Sequence of G8LRX2_9FLAO
EC Number:6.3.5.5
EC Number
Recommended Name
Accession Code
Organism
No of amino acids
Molecular Weight [Da]
Source
carbamoyl-phosphate synthase (glutamine-hydrolysing)
G8LRX2
Blattabacterium sp. (Cryptocercus punctulatus) str. Cpu
1072
122247
Reaction
2 ATP + L-glutamine + hydrogencarbonate + H2O = 2 ADP + phosphate + L-glutamate + carbamoyl phosphate
Other sequences found for EC No. 6.3.5.5
General information:
Sequence
0 MKIDKILILG SGALKIGEAG EFDYSGTQAL KALKEEGIYT ILINPNIATV QTSKEVADKV
60 YFLPLTFFFI KNVIEKEKPK GIFLSFGGQT ALNCGIKLFK EGIIEKYKIQ VLGTSIESIM
120 NSEDRNLFRN RLSRINIKTA KSFVVHSMDH AISYSLKIGF PIIIRSSYTL GGLGSGFAKD
180 IHDLKKIVRK AFDYSSQVVV EEYLEGWKEI EYEIVRDKYN NCIAVCNMEN FDPIGIHTGE
240 SIVVSPSQTL TNSEYYGLRN LAIHIARDLE IVGECNVQFA LDPRSEDYRV IEVNARLSRS
300 SALASKATGY PLAFVSAKLS IGYGLHELKN SNKKTYAFFE PALDYVVCKI PRWDLNKFYG
360 ISNRIGSSMK SIGEVMAIGG SFEEALQKGI RMLDIGMLGF INSKKKIGST LLLKEFLKKP
420 TDQRILFLEE AFEKGISIKE IHDLTKIDPW FLYQLDNIFQ TKKEISSYND WRDIPDELLR
480 QAKKEGFSDM QIANLFIIDN KDQDNIDAME EKIRKYRKEK GIIPYVRKID TLGSEYTSDK
540 NYLYLTYHSI QHDVIYEKDY KSVITLGSGV YKIGSSVEFD WCCVNTLNTI NKESYRSIMI
600 NYNPETVSTD FDVCDRLYFE EITLERVLDI IDLENPKGTI VSMGGQIPNN LVLKLYQKGV
660 KILGTSPISI DQVENRYKFS NAMDLLGIGQ PRWKELSDFD SIYQFVEEVD YPILVRPSYV
720 LSGSYMNVIS NYEELQHYLI RNKKSVDHPL VITEFIRNAK EMELDAVAQN GEILYYAISE
780 HVEFAGVHSG DATLVYPPHN LYLSTLKEII RISNKIAKYF NISGPFNIQF LSKENEVKVI
840 ECNLRASRSF PFVSKISKFN MIELATQVLL GKKKKKKDPN FFTTNFLGIK ASQFSFSRLK
900 DADPILGVDM TSTGEVGCLG YSFDEALLKS MLSVGYTIPK KNILISSGPM DSKLDLLNMV
960 KLLHKKRYIL FATEGTNNFF SDCGVPSIRV HWPNERKYPN VIDLIKDRKF DLIINIPKNL
1020 SKFELDNDYA IRRFSVDFNI PLLTNTRLAK AFIQAFCNLS MDKLSINSWD EY
Download this sequence
Download all sequences for 6.3.5.5
Sequence related references
Sequence Reference
Authors
Title
Journal
Volume
Pages
Year
PubMed ID
219503305
Neef A.,Latorre A.,Pereto J.,Silva F.J.,Pignatelli M.,Moya A.
Genome economization in the endosymbiont of the wood roach Cryptocercus punctulatus due to drastic loss of amino acid synthesis capabilities.
Genome Biol. Evol.
3
1437-1448
2011