Entry |
|
Symbol |
fen1.L, fen-1, fen1, fen1-a, fen1-b, mf1, rad2, xFEN1a
|
Name |
(RefSeq) flap endonuclease 1-A
|
KO |
K04799 | flap endonuclease-1 [EC:3.1.-.-] |
|
Organism |
xla Xenopus laevis (African clawed frog)
|
Pathway |
|
Brite |
KEGG Orthology (KO) [BR:xla00001]
09120 Genetic Information Processing
09124 Replication and repair
03030 DNA replication
394303 (fen1.L)
03410 Base excision repair
394303 (fen1.L)
03450 Non-homologous end-joining
394303 (fen1.L)
09180 Brite Hierarchies
09182 Protein families: genetic information processing
03032 DNA replication proteins [BR:xla03032]
394303 (fen1.L)
03400 DNA repair and recombination proteins [BR:xla03400]
394303 (fen1.L)
09183 Protein families: signaling and cellular processes
04147 Exosome [BR:xla04147]
394303 (fen1.L)
DNA replication proteins [BR:xla03032]
Eukaryotic type
DNA Replication Elongation Factors
Other elongation factors
394303 (fen1.L)
Prokaryotic type
Elongation factors (archaeal)
Other elongation factors
394303 (fen1.L)
DNA repair and recombination proteins [BR:xla03400]
Eukaryotic type
SSBR (single strand breaks repair)
BER (base exicision repair)
Long Patch-BER factors
394303 (fen1.L)
Exosome [BR:xla04147]
Exosomal proteins
Exosomal proteins of haemopoietic cells (B-cell, T-cell, DC-cell, reticulocyte, and mast cell)
394303 (fen1.L)
|
SSDB |
|
Motif |
|
Other DBs |
|
LinkDB |
|
Position |
4L:complement(17142202..17145037)
|
AA seq |
382 aa
MGIHGLAKLIADVAPAAIKEHDIKSYFGRKVAVDASMCIYQFLIAVRQDGNTLQNEEGET
TSHLMGMFYRTIRMVEHGIKPVYVFDGKPPQMKSGELAKRSERRAEAEKLLEAAEEAGEV
ENIEKFTKRLVKVTKQHNEECKKLLTLMGIPYVDAPCEAEATCAALVKAGKVYAAATEDM
DALTFGTPVLLRHLTASEAKKLPIQEFHLNRVIQDIGITHEQFVDLCILLGSDYCETIRG
IGPKRAIDLIRQHKTIDEIIDNIDLKKYPVPENWLHKEAKHLFLEPEVVDTDITELKWIE
PDEEGLVAFMCGEKQFSEDRIRNGAKKLAKNRQGSTQGRLDDFFKVTGSVSSTKRKEAES
KGSAKKKAKTGGTPAGKFKRGK |
NT seq |
1149 nt +upstreamnt +downstreamnt
atgggaattcacggtttggccaaacttatcgcagatgtggcacctgcagctatcaaagag
catgatataaaaagttactttggtcgaaaggtggcggtcgatgcttccatgtgcatttat
cagtttcttattgcagtgagacaggatggcaacacgctgcaaaacgaggaaggtgaaacc
acaagccatcttatgggcatgttttaccgtaccattcgcatggtagagcatggcatcaaa
ccagtgtatgtgtttgatgggaagccaccacagatgaagtccggtgaactagccaaacgc
agtgagcgtagggccgaggcagagaagttgcttgaagctgccgaggaggctggagaagtg
gagaacattgagaagttcactaaaagacttgtcaaggttaccaagcagcacaatgaggaa
tgcaagaaattacttaccctaatgggcattccttatgtggatgcaccctgtgaagctgag
gccacgtgtgctgccttagtaaaagcagggaaagtgtatgctgcagcaacagaagacatg
gatgccctgacctttggcacccctgtgctccttaggcacctcacagcaagcgaagctaaa
aagctgcctattcaggagttccatctaaaccgtgtcattcaggacataggtatcacacat
gaacaatttgtggatctctgtatcttgctcggaagtgactactgtgaaaccatccgtggc
attggacccaaaagagccattgacctgatccgtcagcataagaccattgacgagatcatt
gataacattgacctcaagaaataccccgttccggaaaactggctgcacaaggaggcaaaa
catcttttcttggaaccagaagtagtcgacactgacatcaccgagctgaagtggatcgag
cccgatgaagaaggattggtggccttcatgtgtggggagaagcagttcagtgaagaccgc
atacgcaacggggccaaaaagttggccaagaaccggcaaggcagcacacagggccggctg
gatgactttttcaaagtgaccggatccgttagctcaactaaaagaaaagaggcagaatcc
aaaggatccgctaaaaagaaagccaaaactggaggtacccctgcaggaaagttcaagagg
ggtaaatga |