KEGG T01016: AN9178.2

Aspergillus nidulans: AN9178.2

Entry

AN9178.2 CDS T01016

Definition

hypothetical protein

Orthology

K00106

xanthine dehydrogenase/oxidase [EC:1.17.1.4 1.17.3.2]

Organism

ani Aspergillus nidulans

Pathway

ani00230	Purine metabolism
ani00232	Caffeine metabolism
ani01100	Metabolic pathways
ani01110	Biosynthesis of secondary metabolites
ani04146	Peroxisome

Class

Metabolism; Nucleotide metabolism; Purine metabolism [PATH:ani00230]
Metabolism; Biosynthesis of other secondary metabolites; Caffeine metabolism [PATH:ani00232]
Cellular Processes; Transport and catabolism; Peroxisome [PATH:ani04146]

SSDB

Motif

Pfam:

Ald_Xan_dh_C2 FAD_binding_5 CO_deh_flav_C Ald_Xan_dh_C Fer2_2 Fer2

Other DBs

NCBI-GI:

67904382

NCBI-GeneID:

2868017

UniProt:

Q5ARA2

Position

AA seq 1350 aa
MDALLPRSSPQLKFYLNGTPISLTSPHPRWTLLDFIRSQDGLKGTKLGCGEGGCGALSGK
HVITIEGLGTVDHPHPLQERIAQLHGSQCGFCTPGIVMSLYAMIRNAYDPVTGKFQLSAD
DIESKGHLDGNLCRCTGYKPILNAARTFIEDDLGSVPSIVESELVGTEEETESDMGAHSG
SGDTGSRSSGSCGRPGGCCKDSPGISSCSSRETDMTTPSLPDSPVLKQYDFIPYTPTTEL
IYPPGLAKFVPELLCYGDAEQAWVKPRSVQEALEILSQCPSATLVTGASEVQVDVRFKDF
RPSVSVFVGDITEMTGISWSEDMKTLYIGGSASLSDIEAECLRCIPLLKAVNLGSESVLS
AIARTLRYFAGRQIRNAACLAGNIATASPISDMNPLLLAVGATVHARTSAEETTIPMSEM
FKGYRKTALPSGSLITKIAVPMPSKDQIEIVNAYKQAKRKDDDIAIVTAAFRVRIAPGPD
YTVQEASLAFGGMAPTTVLAHKTASALEGKRWGDEAVLDIVLTSLGEEFNLPYSVPGGMA
TYRRTLTLSLFVRFWNYVNQKLGLEYDSDLIEEIHRGISTGTRDDDNPHAQRVVGQQIPH
LSGLKHATGEAEYVDDMPPLHRELHGALVLSERAHAKILSVNWTPALERGAVGYVDHTSL
PEEKNHWGPVVHDEPVFAKGEVHAHGQPIGLVYADDAMTAQIAAKAVIVTYEDLPAILTI
DEAIEARSFFNYGKELRRGAPPEEIRKELDDCEYTLSGTTKIGGQEHFYLETNAAIAVPH
TEDGSMDVWSSTQNTMETQDFLSQVTNVPRHKINARVRRMGGAFGGKESRSVPIACIVAV
AAKKARRPVRIMLNRDEDMMTSGQRHPVQCRWKVGFNREGKLLVLDADTYNNAGYSVDMS
AAVMDRCLTHIENCYYIPNVWLRGWVCKTNTHSNTAFRGFGAPQAMYITESIISAVAEKV
GIDVDEIRRRNLYQVGQRTPFNQVLDEDWHVPLLLEQVREEADYDARKKEIERFNSEHRW
RKRGIALIPTKFGISFATALHLNQASAAVRVYTDGSVLLNHGGTEMGQGLYTKMVQVAAQ
ELRVPVDQVYTQDTSSYQTANASPTAASSGSDLNGMAIKHACDQINERLRPYREKYGEDA
DLGTIAKAAYRDRVNLSAAGYYKMPTIGYEWGNYSENVKPMYFYFTQRQGVACTEVELDL
LTGTHTVLRADLKMDIGRSINPAIDYGQIEGAFVQGQGLFTMEESLWTRSGQLATRGPGT
YKIPGFADIPQVFNSSKGIGEPPLFMGSSVLFALRDALSHARRERGVSEPLVLDSPATVE
RLRLAVGDDLVHRAQVQRKDGEQGFFVAVA

NT seq 4053 nt +upstreamnt +downstreamnt
atggacgccctccttccgagatcatcgccacagctcaagttctacctaaacgggactccc
atctcactaaccagcccacatcctcgctggacactgctcgactttatcagatcgcaggac
ggtctcaagggaacgaagctggggtgcggtgagggcggctgcggtgccttatctggaaag
catgttatcacaatcgagggcttgggcaccgttgaccacccccatccgctccaagaacgg
atcgcccaactccacggctcacaatgtggtttctgtaccccgggtatagtcatgtcatta
tatgctatgatccgaaatgcgtacgaccctgtgacggggaagttccagctatccgcggat
gatatcgagagtaaggggcatctagatgggaacctttgccggtgcacgggctacaaaccc
atcctcaatgcagcgaggacatttatcgaagatgatctgggatctgtgccgagcattgtc
gagtcagagttggtaggcacggaggaagagacggagagtgatatgggcgcgcactcagga
tctggtgatacgggatcaaggtcaagcggctcctgcggtcgtcctgggggctgctgcaaa
gatagccctggcatttcgtcgtgttcctccagagaaacagacatgaccacgccctcactg
ccagattctcccgtcttgaaacagtatgactttatcccatacacaccaaccaccgaacta
atttacccgcccggactcgccaaattcgtacccgaactgctctgttacggtgacgctgag
caggcctgggtgaaaccaaggtcagtgcaagaggcactggagattctctcgcagtgcccg
tctgctacccttgtgactggagcaagcgaggtgcaggttgatgtccggttcaaagacttc
aggccgtctgtctctgtgtttgtcggcgatatcactgagatgactggtatatcatggagt
gaggatatgaagacgctgtatatcggcggctctgcctctctatccgatatagaggctgag
tgtctgcggtgtataccgctgctcaaggcagtaaatctcggctccgaatcggtgctttcc
gccatcgctagaactctgcgctactttgcaggccggcagatccgcaatgctgcctgtctg
gcgggaaacattgccacggcgtctcccatttcagacatgaacccgcttcttctggctgtg
ggtgcaaccgtccatgcacgaacttcggcggaagagacgaccatcccaatgtccgagatg
ttcaagggttacagaaagacagcccttccatccggctcgcttatcacgaagatcgctgtc
cccatgccatccaaagaccagatcgagatcgtcaacgcatacaaacaggcaaagcgaaag
gacgacgatatcgccattgtcactgccgcattccgcgttcgtatcgcccctggtccagat
tatactgtgcaggaggcatcgctggccttcggcggcatggcgcctaccactgtcctggca
cacaagaccgcatctgcccttgaagggaaacgctggggtgacgaggctgtgctcgatatc
gttctcacctctcttggagaagagttcaaccttccttatagcgtccccgggggaatggcg
acataccgaaggacattgacactctccctctttgtgcggttctggaactacgtaaaccag
aagctgggtcttgaatacgacagcgatctcattgaagaaatccacaggggtatttccaca
gggacccgagacgacgacaatccgcacgctcagcgagtcgtcggacagcagattccgcac
ctcagtggcctgaaacatgcaacgggcgaggccgagtatgtcgatgatatgcctccgctg
catagggagttgcatggggcacttgttctatcagaacgtgctcatgcgaagatcctcagt
gtcaactggacccctgcacttgagcggggcgctgtgggatatgttgatcatacttctctc
cccgaagaaaagaaccactggggtcccgttgtgcacgatgagccggtttttgctaagggt
gaagttcacgcacacggccaaccgattggtcttgtgtatgcagatgacgcaatgactgca
cagattgcggctaaagctgtcatagttacatatgaggatctgcccgctatactgacaatt
gacgaggcaatcgaagcgaggtccttcttcaactacgggaaggagctcagacggggcgcg
ccgcctgaagagatcagaaaagagttggatgactgtgaatatactctctcaggcacaacg
aagattggagggcaagagcatttctatcttgagacgaacgctgccatcgcggtaccacat
acagaggacgggagtatggatgtttggagcagtacccagaacacaatggagacgcaagac
ttcctctctcaggtgacaaacgtcccacgccataagatcaacgcccgggtccgtcgtatg
ggcggcgcctttggtggaaaagagtctcgatcggtcccaatagcgtgcatcgtcgccgtt
gcggcgaagaaagcacgccgtcccgtccggataatgctcaaccgcgacgaagacatgatg
acctccggccaacgacaccctgttcagtgccggtggaaggtcggctttaatcgcgaggga
aaactactcgtccttgacgcagatacctacaataacgcgggctactcagtagatatgtct
gccgcggtaatggacaggtgcctcacgcatatcgagaactgctactacatcccgaatgtc
tggctgcgcgggtgggtgtgtaagacaaatacgcactccaacacggcattccgtggcttt
ggggcgccgcaggctatgtatatcactgaaagtattatcagtgcggtggcagagaaagtg
ggtatcgatgtcgacgagatccggcggaggaatctgtatcaggtcgggcagcgcaccccc
ttcaaccaggtgcttgacgaggattggcatgttccgttgctgcttgagcaagtgcgcgag
gaggcagactatgatgcgcgcaagaaggagatcgaacggtttaatagcgaacaccgctgg
cgcaaacgaggaatagccctgattcccaccaaattcggcatctccttcgcgaccgccctc
catcttaatcaggcgtccgctgccgtccgtgtctacacagacggatcagttctgctcaac
cacgggggtacggagatgggccagggcctctatacgaagatggtgcaggttgcagcgcag
gaactgcgggttccggtcgaccaggtctacacgcaggacacgtcgtcttatcagacagcg
aatgcgagtcccacagcggcaagttcggggagtgatctcaatgggatggcgatcaaacat
gcttgcgaccagatcaatgaacggctcaggccgtaccgggagaagtatggggaggatgca
gacctaggtacgattgccaaagctgcctaccgagatagagtgaacctctcagccgccggg
tactataagatgcccactattggatatgagtgggggaattattccgaaaatgtaaagcct
atgtatttctattttactcagagacagggagtggcatgcaccgaggtcgagctcgacctg
cttacaggcacacacacagtcctccgtgcagacctcaagatggatattggccgcagcata
aaccctgcgattgactacggacagattgagggcgcattcgtgcaagggcagggtctgttc
acgatggaggagtccctctggacgcgatccggacaactggcaacccgcgggccaggcacg
tacaagattccggggttcgctgatatcccgcaagtattcaattcaagcaagggaatcggg
gagccaccacttttcatggggagcagtgtgctcttcgcgctgagggatgcgctcagccac
gcgcggagggagaggggggtaagcgagccgttggtgctagacagcccagctacggtggaa
aggctgaggcttgctgttggagacgacttggtgcacagggcgcaggttcagaggaaggat
ggggagcagggatttttcgttgctgttgcctga

All links

Pathway (5)   
   KEGG PATHWAY (5)   
Chemical substance (19)   
   KEGG COMPOUND (19)   
Chemical reaction (11)   
   KEGG ENZYME (2)   
   KEGG REACTION (9)   
Genome (1)   
   KEGG GENOME (1)   
Gene (4)   
   KEGG ORTHOLOGY (1)   
   NCBI-Gene (1)   
   NCBI-GI (1)   
   OC (1)   
Protein sequence (2)   
   UniProt (1)   
   RefSeq(pep) (1)   
DNA sequence (1)   
   RefSeq(nuc) (1)   
Protein domain (6)   
   Pfam (6)   
All databases (49)   

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