KEGG   Capra hircus (goat): 102178200
Entry
102178200         CDS       T02910                                 
Symbol
ACACB
Name
(RefSeq) LOW QUALITY PROTEIN: acetyl-CoA carboxylase 2
  KO
K01946  acetyl-CoA carboxylase / biotin carboxylase 2 [EC:6.4.1.2 6.3.4.14 2.1.3.15]
Organism
chx  Capra hircus (goat)
Pathway
chx00061  Fatty acid biosynthesis
chx00620  Pyruvate metabolism
chx00640  Propanoate metabolism
chx01100  Metabolic pathways
chx04152  AMPK signaling pathway
chx04910  Insulin signaling pathway
chx04920  Adipocytokine signaling pathway
chx04922  Glucagon signaling pathway
chx04931  Insulin resistance
chx04936  Alcoholic liver disease
Brite
KEGG Orthology (KO) [BR:chx00001]
 09100 Metabolism
  09101 Carbohydrate metabolism
   00620 Pyruvate metabolism
    102178200 (ACACB)
   00640 Propanoate metabolism
    102178200 (ACACB)
  09103 Lipid metabolism
   00061 Fatty acid biosynthesis
    102178200 (ACACB)
  09110 Biosynthesis of other secondary metabolites
   00254 Aflatoxin biosynthesis
    102178200 (ACACB)
 09130 Environmental Information Processing
  09132 Signal transduction
   04152 AMPK signaling pathway
    102178200 (ACACB)
 09150 Organismal Systems
  09152 Endocrine system
   04910 Insulin signaling pathway
    102178200 (ACACB)
   04922 Glucagon signaling pathway
    102178200 (ACACB)
   04920 Adipocytokine signaling pathway
    102178200 (ACACB)
 09160 Human Diseases
  09167 Endocrine and metabolic disease
   04936 Alcoholic liver disease
    102178200 (ACACB)
   04931 Insulin resistance
    102178200 (ACACB)
Enzymes [BR:chx01000]
 2. Transferases
  2.1  Transferring one-carbon groups
   2.1.3  Carboxy- and carbamoyltransferases
    2.1.3.15  acetyl-CoA carboxytransferase
     102178200 (ACACB)
 6. Ligases
  6.3  Forming carbon-nitrogen bonds
   6.3.4  Other carbon-nitrogen ligases
    6.3.4.14  biotin carboxylase
     102178200 (ACACB)
  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
     102178200 (ACACB)
SSDB
Motif
Pfam: ACC_central Carboxyl_trans CPSase_L_D2 ACCA_BT Biotin_carb_N Biotin_carb_C Biotin_lipoyl ATP-grasp Dala_Dala_lig_C
Other DBs
NCBI-GeneID: 102178200
NCBI-ProteinID: XP_017916583
LinkDB
Position
17:7167511..7266377
AA seq 2431 aa
MSDSKQVTKSKRKVSFTPSQEPIPASDGSQEPPQEGCNSSPLPETPRQAELASHKGPQDT
CQQRTSRSPPPQNPQGNPLSSDDASRARQANGSGTEGPEIPNTNDLSAPARPQGQRARTL
SREDRKQAHIKRQLMTNFILGSFDDNSSDEDTGAALFRQSSRKGSRASLGTLSLETAQAA
GETETCAPVIRPSMSGLHLARRGREQRKVDLHRDFTVASPAEFVARFGGHLVIEKVLIAN
NGIAAVKCMRSIRRWAYEMFRNERAIRFVVMVTPEDLKANAEYIKMADQYVPVPGGPNNH
NYANVELIVDIAKRIPVQAVWAGWGHASENPKLPELLHKHEIAFLGPPSEAMWALGDKIA
STIVAQTLQIPTLPWSGSGLTVEWEEHSLQEGQRISIPESIYNNGCVKDVDEGLEAAEKI
GFPLMIKASEGGGGKGIRKAETAEDFPILFRQVQSETPGSPIFLMKLAQHARHLEVQILA
DQYGNAVSLFGRDCSIQRRHQKIIEEAPATIAMPAVFEFMEQCAVRLAKTVGYVSAGTVE
YLYSQDGSFHFLELNPRLQVEHPCTEMIADVNLPAAQLQIAMGVPLYRLKDIRLLYGESP
WGMTPISFETPSNPPIARGHVIAARITSENPDEGFKPSSGTVQELNFRSSKNVWGYFXVA
ATGGLHEFTDSQFGHCFSWGENREEAISNMVVALKELSIRGDFRTTVEYLTNLLETENFQ
SNDIDTSWLDNLIAEKVQAEKPDIMLGVVCGALNVADSMFRTCMTDFLHSLERGQVLPAD
SLLNIVDVELIYGGVKYILKVARQSPTMFVLIMNGSHIEIDAHRLNDGGLLLSCSGNSYT
TYMKEEVDSYRITIGNKTCVFEKENDPTVLRSPSAGKLVKYTVADGEHVEAGGSYAEIEV
MKMTTTLNVQESGRVKYVRRPGAVLEAGCLVARLELDDPSKVRPAEPFAGELPSQPMLPI
LGEKLHQVFHSVLENLTNIMNGYCLPEPIFSIKLKDWVQKLLRTLRNPSLPLLELQEIMT
SVSGRIPAPVEKAVRRVMAQYASNITSVLCQFPSQQIATILDCHAATLQRKADREVFFMN
TQSIVQLVQKYRSGARGYMKAVVLELLRKYLLVEHHFQQAHYDKCVINLREQLKPDMSQV
LDCIFSHSQVAKKNQLVIMLIDELCGPDPSLSDELTSILDELTQLSKSEHCKVALRARQV
LIASHLPSYELRHNQVESIFLSAIDMYGHQFCPENLKKLILSETTIFDVLPTFFYHANKV
VCMASLEVYVRRGYIAYELTSLQHRQFPDGTCVVEFQFMLPSSHPHRMTMPISVTNPELL
RHSTELFMDSGFSPKSQRIGAMVAFQRFEDFVRNFDEVISCFANVPKDTPLFSKARNSLY
SEDDSKSLREEPIHILNVALQHADHQEDEQLVPIFRTFVQSKKNILVECGLRRITFLIAQ
EKEFPKFFTFRARDEFAEDRIYRHLEPALAFQLELSRLRNFDVTAMPCANHKMHLYLGAA
RVKEGAEVTDHRFFIRVIIRHSDLITKEASFEYLQNEGERLLLEAMDELEVAFSNTSVRT
DCNHIFLNFVPTVIMDPSKIEESVRSMVMRYGSRLWKLRVLQAEVKINIRQTTTDSAIPI
RLFITNESGYYLDISLYKEVTDPRSGNILFHSFGSKQGPQHGMLINTPYVTKDLLQAKRF
QAQSLGTTYVYDFPEMFRQALFKMWHSSDKYPKDILTYTELVLDPQGQLVEMNRLPGGNE
VGMVAFKMRFKTLEYPEGRDIILISNDITFHIGSFGPGEDLLYLRASELARAEGIPKVYL
AANSGARIGLAEEIKHMFQVAWVDPEDPHKGIKYLYLTPQDYTRISSLNSVHCKHVEEDG
ESRYVITDIIGKEEGLGVENLRGSGMIAGETSQDYDEIVTISMVTCRALGIGAYLVRLGQ
RVIQVENSHIILTGATALNKVLGRDVYTSNNQLGGVQIMHYNGVSHVTVPDDFEGVCTIL
EWLSYMPKDNRSPVPVITPKDPIDREIEFQPSRGPYNPRWLLAGRPHPTLKGSWQSGFFD
QGSFKEIMVPWAQTVVTGRARLGGIPVGVIAAETRTVEVVVPADPANLDSEAKIIQQAGQ
VWFPDSAYKTAQAINDFNREKLPLMIFANWRGFSGGMKDMYDQVLKFGAYIVDGLRKYRQ
PVLIYIPPHAEVRGGSWAVMDASINPLCIEIYADRDSRASVLEPEGTVEIKYRKKDLVKT
IRRLDPVSKKLVEQLGMSELSDTDRKELEGQLKAREDLLLPMYHQVAVQFADLHDKAGRM
LEKGVIYDILEWKTARSLLYWRLRRLLLESQVKQEVLRACPELSHMHVQSMLRRWFVETE
GAVKAYLWDNNQTVVRWLEEHWQAGEGLHSTIRENIACLKRDSALKTIRGLVQENPELAM
DSLVYISQHISPAERAQVIHLLSTVDGPAST
NT seq 7296 nt   +upstreamnt  +downstreamnt
atgtcagactccaagcaagtcaccaagagtaaacggaaagtgagcttcaccccgagtcag
gagccgattccagcctcagacggctctcaggagccaccgcaggaaggctgcaacagcagc
cctctgccagagacccctcgccaggctgagctagcctcccacaaaggaccccaagacacc
tgccagcagaggacctcccgatcacctccgccgcagaatccccaaggaaaccccctctcg
tctgatgacgcctcccgagcacgacaagccaacgggtcagggactgaaggcccggagatc
ccaaataccaatgacctgtccgcgccagccaggccccagggccagcgagccagaaccctc
tccagagaagacaggaagcaggcacacatcaagagacagctgatgaccaacttcatcctg
ggctctttcgacgacaactcctccgatgaggacaccggtgctgccctgttccgacagtct
tcccggaagggcagccgggccagcctggggacgctgtccctggagactgctcaggccgca
ggcgagactgagacctgcgcccctgttataaggcccagcatgtcggggctccacctggca
agaaggggccgagagcagaggaaggtggacctgcacagagacttcactgtggcttcccct
gccgagttcgtcgcgcgctttgggggtcatctggtcatcgagaaggtgctcatcgccaac
aacggtattgctgccgtgaaatgcatgcgctccatccgcaggtgggcctatgagatgttc
cgaaatgagcgagccatccggttcgtagtcatggtaacgccagaggacctcaaggccaac
gcagagtatatcaagatggcagatcagtatgtccccgtcccaggagggcccaacaaccac
aattacgccaacgtggagctgattgtggacatcgccaagaggatccccgtgcaggcggtg
tgggctggttggggccatgcttctgaaaaccccaaacttccggagctcctgcacaagcac
gagattgctttcctaggccctcccagcgaggccatgtgggcactgggagacaagatcgcc
tccaccatcgtggcccagactctgcagatcccaacactgccctggagcggaagtggtctg
acggtggagtgggaggaacacagtctacaggaagggcaaaggatcagcatcccagagtcc
atctacaacaatggttgcgtgaaagatgtagatgaaggcttggaggcagcagaaaaaatt
ggttttcccttgatgatcaaagcttctgaaggcggcggagggaaaggaatccggaaggca
gagactgctgaggacttccccatcctgttcagacaagtgcagagcgagacccctggttcg
ccaatcttcctcatgaagctggcccagcacgcccggcacctggaggtccagatcctcgcc
gaccagtacgggaacgcagtgtccctgttcggacgcgactgttccatccagcggaggcac
cagaagatcatagaggaggcgccggctaccattgccatgccggcagtgtttgagttcatg
gagcagtgtgctgtgcgcctggccaagacggtgggctatgtgagcgcggggactgtcgag
tacctctacagccaggatggcagcttccacttcttggagctgaatccccgcctgcaggtg
gaacatccctgcacagaaatgattgcggatgtcaacctgcctgctgcccagctgcagatc
gccatgggtgtgccgctgtaccggctgaaggatatccggcttctgtatggagagtccccg
tgggggatgacgcccatttcttttgagacccctagcaaccctcccattgcccgaggccat
gtcatcgcagccagaatcaccagcgaaaacccagatgaggggtttaagccaagctccgga
acggtccaagaattgaatttccgcagcagcaagaacgtatggggttacttcnaggtggct
gcgactggtggcttacacgaatttacggattcccagtttgggcactgcttctcctggggg
gagaaccgggaagaggctatttcgaacatggtggtggctttgaaggaactatccatccgg
ggcgacttcaggacaactgtggaatatctcaccaaccttctggagactgagaactttcag
agcaacgacattgacaccagctggttggataacctcattgccgagaaagtgcaggctgag
aagccagatatcatgctcggggtcgtgtgcggagccttgaacgtggccgactccatgttt
agaacatgcatgacggatttcctacattcactggaaaggggccaagtcctccccgcagac
tctctgctgaacatcgtggacgtggaattaatttatggaggcgtcaagtacatcctcaag
gtggcccggcagtctccgaccatgttcgtcctcatcatgaacggctctcacatcgagatc
gacgcccaccggctcaacgacggggggctactgctgtcctgcagcggcaacagctacacc
acctacatgaaggaggaggtggacagttaccgaatcaccattggtaacaagacgtgcgtg
tttgagaaggagaatgaccccacagtcctgagatccccttcggctgggaagctggtgaag
tacaccgtggcggacggggaacatgttgaagctgggggcagctacgccgagatagaggtc
atgaagatgaccacaaccctgaacgtgcaggaaagtggccgggtgaagtatgtcaggcgc
ccgggggctgtgctggaagctggctgcctggtggccaggctggagctcgatgacccttct
aaagtgcgcccggctgagccgtttgcgggggagctcccctcacagccaatgctgcccatc
ctcggagagaaactgcaccaggtttttcacagcgtcctggaaaatctcaccaacatcatg
aatggctactgtctgccggagcctatttttagcatcaagctgaaggactgggtgcagaag
ctcctgaggaccctccggaacccgtcgctgccgctgctggagctgcaggagatcatgacc
agtgtgtcgggccgcatccccgcccctgtggagaaggccgtccgcagggtgatggcccag
tacgccagcaacatcacctcggtgctctgccagttccccagccagcagatagccaccatc
ctggactgccatgcggccaccctgcagcggaaggccgaccgggaggtcttcttcatgaac
acccagagcattgtacagctggtccagaagtaccgcagcggggcgcgcggctacatgaag
gcggtggtgttggagctcctgcggaaatatttgctggttgagcaccatttccaacaagcc
cactacgataagtgtgtgataaacctccgggagcagctgaagccagacatgtcccaggtg
ttggactgcatcttctcccactcgcaggtggccaagaagaaccagctggtgatcatgctg
attgatgagctctgtggcccagacccatccctgtccgatgagctgacctccatccttgac
gagctgacccagctgagcaaaagcgagcactgcaaggtggccctcagagccaggcaggtc
ctgattgcctcccacctcccctcctacgagctgaggcacaaccaagtggagtccattttc
ctatctgccatcgacatgtatggccaccagttctgcccagaaaacctcaagaaattaata
ctctcagaaacaaccatctttgatgtgctgcccactttcttctaccatgctaacaaagtg
gtttgcatggcatccttggaggtttacgtgcggaggggctacatcgcctatgagctaacc
agcctgcagcaccgccagttcccggatggcacctgtgtggtggaattccagttcatgctg
ccctcctcccacccgcaccggatgaccatgcccatcagtgtcaccaacccggagctgctg
agacacagcacggagctcttcatggacagtggcttctcccccaagtcccagcgaatcgga
gccatggtcgccttccagagattcgaggatttcgtcaggaactttgatgaggtcatctcc
tgctttgccaacgtgcccaaggacaccccccttttcagcaaggcccggaattccctgtac
tctgaggacgacagcaagagcctccgagaggagccaatccacatcctgaacgtggccctc
cagcacgcggaccaccaggaggatgagcagctggtgcccattttccgaacattcgtgcag
tccaagaaaaacatccttgtggagtgtggactccgaagaatcacattcctgattgcccaa
gagaaagaatttcccaagtttttcacattcagagcaagagatgagtttgcagaagatcgc
atctaccgtcacttggagccggccctggccttccagctggagctcagccggttgcgaaac
ttcgatgtgaccgccatgccctgtgccaaccacaagatgcacctgtacctgggcgccgcc
agagtgaaggagggtgccgaggtcacggaccacaggttcttcatccgggtcatcatcagg
cactcggacctgatcaccaaggaagcctccttcgagtacctccagaacgagggcgagcgg
ctgctcctggaggccatggacgagctggaggtggcattcagtaacaccagcgtgcgcacc
gactgcaaccacatcttcctcaacttcgtgcccaccgtcatcatggacccctccaagatc
gaggagtcggtgcggtccatggtgatgcgctacggcagccggctgtggaagctccgcgtg
cttcaggctgaggtcaagatcaacatccgccagaccaccaccgacagcgccatccccatc
cgcctcttcatcaccaacgagtcaggctactacctggacatcagcctctacaaggaagtg
acggaccccagatctgggaatatcttgtttcactcctttggcagcaagcaaggcccccag
catgggatgctgatcaacactccctacgtcaccaaggatctgcttcaggccaagcgattc
caggcccagtccctgggcaccacctacgtgtatgacttcccagaaatgttcaggcaggct
ctttttaaaatgtggcactcctcagacaaataccccaaagacatcctgacgtacaccgaa
ctcgtgctggatccgcagggccagctggtggagatgaaccgacttcctggaggaaatgag
gtgggcatggtggccttcaaaatgaggtttaagaccctcgagtacccagaagggcgtgac
attatcctcatcagcaatgacatcaccttccatattggatccttcggccctggagaagac
cttctgtacctgcgggcgtccgagctggcccgggccgagggcatccccaaagtctacctc
gcggccaacagtggggcccgtatcggcctggcagaggagatcaagcacatgttccaggtg
gcttgggtggacccggaagacccccacaagggaataaaatacctgtacctgaccccccaa
gactacaccagaatcagctccctgaactctgtccattgtaaacacgtggaggaagatgga
gaatccaggtatgtcatcacggacatcatcgggaaggaggagggcctgggcgtagagaac
ctgaggggctcaggcatgattgctggggagacctcccaggattacgacgagatcgtcacc
atcagcatggtgacctgccgggccctcgggattggggcctacctggtgaggctgggccag
cgagtgatccaggtcgaaaattcccacatcatcctcacgggggcgacggctctcaacaag
gtcctgggcagagacgtttacacgtccaacaaccagctgggaggtgtgcagatcatgcat
tacaatggcgtctcacatgtcaccgtgccggacgacttcgagggtgtttgtaccatcctg
gagtggctgtcctatatgccaaaggataatcgcagcccagtcccagtcatcacacccaag
gaccctattgacagagaaattgaattccaaccatctcgcgggccctacaacccccggtgg
ctgcttgcaggaagacctcacccaactctgaagggatcctggcagagtggattctttgac
cagggcagtttcaaggagatcatggtgccctgggcccagactgtggtgacgggacgagca
aggctggggggcatccctgtcggagtgatcgctgcagagacgcggacggtggaggtggtc
gtgcccgccgaccctgccaacctggattctgaggccaagataatccagcaggctggccaa
gtgtggttcccagactcagcctataagacggcccaggccatcaatgatttcaaccgggag
aagctgcccctgatgatctttgccaactggagggggttctccgggggcatgaaagacatg
tacgaccaggtgctaaagttcggagcctacatcgtggatggcctccggaagtacagacag
cctgtcctgatctacatcccgccccacgcggaggtccggggcggctcctgggcggtcatg
gacgcctccatcaacccgctgtgcatagagatatatgcggacagagacagcagagcgagt
gttctggagccagaaggaacagtggagattaagtaccggaagaaagatctggtgaagacc
atcagaagactcgaccccgtttccaagaagctcgtggagcagcttggaatgtctgagctc
tcagacacggaccgcaaggagctggagggccagctgaaggcccgggaggacctgttgctg
cccatgtaccaccaggtggcggtgcagttcgccgacctccacgacaaggcgggcaggatg
ctggagaagggcgtcatttacgacatcctggagtggaagacggcccgcagcttactgtac
tggcgcctgcgccgcctgctgctggagagccaggtgaagcaggaggtcctgagggcctgc
ccggagctcagccacatgcacgtgcagtccatgctgcgccgctggttcgtggagacggag
ggcgcagtcaaggcctacctgtgggacaacaaccagacggtggtgcggtggttggaggag
cattggcaggcgggcgaggggctgcactccaccatccgcgagaacatcgcgtgcctgaaa
cgggactccgcccttaagaccatccggggcctggttcaagaaaaccctgagctggccatg
gactcactggtgtacatcagccagcacatcagcccggccgagcgggcccaggtcattcac
ctcctgtccaccgtggacggcccggcctctacctga

DBGET integrated database retrieval system