Guillardia theta: GUITHDRAFT_68771
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Entry
GUITHDRAFT_68771 CDS
T02925
Name
(RefSeq) hypothetical protein
KO
K11262
acetyl-CoA carboxylase / biotin carboxylase 1 [EC:
6.4.1.2
6.3.4.14
2.1.3.15
]
Organism
gtt
Guillardia theta
Pathway
gtt00061
Fatty acid biosynthesis
gtt00620
Pyruvate metabolism
gtt00640
Propanoate metabolism
gtt01100
Metabolic pathways
gtt01110
Biosynthesis of secondary metabolites
gtt01212
Fatty acid metabolism
Module
gtt_M00082
Fatty acid biosynthesis, initiation
Brite
KEGG Orthology (KO) [BR:
gtt00001
]
09100 Metabolism
09101 Carbohydrate metabolism
00620 Pyruvate metabolism
GUITHDRAFT_68771
00640 Propanoate metabolism
GUITHDRAFT_68771
09103 Lipid metabolism
00061 Fatty acid biosynthesis
GUITHDRAFT_68771
09110 Biosynthesis of other secondary metabolites
00254 Aflatoxin biosynthesis
GUITHDRAFT_68771
Enzymes [BR:
gtt01000
]
2. Transferases
2.1 Transferring one-carbon groups
2.1.3 Carboxy- and carbamoyltransferases
2.1.3.15 acetyl-CoA carboxytransferase
GUITHDRAFT_68771
6. Ligases
6.3 Forming carbon-nitrogen bonds
6.3.4 Other carbon-nitrogen ligases
6.3.4.14 biotin carboxylase
GUITHDRAFT_68771
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
GUITHDRAFT_68771
BRITE hierarchy
SSDB
Ortholog
Paralog
GFIT
Motif
Pfam:
Carboxyl_trans
ACC_central
CPSase_L_D2
Biotin_carb_N
Biotin_carb_C
ACCA_BT
Biotin_lipoyl
ATP-grasp
ATP-grasp_3
Dala_Dala_lig_C
ATP-grasp_5
Mod_r
Motif
Other DBs
NCBI-GeneID:
17304931
NCBI-ProteinID:
XP_005835324
JGI:
Guith1_68771
UniProt:
L1JJM5
LinkDB
All DBs
Position
Unknown
AA seq
2054 aa
AA seq
DB search
MVAVDTTQEGALAGTDKIAEYVKAKGGNYPIRKILIANNGMAATKCILSIRQWAYMELGD
EKAIKFVAMATPEDLNANAEFIRLADSFVEVPGGSNKNNYANVDVIVDIAVSQGVDAVWP
GWGHASENPRLPNTLAQKGIKFIGPKGPVMYALGDKIAANILAQTAGVPSIPWSGSFGGP
NDGPLVGELDDKGTLDAEVFQKATVKTVDEALAAANRIGYPVMLKASEGGGGKGIRMSAN
DEELRSNFVQVQNEVPGSPMFMMQLCKNARHLEVQIVGDEHGNAVALNGRDCSTQRRFQK
IFEEGPPTIAKANTFREMEKAAMRLTQSIGYNGAGTVEYLYNAESDKFFFLELNPRLQVE
HPVTEGITGVNLPATQLQVAMGIPLYRMPQVRRFFGKKSDGTEAIDFQNEEYTPITKHVI
AARITAENPDEGFKPTSGRIDRVKFQSSEKVWGYFSVGNNGGIHEYADSQFGHLFASGDN
REAARKSLVLALKEIDVRGEIRNPVEYLTKLLETDDFKSNKIDTSWLDGIIKNKSVTTKA
DTATVVLGAAIYRAHQYVKKEFVSFEESLKKGQTSVSDISSINSFSTEITYQGVKYPFKV
NRASPDRFSLTLPSGDTTNIKFREQADGSLLCSFGGVVRKVYGQEEPLGLRMVIDGSTIM
IPNVFDPSELRSDVTGKVVRYLHEDGAAVEAGVPYVECEAMKMIMQLRTTEAGNIKHELQ
AGSIISAGDLIASLDLKDPSKVAKIELFEGDLNVESGPSDQSPMHLLELILAGYPGEVET
QLSKALLDVDADTANERVVSLLQRYLAVEDLFKGKPLDLAVLDLINSNKDNTRPVIDAVQ
AHSALKSRNTLVLAILRNMAGFVDRFPGYKVSDGVNTVLERLAALTGTEYGEVALTASAI
LNEFKVPDFNARIEELKTLIMSDSPDVVSKSRKLSLAVDFLTQLFDHPEEAVRKAALEVY
VRRTYRAHVIQDVKISDKNGVSTIKWKFTLQDLPASEAPIRHGMLMVLQSAKDVPAALPA
ALQEFKDNGATASPSEALNTFHIAFKANEVITNDDQFIAEAERVLRENKSTFRALGVRHV
NYIVPQIPKAPRYFTFLECHDFSEEPLRRDMRASFPYILELTRLQGNYDLTRIPALGRNA
QLWIGTEKPDDNVVVTRPRPQTIFLRALSHSVDTDTNSGAERLMLAAMDELDRALLHPLV
TGQQRMKTPYPVQYGAASTRIFLHVLNEYEADTQSVIKGFKSILDNLLAKHSTRLLQLRV
DEIEVKARISYVVDGRKHIQPIRLVASSTSGDWLKTDAYLEYPDPVTGVTKQFRSLEEAQ
AGVMQISPYPTSNTVQMKRATARRVGSTYAFDFLGLFEVGLIQQWGKRPDLQMPPSGSLF
EAKELVLGADGELQQQVRPVGSNKIGMLAWVCKMKTPEYPNGREVVLIANDVTVQSGSFG
VEEDQFYFKASEYARKRGLPRLYIACNSGARIGLVEELKPKFKVAWNDDKDTTKGFKYLY
LTEDDYKALPEGTVQATKTSGPSGEVRYALDTIVGTNHGIGVENLRGSGMIAGETSRAYD
ETFTLSYVTGRSVGIGAYIVRLGQRIIQMVDGPMILTGYSALNKLLGKDVYTSQDQLGGP
QVMFPNGVTHQVVGNDQEGVKAMLDWLSFVPETKFSVPPILPVSDPVEREIEFVPTKTPY
DPRHMLAGYNKADGSWVSGFFDKDTFKEYLAGWGKSVVTGRARLGGIPMGVIAVETRLVD
RRIPADPANPESRESIEPQAGQVWFPDSAYKTAQAIEDFNRGENLPLIIFANWRGFSGGT
RDMYNEILKFGSMIVDGLRTYKHPVFVYLPPNGELRGGAWVVVDPTINEEMMEMYADVQS
RGGILEPPGICEVKYRAPDQIKTMHRLDPELQELDAKLDKATAEEAAQIKEQIKKRENTL
MPLYLQIAHEFADLHDRAGRMKAKGVIRDALSWKKSREYFYWRVQRRLAEMKLRKAMMHA
NPHMTFSEVTAKMQSMVTCDWDDDRAVLQWFTAEQDSINKTVAHMRADGIASAVEEMLAK
LSPDDRANIVSKLR
NT seq
6165 nt
NT seq
+upstream
nt +downstream
nt
atggttgcagtcgatacaacccaagagggagctcttgctggaacggacaaaattgctgaa
tacgtcaaggcaaaaggcggcaattacccaatcaggaagatcctaatcgcaaacaatggc
atggcagcaactaagtgcattctttccattcgtcagtgggcttacatggaacttggcgat
gagaaggctatcaagtttgttgccatggcaacaccggaggatctcaatgccaacgcagaa
tttatcaggctggctgactccttcgtagaagtcccgggtgggagcaacaagaacaattat
gcgaacgttgacgtcatcgtcgacatcgctgtcagtcagggagttgatgcagtctggcct
ggctggggacatgcttctgaaaatcctcgcttgccaaacacacttgcccagaagggaatc
aagttcatcggaccgaagggtcctgttatgtacgcactcggtgacaagattgcagcaaac
atccttgctcagactgctggagtccccagtatcccttggtcaggatcgtttgggggaccc
aacgacggccctctcgtcggtgagctcgatgacaagggcacacttgatgcggaggtcttt
cagaaggccactgtcaagactgttgatgaagccctggctgcagccaacagaatcggatat
cccgttatgctcaaggcgtcagagggtggcggtggaaagggtattcgtatgtctgctaac
gatgaagagctccgctccaacttcgtccaggttcagaatgaggttccaggatctccaatg
ttcatgatgcaactgtgcaagaatgcccgtcacttggaagtccagattgtgggagacgag
catggaaacgctgttgctctgaatggccgcgattgctcaacccaaaggcgcttccagaaa
attttcgaggagggcccaccaaccattgcaaaagctaatacctttcgtgaaatggagaag
gctgcaatgcgcttgactcaatccattggttacaacggtgcgggaacggtcgagtacttg
tacaacgccgaatccgacaagttcttcttcttggagttgaaccctcgtcttcaggtagag
catcctgtcactgaggggatcactggagtcaatcttcctgccactcagcttcaggtagct
atgggaatcccattgtaccgtatgccccaggttcgtcgtttcttcggaaagaaatctgat
ggaaccgaagccatcgattttcagaacgaggaatacacacccatcaccaagcacgttatt
gctgctcgtatcactgccgagaaccctgatgaaggcttcaagccaacctctggaaggatt
gatcgagtcaagttccaatccagcgagaaagtttggggatatttttctgttggaaacaac
ggtggtatccatgaatatgctgattctcagtttggtcatctttttgcaagcggagacaac
cgtgaagcagctcgcaaatctttggtcttggcgttgaaagagattgatgtcaggggagaa
attcgcaatccagttgagtacttgaccaagcttcttgaaactgatgactttaagtcaaac
aagattgatacttcctggttggacggaatcatcaagaacaagtctgtaacaactaaggct
gacactgctaccgttgtgctgggagctgcaatctatcgtgctcatcagtacgtcaagaag
gagttcgttagttttgaggagagtttgaagaaagggcaaacaagtgtcagtgacatttcc
agcatcaactcgttctcaaccgaaattacctatcaaggtgtgaagtatcctttcaaggtc
aaccgtgctagtccagacaggttcagcttgacgttgcccagcggagacactacgaacatc
aaattccgtgaacaagcagacggcagccttctttgctcttttggtggagttgtgcgcaag
gtttatggtcaagaggagcctcttggacttcgcatggtcattgatggctctacaatcatg
atccccaacgtctttgatccatcggaacttcgctcagacgtgactggcaaggtcgtccgt
taccttcacgaagacggtgctgcagtggaagctggagtaccctatgtggaatgtgaagct
atgaagatgatcatgcaactcagaacaaccgaagcaggcaacatcaagcacgaactgcag
gctggttccatcatctcagcaggcgacttgattgcatccctcgacctcaaagacccctcc
aaggttgctaagattgaactctttgagggtgacttgaacgtggaatctggccctagcgat
cagtccccaatgcaccttcttgaacttattctcgctggatatcccggtgaggttgaaacc
cagctttcaaaggctctcctggatgtcgatgctgacactgcaaatgaacgtgttgtaagc
ctgttgcagaggtatcttgctgttgaagacctcttcaaaggaaaaccacttgatctcgcg
gtgcttgatctgatcaactcaaacaaggataacacccgcccagtgattgatgcggtgcaa
gctcacagcgctctgaagagcaggaatacccttgttctggcaatcttgagaaacatggct
ggatttgttgaccgattcccaggatacaaagtcagcgatggggtcaacaccgtcttggag
cgattggcagctttgaccggcactgaatatggtgaagtggctcttacagcctcagccatt
ctcaacgagttcaaggtgccagacttcaatgccaggattgaggagctcaagactttgatc
atgtctgattctccagatgttgtcagcaagtcccgcaagctttccttggccgtcgatttc
ttgacgcagctctttgaccatcctgaggaggctgtgaggaaggctgctctcgaagtctat
gttcgtcgtacctaccgtgctcatgtcatccaggatgtcaaaatttctgacaagaatgga
gtttctacgatcaaatggaaattcacccttcaggaccttcctgccagtgaggctcctatt
cgtcatggcatgctcatggtcttgcagtcggccaaggacgttcctgctgcgctaccagct
gctctccaagagttcaaggacaacggtgcaactgctagcccctcggaggcgctgaacact
tttcacattgccttcaaggccaatgaagtcatcaccaacgatgatcaattcatcgctgag
gctgagcgtgtgctaagagagaacaagtccactttccgtgcactgggtgttcgccatgtg
aactacattgtgcctcagatccccaaggctccaagatacttcactttcttggagtgccat
gacttctccgaggagcctttgagaagagacatgcgtgcttcattcccttacatccttgag
ttgactcgcttgcaaggaaactatgacctcactcgcatccctgctcttggcaggaatgct
cagctttggattggaactgagaaacccgatgacaacgtcgtcgtgactcgtcctcgtcct
cagaccatctttctccgcgccttgtctcacagtgtagacacagacaccaactctggagct
gagagattgatgctggctgccatggacgagttggaccgtgccctccttcacccgctcgtc
accggtcaacagagaatgaagactccctaccctgtgcagtatggagcagcttcaactcgc
atcttcctccacgtcttgaacgaatacgaggctgacacccaatccgttatcaagggcttc
aagagcatcttggacaatctgctggccaagcactcgacccgtctccttcagttgagagtt
gatgagatcgaagtgaaggcaaggatcagctacgtcgtcgatggacgcaagcacatccaa
ccgatcagacttgttgcttcgtctacttcgggtgactggctcaagacggacgcatacctt
gagtatcctgatcccgttactggagttacgaagcagttccgctctctggaggaagcccaa
gctggagttatgcagatctctccctacccaacttctaataccgtccagatgaagcgtgct
actgctagaagagtcggttctacctacgcgttcgacttcttgggtctctttgaagtcgga
cttatccaacaatggggcaagaggcccgatcttcagatgcctccgtccggcagcttgttc
gaggccaaagagcttgttcttggagctgatggtgagctccagcaacaggttcgtcctgtt
ggatccaacaagattggaatgctcgcatgggtttgcaagatgaagacgcccgaatatccc
aacggcagagaggtggtgctcattgctaacgacgtcactgttcagagtggatcatttgga
gtggaagaagatcagttctactttaaagcatccgagtacgcgcgcaagcgaggtcttcca
aggctctacatcgcttgcaactcaggagctaggatcggattggtagaggagctcaagccc
aagttcaaggttgcatggaatgatgacaaggacacaaccaagggcttcaagtacctctat
ctcaccgaagatgactacaaggccctgcccgagggaactgtccaggctaccaagacttcc
ggaccttctggcgaggtgaggtatgcccttgataccatcgtgggcaccaaccacggcatt
ggtgtcgagaacttgagaggatctggcatgattgctggagaaaccagccgagcctacgac
gagactttcaccctcagctatgtcactggcaggtctgttggaatcggcgcatacatcgtt
cgccttggacagcgtatcattcaaatggttgatggtccaatgatcttgaccggctacagt
gcgttgaacaagctcctcggaaaggatgtgtacacctcccaggatcagcttggtggacca
caggtcatgtttcccaacggagtgacgcatcaggttgtcggaaacgatcaggaaggtgtc
aaggctatgctggattggttgtccttcgtgccagagaccaagttctctgttcctcctatc
ctccccgtgtctgatccagttgagcgagagatcgaattcgttcctaccaagactccttac
gatccccgacacatgcttgccggctacaacaaggctgatggaagctgggtgagcggattc
ttcgacaaggacaccttcaaggagtacttggcagggtggggcaagtcagtggtgactggc
cgtgctcgtcttggaggcatcccaatgggagtgatcgctgttgagacaagattggtcgat
cgtcgcatccccgcagatcctgctaaccctgagtccagagaatccattgagccgcaagcc
ggccaagtgtggttcccagactcggcctacaagacagctcaggccatcgaagacttcaac
aggggagagaaccttcctcttatcatcttcgccaactggagaggattctccggtggtacc
agggacatgtataacgagatcttgaagttcggatccatgatcgtcgacggccttcgcacc
tacaagcaccctgtcttcgtctacctccctcccaacggtgaacttcgtggaggcgcctgg
gttgtggtggatcctaccatcaatgaggagatgatggagatgtatgctgacgtacagtct
cgcggcggtatcctcgagcctcctggcatctgcgaggtcaagtacagggcccccgaccag
atcaagactatgcacaggttggaccctgagctgcaggagctcgacgctaagctggacaag
gccacggccgaggaggcagcacagattaaggaacagatcaagaagcgcgagaacacgttg
atgccgctctacttgcagatcgctcacgagtttgcggatcttcacgatcgtgccggacgc
atgaaggccaagggcgtgatccgtgatgctctctcatggaagaagtcgcgagagtacttc
tactggcgcgtgcagcgaaggctggcagagatgaagttgcgcaaggcgatgatgcacgcg
aacccacacatgaccttctccgaggtgactgccaagatgcagagcatggtgacctgcgac
tgggacgacgaccgtgccgtcctccagtggttcacagccgagcaggactcgatcaacaag
acggttgctcatatgcgggctgatggaatcgcttctgctgtcgaggagatgctggcgaaa
ctttctccggatgatcgcgctaacatcgtgagcaagctgagataa
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integrated database retrieval system