KEGG T05291: CC77DRAFT

Alternaria alternata: CC77DRAFT_360136

Entry

CC77DRAFT_360136  CDS       T05291

Name

(RefSeq) hypothetical protein

K11262

acetyl-CoA carboxylase / biotin carboxylase 1 [EC:6.4.1.2 6.3.4.14 2.1.3.15]

Organism

aalt Alternaria alternata

Pathway

aalt00061

Fatty acid biosynthesis

aalt00254

Aflatoxin biosynthesis

aalt00620

Pyruvate metabolism

aalt00640

Propanoate metabolism

aalt01100

Metabolic pathways

aalt01110

Biosynthesis of secondary metabolites

aalt01212

Fatty acid metabolism

Module

aalt_M00082

Fatty acid biosynthesis, initiation

Brite

KEGG Orthology (KO) [BR:aalt00001]
09100 Metabolism
  09101 Carbohydrate metabolism
   00620 Pyruvate metabolism
    CC77DRAFT_360136
   00640 Propanoate metabolism
    CC77DRAFT_360136
  09103 Lipid metabolism
   00061 Fatty acid biosynthesis
    CC77DRAFT_360136
  09110 Biosynthesis of other secondary metabolites
   00254 Aflatoxin biosynthesis
    CC77DRAFT_360136
Enzymes [BR:aalt01000]
2. Transferases
  2.1  Transferring one-carbon groups
   2.1.3  Carboxy- and carbamoyltransferases
    2.1.3.15  acetyl-CoA carboxytransferase
     CC77DRAFT_360136
6. Ligases
  6.3  Forming carbon-nitrogen bonds
   6.3.4  Other carbon-nitrogen ligases
    6.3.4.14  biotin carboxylase
     CC77DRAFT_360136
  6.4  Forming carbon-carbon bonds
   6.4.1  Ligases that form carbon-carbon bonds (only sub-subclass identified to date)
    6.4.1.2  acetyl-CoA carboxylase
     CC77DRAFT_360136

SSDB

Motif

Pfam:

ACC_central Carboxyl_trans ACCA_BT CPSase_L_D2 Biotin_carb_N Biotin_carb_C Biotin_lipoyl Dala_Dala_lig_C ATP-grasp_3 Biotin_lipoyl_2

Other DBs

NCBI-GeneID:

NCBI-ProteinID:

JGI:

UniProt:

Position

Unknown

AA seq 2286 aa
MGLPLHNMAGAAQNGVNGDANGAPSSYAAKYDLAPHFIGGNNLKVASPGKVKDFVAAHDG
HTVITNVLIANNGIAAVKEIRSVRKWAYETFGDERAIQFTVMATPEDLQANAEYIRMADQ
YVEVPGGTNNNNYANVELIVDVAERMNVHAVWAGWGHASENPKLPESLAASPKKIVFIGP
PGSAMRSLGDKISSTIVAQHAKVPCIPWSGTGVDEVQVDQHGIVTVEDHIYDKGCTKSWQ
EGLEKAKAIGFPVMVKASEGGGGKGIRKVEREEDFEQLYKAAASEIPGSPIFIMKLAGSA
RHLEVQLLADQYGNNISLFGRDCSVQRRHQKIIEEAPVTVAGSKTFQEMEKAAVSLGRLV
GYVSAGTVEYLYSHSDDKFYFLELNPRLQVEHPTTEMVTGVNLPAAQLQIAMGLPLHRVR
DIRLLYGADPHASSVIDFDFSTEGSAKSQRRPTPKGHCTACRITSEDPDEGFKPSGGTIH
DLNFRSSSNVWGYFSVSSAGGIHSFSDSQFGHIFAYGENRQASRKHMVVALKELSIRGDF
RTTVEYLIKLLETPAFEDNTITTGWLDELISKKLTAERPDTMIAVICGAVTKAHVASEAC
VNEYKTSLEKGQVPSKDVLKTVFPVDFIYEGYRYKFTATKSTVDSFTLFINGTKCSVGVR
ALADGGLLILLSGKSHNVYWKEEVGATRLSVDGKTCLLEQENDPTQLRTPSPGKLVRFLV
ENGDHVGQGQPFAEVEVMKMYMPLIAQEAGMVNLIKQPGAVLEAGDILGVLALDDPSKVK
SAQNFTGQLPDLGAPQVPGAKPPQRFVYLYYILQNIFQGFDNQVIMQSTLKELVDVLRDP
ELPYGEWNAQASALHARMPQKLDATFSQIVEKAHSRNLEFPGKALNKAFQKFVEENVAKG
DVALLKAALEPLADVITRYSEGLKAHEYSVMIRLLEMYWSVESLFSSRTSRDEEVILKLR
DENRDNIMSVVQTVLSHAKVGAKNNLVIAILELYRPNKPGVGNIAKYFKDTLKKLTELES
RQTAKVSLKAREVLIQCAMPSLEERTAQMEHILRSSVVESRYGESGWDHREPNFEVIKEV
VDSRYTVFDVLTQFFVHSDPYVALAALEVYTRRAYRAYQLQNINYHNEGEQQSFLSWDFI
LRKVGEAEYGLAVEPSEPGTPSTPGFERPPRIQSLSDMTAWQNRFEGEPTRKGVVVPVEY
LDDADELISKALDIFPNLGKEKKGGIGLREGLTMKRTPTTGINEPKHSDELTGVLNIAVR
DIEGTDDKEILDRILPIVDDFKQELLSRRIRRISFICGHKDGTYPGYYTFRGPTYEEDAS
IRHVEPALAFQLELGRLSKFDIKPVFTENRNIHIYEAVGKGAESDKRYFLRAVVRSGRLR
EEIPTAEYMVSETDRLMTDILDALEIVGTSQADMNHIFINFSHVFPLNPTEVEEAIGGFL
ERFGRRLWRLRVTGAEIRIIVTDPATGIPYPLRVIITNTSGYVIQVEMYAERKSEKAGKW
LFHSIGGTTKIGALHLQPVSTPYPTKGALQPKRYKAHLMGTQYVYDFPELFRQATENSWI
EAIKKHSFLRDRQPAKGECLEYYELVLDDTDNLAEVNRDPGHNNIGMVGWMVTAKTPEYP
RGRRFIIIANDITFKIGSFGPAEDAFFHKCSELARKLGIPRIYLSANSGARIGLAEELIP
HFSVAWKDINKPEAGFDYLYLTPEKYEHFVDGKRNDVICEPVEVDGEKRFKITTVIGAED
GLGVESLRGSGLIAGETSRAYEDIFTITLVTCRSVGIGAYLVRLGQRAIQIEGQPIILTG
AQAINKLLGREVYTSNLQLGGTQIMYRNGVSHSTADDDFEGVSKIVQWMSYVPDKKGSPV
PISPSADNWDRDITYYPPGKSAYDIRHLIAGKEDEDGFQSGLFDRGSFVETLGGWAKTVV
VGRARLGGIPIGVIGVETRSVENVTPADPANPDSIEQVTSEAGGVWYPNSAFKTAQAIKD
FNNGEQLPLMILANWRGFSGGQRDMYNEVLKYGSYIVDALVKFEQPIFVYIPPYGELRGG
SWVVVDPTINPQFMEMYADEDSRGGVLEPEGIVGIKYRRERQLDTMARNDPTYGALKRKL
NDKATPEAELQDIKAQMTEREKKLLPIYGQIAIQFADLHDRAGRMQAKGVIRQALRWQNA
RRFFYWRLRRRLNEEYILKKFAAAASPTHDNPQANSLTRSRGFEMLKHLSNIPNWEQDDM
AAATWYEENRPLVSDKIEQLKTDGIALEIAQLMRKDREGGLKGVMSLLSTLPTSEKEEVI
KMLSRA

NT seq 6861 nt +upstreamnt +downstreamnt
atgggattgcctctacacaacatggccggagctgcacagaacggagtcaacggggatgct
aatggcgccccgagctcctacgctgccaagtacgatcttgctccgcatttcatcggcggg
aacaacctcaaggtagcctcgccgggcaaggtcaaggactttgtggccgcacacgacgga
cacacagtcatcacaaatgtcctcattgcgaacaacggtattgccgcagtcaaggaaatc
cgctcagtgcggaaatgggcctacgagacttttggcgatgagcgggcgattcaattcacc
gtcatggcgacgcccgaggatctccaggccaatgcagagtacatccgcatggcagaccaa
tatgttgaggtacccggcggtaccaacaacaacaactacgccaacgtcgagctaattgtc
gatgtggccgagcgcatgaacgtgcacgccgtgtgggcaggatggggacacgcctcggag
aaccccaagctgcccgaatcgctcgccgcgtcgcccaagaagatcgtcttcattggtcct
cccggatctgccatgcgctcgcttggtgacaagatctcgtccacaatcgtcgcacaacac
gccaaagtgccctgcatcccgtggtcaggaaccggtgtcgacgaggtccaggtcgaccaa
cacggaattgtcacagtcgaggaccacatctacgacaagggctgcacaaagtcatggcag
gagggtctggagaaggccaaggccattggcttccctgtcatggtcaaggcctcggaaggc
ggtggtggcaagggtatccgaaaggtcgagcgcgaggaagactttgagcagctgtacaag
gccgctgcctcagaaatccccggatcgcccatcttcatcatgaagcttgcgggcagcgcg
cgccatctggaagtccagctgttggctgaccagtacggcaacaacatctccctgttcgga
cgtgactgttcggtacagcgacgtcaccagaagatcattgaagaggcaccggtaacagtt
gctggctctaagaccttccaggagatggagaaggctgccgtctcgctcggacgcctcgtc
ggatacgtctcggcgggtaccgtcgagtacctgtactcgcactccgacgacaagttctac
ttccttgagctgaaccctcgtctccaggtcgagcatcccactacggaaatggtgacgggt
gtcaacctcccagctgcccagctccagattgccatgggtctgccattgcaccgtgtccgc
gacattcgactcctttacggtgccgacccgcacgcgagctctgtcattgactttgacttc
tccaccgaaggcagtgccaagagccagcgacgccctactcccaagggtcactgcacggcc
tgccgtatcacctccgaggatcccgacgagggcttcaagccatccggtggtactatccac
gacctcaacttcaggagtagctccaatgtttggggttacttctccgtcagctctgctggt
ggtattcacagcttctccgactcgcaattcggtcatatcttcgcctatggcgagaaccga
caagcttcgcggaaacacatggttgtcgcactgaaggagttgagcattcgcggtgacttc
cgtaccaccgttgaatatctgatcaagctactcgagactcctgctttcgaggacaacacc
atcaccactggctggctcgacgagctcatctcgaagaagcttactgctgagcgacctgac
accatgattgccgtcatttgcggtgccgttaccaaggctcacgtcgcaagcgaagcgtgc
gtcaacgagtacaagaccagcttggagaagggtcaggtgccttctaaggacgtactgaag
acagtgttccctgtggacttcatttacgagggctaccgatacaagttcactgccaccaag
tctactgtcgacagcttcaccctgttcatcaacggaaccaagtgctcagtcggtgtcagg
gcacttgccgatggtggtctcttgattctgcttagcggaaagtcgcacaacgtctactgg
aaggaggaggttggcgccacccgcctctccgttgacggcaagacctgccttctcgaacag
gaaaacgaccccacacagctgcgcacaccatcgcccggtaagcttgttaggttcctagtc
gagaacggagaccacgttggccagggtcagcctttcgctgaggttgaggtcatgaagatg
tacatgcctctgattgctcaagaggccggtatggtcaacctcatcaagcagccaggagct
gttcttgaagctggtgacattctcggtgtccttgctttggatgatccatccaaggtcaag
tctgcccagaacttcactggccaacttcctgacctgggtgctcctcaagtgcctggagcc
aagccaccgcagcgattcgtttacctttactatatcctgcaaaatatcttccagggtttc
gacaaccaagtcatcatgcaaagcacgctcaaggagctggtcgatgtccttcgggaccct
gagctaccgtatggtgagtggaacgctcaggcctccgctctccacgcgcgtatgccgcag
aagcttgatgccaccttctcccagattgtcgagaaggcccacagccgtaacctcgagttc
cctggtaaggccctcaacaaggctttccaaaagttcgtcgaggagaacgtggccaagggt
gacgttgcccttctgaaggctgcattggagcctcttgctgatgttatcacccgctactcg
gagggcctcaaggcacacgagtacagcgtcatgatcaggctcttggagatgtactggtct
gttgagtccctcttctcatctcgtacgtcgcgtgacgaggaagtcatcctcaaacttcgt
gatgagaaccgtgataacatcatgagcgtcgtgcagactgttctctcccacgccaaggtt
ggtgcgaagaacaacctcgtaattgctattctcgagctctaccgacccaacaagcctggt
gtcggaaacattgccaagtacttcaaggacactctcaagaagctcacagagcttgagtcc
agacagactgccaaggtctctctcaaggcccgtgaggttctcattcagtgcgctatgcct
tcgcttgaagaacgcactgcgcagatggaacacatcctgcgctcttccgtcgttgagtct
cgctatggcgagagcggatgggaccaccgtgagcccaacttcgaagtaatcaaggaagtt
gtcgactctaggtacactgtgttcgacgtgttgacacaatttttcgtccactcggaccca
tacgtcgctcttgctgcgcttgaggtgtacactcgccgagcttaccgcgcgtaccagctg
caaaacatcaactaccacaacgaaggcgagcagcaatctttcttgtcttgggacttcatc
ctgcgcaaggttggtgaggccgagtacggtctcgctgttgagccctctgaacctggtacc
cccagcacgcccgggtttgagcgtcctcctcgcatccagtcattgagcgatatgactgct
tggcaaaaccgattcgaaggcgagcctaccaggaagggtgttgtcgtccctgtcgagtac
cttgatgacgcggacgagctcatcagtaaggcgctcgacatcttccccaaccttggcaag
gagaagaagggcggtattggtctgagggagggcctcactatgaagcgcacccctaccaca
ggtatcaacgagcccaagcatagcgacgagctcactggtgttcttaacatcgctgtccgc
gacattgaaggcaccgacgacaaggaaatcttggaccgcatcttgcctatcgtcgatgac
ttcaagcaggagcttctgtctcgtcgcatccgccgaatctctttcatttgcggccacaag
gacggaacataccctggctactacaccttccgtggacccacatatgaggaagatgccagt
atccgtcacgtcgagcccgctcttgccttccagctcgaacttggcagactctccaagttt
gacatcaagccagtcttcactgagaaccgcaacatccatatctatgaggctgttggcaag
ggcgccgagagcgacaagcgctacttcttgagggctgtcgtccgatcaggccgtcttcgc
gaggagattcctacagcggagtacatggtgtctgagactgataggttgatgactgacatc
ttggatgctttggaaatcgttggcacttcgcaagccgacatgaaccacatcttcatcaac
ttctcgcacgtcttccctctgaaccctactgaggttgaagaggccattggcggtttcttg
gagcgctttggtcgacgactctggcgtctccgtgtcactggcgctgagatccgcatcatt
gtcaccgaccctgcgactggcatcccttaccctctccgtgtcatcatcactaacacttct
ggatacgttatccaggtggagatgtacgctgagcgcaagtccgagaaggctggcaagtgg
ctcttccacagcattggtggaactactaagatcggtgctcttcaccttcagcccgtctca
actccttaccccaccaagggagctctgcagcccaagaggtacaaggctcatctcatgggt
actcagtacgtgtacgacttccctgagctcttccgccaggctaccgagaacagctggatc
gaggctatcaagaagcactcattcctccgtgacaggcagccagcgaagggagagtgcctc
gagtactacgagttggtgcttgatgacactgacaacctggctgaggtcaaccgtgatcct
ggccacaacaacattggtatggtcggttggatggtcaccgcgaagacacctgagtacccc
cgtggtcgccgcttcatcatcatcgccaacgacatcactttcaagattggttcattcggt
ccagcggaggatgctttcttccacaagtgctctgagcttgcacgaaagctcggcattccg
cgaatctacctctctgccaactctggtgctcgtatcggtcttgctgaggagctcattcct
cacttctctgttgcatggaaggacatcaacaagcccgaggctggtttcgactacctctac
ctgacacctgagaagtacgagcactttgttgatggtaagcgcaatgacgttatctgcgaa
ccggttgaggtcgatggcgagaagcgcttcaagatcactactgtcattggtgctgaggac
ggtcttggtgttgagtcgcttcgtggttctggtctcattgctggtgagacttcaagagct
tacgaggacatcttcaccattactttggtgacttgtcgctcagttggtatcggtgcttac
cttgttcgtcttggtcagcgtgctatccagatcgaaggacagccaatcatcctcacgggt
gcacaggctatcaacaagctacttggtcgtgaagtctacacttctaaccttcagctcggt
ggtactcagatcatgtacaggaacggtgtctcgcactcgactgccgacgatgactttgag
ggtgtttccaagattgtccagtggatgtcttacgtacccgacaagaagggcagccccgtc
cctatctcaccgtcagccgacaactgggatcgtgacatcacctactaccctcctggcaag
tctgcctacgatattaggcatttgatcgctggaaaagaggacgaggacggtttccagtct
ggtctctttgatcgcggttcgtttgtcgagactcttggtggctgggctaagactgttgtt
gtcggtcgtgctcgtctcggtggcattcctatcggtgtcatcggtgtcgagacacgttca
gttgagaacgtcacacctgcagaccccgccaaccccgactctatcgaacaagtcacatcc
gaggctggtggtgtttggtaccccaactctgccttcaagactgctcaggctatcaaggac
ttcaacaatggtgagcaattgccactgatgatccttgccaactggcgtggtttctctggt
ggtcagcgtgacatgtacaacgaggttctcaagtacggttcttacattgtcgacgcactc
gtcaagtttgaacagcccatcttcgtttacattcctccgtacggcgaactccgtggtgga
tcttgggtcgtcgttgaccccaccatcaaccctcaattcatggagatgtacgccgacgag
gactcgcgtggtggtgtactggagcccgaaggtatcgtcggtatcaagtaccgcagggaa
cgccaactggacacaatggcccgcaacgaccctacctacggtgctcttaagcgcaagctg
aatgacaaggcaacaccagaggccgagctccaggacatcaaagcccagatgactgagcgc
gagaagaagcttctacctatctatggtcaaatcgccattcaattcgccgatctgcacgac
cgtgctggccgtatgcaagccaagggtgtcattcgacaagctctccgatggcaaaacgcc
cgccggttcttctactggcgtcttcgccgccgtctcaacgaggagtacatcctcaagaag
ttcgccgctgctgcctcgcccacgcacgacaaccctcaggccaactcactcacccgcagc
cgtggcttcgagatgttgaagcacttgtccaacatccccaactgggagcaagacgacatg
gccgcggcgacctggtacgaggagaacaggccactcgtcagcgacaagatcgagcaactc
aagaccgatggcattgcgctcgagattgcgcagcttatgcgcaaggaccgcgagggtgga
ctcaagggtgtcatgagcttgctcagcacactgcctaccagcgagaaggaggaggtgatc
aagatgttgagcagggcttag

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