATATTG GCGTTAATAA AGTCATCGAT CAAGTCGATA ATATTGAAGA TTTGCAGGGC AAGCTTGGTG TGTTTTGGCA CACTCAAGGC AGTGGTAAGT CTTACTCAAT GGTTTTCTTA TGCGAGAAAA TCCATCGGAA GATGGGAGGG TCTTATACCT TCTTATTGGT AGTTGATAGA AGCGAGTTAG AAAGTCAGAT CTATGATACT TTTTCAGGCG TTGGCGTCGT TAATAAAAAA GAATTAATTG CAGGTAAAAA GTCAGGAATG ACAGGGCGCG AGCACTTGCG AGAGCTACTA TCGGAAAACC ATAGATACAT ATTTACCCTG ATTCATAAGT TCTCTATTGA CCCAAATAAA GAGAGCGAAT ATCCATTAAT AACTAATCGT AAGAACGTCA TTGTGATATC GGATGAAGCT CATCGTACAC AAGGTGGTAC TTATGCACGC AATATGCGGT TTTATGGTTT ACCTAATGCG TCGTATTTGG GCTTTACAGG TACGCCGATT ATCAAAGACG AAGAAGAGCT GACCAAAGAT ATATTTGGTG ACTATGTGTC TGTTTATGAC TTTAAACGTG CTGTTGAAGA TGGGGCGACT TTGCCTCTTC GTTATCTTAA TAAAGGAGAG CTGCTTAACA TCGATAATCC AAAGCTTGAT GAAGAAATGG CTGAAGTTTT AGAGAATGAA GATCTAACCG AAGATCAAAG ACAGAAGCTT ATTCATAAGT TTAGTAGAAA CTATCCGATA CTCACGGCAC AATCCCGATT AGAGACTATT GCCAAAGATT TAGTATGGCA CTTCAATGAA CGTGGTTATC AGGGTAAGGC GATGCTTGTC GCTCTCGATA AGCCTACAGC TGTACGTATG TATGATCTTA TTAAGCGCTA TTGGGGTGAA TACCTAATTG AGCTACAAAA GCGTATTGAT AATGCAGAAG ATGTTCAAGA GGCTCAAGAG CTAGGAAGGA AATTTAATCG AGTCACTGAA ACTGAAGTGT GTGTGGTGGT CAGTGGCGAG CAGAATGAAG TTGATAAGTT TAAAAAGCTT GGATTAGACG TTGCTACCCA TCGTAAGAAG ATGGTTGAGC GAGACCTAGA AAAGGAATTT AAAGATCCTG ATAATCCATT TCGTTTAGCG ATTGTCTGTG CAATGTGGAT CACAGGCTTT GATGCACAGT GTGTATCTAC CGTATATCTA GATAAGCCTA TCAAAGGTCA TACTCTAATG CAGACCATTG CAAGGGCGAA CCGTGTCTAT GACGATGAGA AAGAGAATGG CTTAATTGTT GATTACGGTA ATGTCTATGA GCAGTTAGAA AAAGCATATT CTGTATATGG TGAAGGTGGT ACTGGTGGAG GTGGTAAAGG AACAGGTCCT GAAAAGCCAA TCCCTGAATT ATCTGAGTTA GAGGTAGAGC TGAAAATTGC TATTGAAGAA ACCATCAAGC ATCTTGGATC GTTGGGCTTT GATCTTGAAT CTCTCAAGAA TGCCAGTCCA ATGCTTAGAA TTAGCAAATT ACAAGAAGCA GAAAACTGTG TGTGCTTAAA TGAGACAAGC CGAGCAACTT TTGAGGTTAT GGCGCAGAAT GTTTTTAGAA AATACAAAGC CCTCTTTCCT GAGCCACAAG CCAAGTCTCA TACTAAAGAT CATAATGCTA TCGAGGCTAT TTATAAGCAG CTCAATAAAA AAGCCAAATC AGCAGATATC ACTGAAGTGA TGAAGAAGCT ACAAAGTTTA GTGAGCGATA GCATTAGCGT AAAACAGAGT CATAATGTAG ATGGTGTTTA TATTGACTTA AGTAACTTGG ATTTTGACAA GCTGAAAGCT GCTTTCGCAA AGTCTGATCA AAAAAATACT ATGACATATA CGCTTCAACA GATCATTGAA AATAAGCTGG AGCAAATGTT AAAGGAGAAT CCTTTAAGGA TTGAGTTCTA TGAGCGTTAT AAAGAGATCA TTGATGCTTA CAATGCTGGT AAGTCTCTAG AGAATACAGT GAAAGCTTTC GATGATCTAA ACGATTTTGT TAGAGATCTA TCTGTTGAAG AGCAGAGAGC TGTAAGAGAA AATCTAGGCG ATCAAGAAGT GTTGGCAATT TTCGATTTAT TAACTAAAGG AAAAGAGCTA AACAATGAAG ATGTTAAAAA AGTTAAAAAA GTCGCTAAGG ATACGTTAGA TAAATTAAAA GTAGAAAAGT TAAGTATCGA GCGTTGGCGA GAAAGTCGTG AAGTAATCGC TCAAGTTAAG ATCGTTATTC ATGAGAATAT GTTGCACTTA CCTATTGAAT CATATAGTGA TGAAGATGTT GATACTAAAG CAACAGATGT CTATCAGCAT ATCTTTGCCA GCTACCGTGG TGGTAATGAT AGTGTTTATA GAATGAGCGC TTAA
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Protein sequence | MSYEYSEDGM VEEATKDVLI ELGWEVVTAW KKETFGKDGL LGRENRSEVI LTRELSHALV TLNPGLPDTA YQQAIDIITQ KTADKTLGKI NQEKYKLLKD GVPVKFTNSD NELEERDLKV FDYQDYSNNS FLAVSQLEVV GDLYNRRPDI VGFVNGIPLV FFELKAHHQD LRHAYDDNFT DYKDTIPAIF HCNGFVILSN GTESKVGTVT SPYKYFLDWK RIEEDAEGVV SLDTMIRGTC DPKRLMDIFE NFLLFDTSYG EVVKLMAKNH QYIGVNKVID QVDNIEDLQG KLGVFWHTQG SGKSYSMVFL CEKIHRKMGG SYTFLLVVDR SELESQIYDT FSGVGVVNKK ELIAGKKSGM TGREHLRELL SENHRYIFTL IHKFSIDPNK ESEYPLITNR KNVIVISDEA HRTQGGTYAR NMRFYGLPNA SYLGFTGTPI IKDEEELTKD IFGDYVSVYD FKRAVEDGAT LPLRYLNKGE LLNIDNPKLD EEMAEVLENE DLTEDQRQKL IHKFSRNYPI LTAQSRLETI AKDLVWHFNE RGYQGKAMLV ALDKPTAVRM YDLIKRYWGE YLIELQKRID NAEDVQEAQE LGRKFNRVTE TEVCVVVSGE QNEVDKFKKL GLDVATHRKK MVERDLEKEF KDPDNPFRLA IVCAMWITGF DAQCVSTVYL DKPIKGHTLM QTIARANRVY DDEKENGLIV DYGNVYEQLE KAYSVYGEGG TGGGGKGTGP EKPIPELSEL EVELKIAIEE TIKHLGSLGF DLESLKNASP MLRISKLQEA ENCVCLNETS RATFEVMAQN VFRKYKALFP EPQAKSHTKD HNAIEAIYKQ LNKKAKSADI TEVMKKLQSL VSDSISVKQS HNVDGVYIDL SNLDFDKLKA AFAKSDQKNT MTYTLQQIIE NKLEQMLKEN PLRIEFYERY KEIIDAYNAG KSLENTVKAF DDLNDFVRDL SVEEQRAVRE NLGDQEVLAI FDLLTKGKEL NNEDVKKVKK VAKDTLDKLK VEKLSIERWR ESREVIAQVK IVIHENMLHL PIESYSDEDV DTKATDVYQH IFASYRGGND SVYRMSA
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