Entry
Name
KO
Organism
fvr Fusarium verticillioides
Pathway
Brite
KEGG Orthology (KO) [BR:fvr00001 ]
09120 Genetic Information Processing
09124 Replication and repair
03030 DNA replication
FVEG_07075
03410 Base excision repair
FVEG_07075
03420 Nucleotide excision repair
FVEG_07075
03430 Mismatch repair
FVEG_07075
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03032 DNA replication proteins [BR:fvr03032 ]
FVEG_07075
03400 DNA repair and recombination proteins [BR:fvr03400 ]
FVEG_07075
Enzymes [BR:fvr01000 ]
6. Ligases
6.5 Forming phosphoric-ester bonds
6.5.1 Ligases that form phosphoric-ester bonds (only sub-subclass identified to date)
6.5.1.1 DNA ligase (ATP)
FVEG_07075
6.5.1.6 DNA ligase (ATP or NAD+)
FVEG_07075
6.5.1.7 DNA ligase (ATP, ADP or GTP)
FVEG_07075
DNA replication proteins [BR:fvr03032 ]
Eukaryotic type
DNA Replication Elongation Factors
Other elongation factors
FVEG_07075
Prokaryotic type
Elongation factors (archaeal)
Other elongation factors
FVEG_07075
DNA repair and recombination proteins [BR:fvr03400 ]
Eukaryotic type
SSBR (single strand breaks repair)
BER (base exicision repair)
Long Patch-BER factors
FVEG_07075
NER (nucleotide excision repair)
Other NER factors
FVEG_07075
MMR (mismatch excision repair)
Other MMR factors
FVEG_07075
BRITE hierarchy
SSDB
Ortholog Paralog Gene cluster GFIT
Motif
Motif
Other DBs
LinkDB
All DBs
Position
7:1692857..1695921
Genome browser
AA seq
916 aa AA seq DB search
MLLSVRSTRGLTIAPLFLQNTSRLSSRPVNRYSLCLFRLFSTTIPGIMAPKQATLGKFFG
AKGAPPQQTKLSFSSKPKKEEVKDEEEADMKVKSGSDSEKETKKRARSEDKPKPEPTPIQ
KEEADDESDGPVTKRARRSRRRIEEEDDDEMGEETVKKDTHASPKKSNVASTSPKVKSPK
RSKPTPKAKAAKEPTPDENDDSAKEEASTASASEAELDDEADVEDKPEVAAKAREKVQTK
FKSKMKDPYPDWKPGTPVPYAALCTTFSLVEMTTKRLIIMEHCSLFLRQVMRLTPEDLLP
TVLLMINKLAPDYAGIELGIGESLIMKAIGETTGRSLQVIKADQKEIGDLGLVAVKSRST
QRTMFKPKALTIRGVHQGLMNIATVTGNGAQGRKVDGIKKLLAAADANSTGKVDITKDKG
GPSEAKFIIRFLEGKLRLGLAERTVLVSLAQAIVAHEADAKGKVPSTSDLEKGESILKTV
YSELPSYDVIIPAMLEHGIMKLRENCKLRPGVPLKPMLAKPTKAITEVLDRFEGQTFTCE
YKYDGERAQIHYVAKDAPQELSEASQGAAKEAAAGVASIFSRNSEDLSRKYPDILAKLHT
WVKPDTKSFVLDCETVAWDVDEKKVLPFQQLMTRKKKDVKVEDVKVKVCVFAFDLLYLNG
EAVVEKALRERRELLETAFNPVEGEFSFATHMNGQELDEIQVFLDESVKASCEGLMVKML
DGTESGYEPSKRSRNWLKIKKDYLSGVGDSLDLVVLGAYYGKGKRTSVYGAFLLACYNPN
SETYETVCNIGTGFSEQVLEDLHTQFSEITIDRPKPFYSHSSGGQHQPDVWFEPRYVWEV
KTADLTLSPRYKAGAKEGVDPSGNKGISLRFPRFIRVRDDKKADAATTSRQVAEMYRKQE
SVTKNKGPSVDDDFEY
NT seq
2751 nt NT seq +upstream nt +downstream nt
atgctactcagtgtcaggtcaactcgcgggctcacaattgcccctctctttttacaaaac
acttccagattgtcatcacgacctgtaaaccgttactctttgtgtttgtttcgtttgttt
tcaacaacaattccaggcatcatggccccaaaacaggcgacactcgggaagttctttggg
gcaaaaggtgcgcctcctcaacagacaaagctttccttcagcagcaaacccaaaaaagaa
gaagtgaaggacgaagaggaggctgacatgaaggtcaaatctggctccgattctgagaaa
gaaacaaagaagcgagcaaggtcagaagacaagcccaaacccgagcctacgcccattcag
aaagaggaagccgatgacgagagcgatggacctgtcaccaagcgagcacgaagaagtcga
aggcgaattgaggaagaagatgacgatgagatgggtgaagaaaccgtgaagaaggacaca
catgcatcccccaagaagtcaaatgtcgcaagcacatccccaaaagtcaagtcgcccaag
aggtcaaagccaacccccaaagccaaggcggccaaagaaccaactcctgacgagaacgac
gattctgccaaagaagaggcttcgacagcttcagcttcggaagccgagcttgacgacgag
gcagatgtcgaggataagcctgaggttgctgccaaggctcgtgagaaggtccagacaaag
ttcaagtccaagatgaaagacccctatcctgactggaagcccggcacccctgttccgtat
gcggccctgtgtacaactttctctcttgtggaaatgaccaccaaacgattaattatcatg
gagcattgttctctgttccttcgccaggtcatgcgcctgacccctgaggatctattacct
acagtcttattaatgatcaacaaattggctcctgactacgctggcatcgagcttggtatc
ggcgagtcgttgatcatgaaggctatcggcgagacgaccgggcgaagtctccaggtgatt
aaggctgatcagaaagaaattggtgatcttggactggtggctgtaaagagtcgatcaact
cagcgcactatgttcaagcccaaggctttgactatcaggggtgtgcatcaaggcctaatg
aacatcgccactgtcactggcaacggtgcccaggggcgcaaggtggatggtatcaagaag
cttcttgctgcagctgatgccaactccaccggtaaagtcgatattactaaggacaaagga
gggcccagtgaagccaaatttatcattcgattcctggaaggaaagttgagacttggtctg
gctgagagaactgtgcttgtttctttggcgcaagctattgttgcccacgaagcagatgcc
aagggtaaggtccctagtacctcggatcttgagaagggtgaatcgattctcaagactgtc
tacagtgaacttccgagctacgacgtgattattcctgcaatgctagaacacgggatcatg
aagcttcgggaaaattgcaagctccgacccggtgtacctttgaagcccatgctggccaag
ccaaccaaggccattactgaagtactcgatcgcttcgagggacaaaccttcacctgtgag
tataagtatgatggcgaaagagcacaaatccattatgtggcaaaggatgcgcctcaagaa
ctaagcgaagcgagtcaaggcgctgccaaggaggctgctgctggtgttgctagcatcttt
tccagaaactccgaagatctctcccgaaagtatcccgatatccttgccaaactccatacc
tgggtcaagccggataccaagagctttgtcctggattgtgagacagtggcctgggatgtt
gatgagaagaaagtgttgcccttccagcaactcatgacacgcaagaagaaggatgtcaag
gttgaggatgtaaaggtcaaggtttgcgtatttgcatttgatttgttgtacctcaatgga
gaggctgttgttgaaaaggcactgcgtgaacgacgtgagcttctcgaaaccgcgtttaat
cctgtagaaggcgagttttccttcgctacgcacatgaacggtcaagaactggatgagatc
caggttttccttgacgaaagtgtcaaggcatcatgcgagggtctgatggtcaaaatgctg
gatggaactgagagtggatatgagcccagtaagcgaagtcgtaactggctcaagatcaag
aaggattacctctccggcgtcggtgattcactggatcttgttgttttgggcgcatactac
ggcaaaggcaagcgtacatctgtttacggcgcattccttctggcctgttacaaccctaac
tcggagacatacgaaactgtttgcaatattggaactggcttctcagagcaggtcttggag
gatctccatacccaattctctgagattaccattgacaggcctaagcctttttactcccac
tcttcgggtggtcaacaccaacctgatgtctggtttgagcctcggtatgtctgggaagtc
aagacagccgatttgaccctcagtccacggtacaaagccggtgctaaggagggtgtcgac
ccgtcaggaaacaagggcatcagtcttcgattccctcgcttcattcgtgtgcgagatgat
aagaaagctgatgctgccacgacaagtcgccaggttgctgaaatgtatcgcaaacaggag
agcgtgacaaagaacaagggtccctctgttgacgatgactttgagtattag