>TIGR01369 CPSaseII_lrg carbamoyl-phosphate synthase, large subunit; InterPro: IPR006275 Carbamoyl phosphate synthase (CPSase) is a heterodimeric enzyme composed of a small and a large subunit (with the exception of CPSase III, see below). CPSase catalyses the synthesis of carbamoyl phosphate from biocarbonate, ATP and glutamine (6.3.5.5 from EC) or ammonia (6.3.4.16 from EC), and represents the first committed step in pyrimidine and arginine biosynthesis in prokaryotes and eukaryotes, and in the urea cycle in most terrestrial vertebrates , . CPSase has three active sites, one in the small subunit and two in the large subunit. The small subunit contains the glutamine binding site and catalyses the hydrolysis of glutamine to glutamate and ammonia. The large subunit has two homologous carboxy phosphate domains, both of which have ATP-binding sites; however, the N-terminal carboxy phosphate domain catalyses the phosphorylation of biocarbonate, while the C-terminal domain catalyses the phosphorylation of the carbamate intermediate . The carboxy phosphate domain found duplicated in the large subunit of CPSase is also present as a single copy in the biotin-dependent enzymes acetyl-CoA carboxylase (6.4.1.2 from EC) (ACC), propionyl-CoA carboxylase (6.4.1.3 from EC) (PCCase), pyruvate carboxylase (6.4.1.1 from EC) (PC) and urea carboxylase (6.3.4.6 from EC). Most prokaryotes carry one form of CPSase that participates in both arginine and pyrimidine biosynthesis, however certain bacteria can have separate forms. The large subunit in bacterial CPSase has four structural domains: the carboxy phosphate domain 1, the oligomerisation domain, the carbamoyl phosphate domain 2 and the allosteric domain . CPSase heterodimers from Escherichia coli contain two molecular tunnels: an ammonia tunnel and a carbamate tunnel. These inter-domain tunnels connect the three distinct active sites, and function as conduits for the transport of unstable reaction intermediates (ammonia and carbamate) between successive active sites . The catalytic mechanism of CPSase involves the diffusion of carbamate through the interior of the enzyme from the site of synthesis within the N-terminal domain of the large subunit to the site of phosphorylation within the C-terminal domain. Eukaryotes have two distinct forms of CPSase: a mitochondrial enzyme (CPSase I) that participates in both arginine biosynthesis and the urea cycle; and a cytosolic enzyme (CPSase II) involved in pyrimidine biosynthesis. CPSase II occurs as part of a multi-enzyme complex along with aspartate transcarbamoylase and dihydroorotase; this complex is referred to as the CAD protein . The hepatic expression of CPSase is transcriptionally regulated by glucocorticoids and/or cAMP . There is a third form of the enzyme, CPSase III, found in fish, which uses glutamine as a nitrogen source instead of ammonia . CPSase III is closely related to CPSase I, and is composed of a single polypeptide that may have arisen from gene fusion of the glutaminase and synthetase domains . This entry represents glutamine-dependent CPSase (6.3.5.5 from EC) from prokaryotes and eukaryotes (CPSase II). ; GO: 0004086 carbamoyl-phosphate synthase activity, 0006807 nitrogen compound metabolic process.

Probab=91.68  E-value=0.058  Score=31.27  Aligned_cols=148  Identities=18%  Similarity=0.249  Sum_probs=77.8

Q ss_pred             EEEEECCCCH-HHH---------HHHHHHHHHCCCEEEEEECCCCCCCHHHHH-HHHCCCCEEEEECCCCCHHHHHHHHH
Q ss_conf             4899767882-779---------999999986898799994788765856777-62037974999763889999999986
Q gi|254780920|r    2 RLIVTGGAGF-IGS---------ALCRYLVNDLKIQVLVIDKLTYAGNLNSLK-EISQSNLFSFLQVDICDRECIRSALK   70 (358)
Q Consensus         2 kILItG~tGf-IGs---------~l~~~Ll~~~~~~V~~~d~~~~~~~~~~~~-~~~~~~~v~~i~~Di~d~~~l~~~~~   70 (358)
T Consensus       575 ~~lvlGSGp~RIGqgvEFDYc~Vh~~~aL-r~~Gye~ImiN~-----NPETVSTDyD~sDrLYFEplt~---E~Vm~I~e  645 (1089)
T TIGR01369       575 KVLVLGSGPNRIGQGVEFDYCCVHAVLAL-REAGYETIMINY-----NPETVSTDYDTSDRLYFEPLTF---EDVMNIIE  645 (1089)
T ss_pred             EEEEECCCCEECCCCEEEHHHHHHHHHHH-HHCCCEEEEEEC-----CCCCCCCCHHHHHHCCCCCCCC---CCCEEHEE
T ss_conf             68998784514066312056789999999-872995999977-----8997436666510115876350---31001100


Q ss_pred             HCCCCE-EEEECCCCCCCCCCCCCCCCCCCCCCCCCHHHHHHHHHCCCCCCCCCCCEEEEECCCCCC--CCCCCC--CCC
Q ss_conf             227871-785123433222222222222222222202478886512322112478427863055431--122222--222
Q gi|254780920|r   71 EFQPDA-IVNFAAESHVDRSILGADEFITTNIIGTFILLEETRLWWSCLSQDKKDQFRFLQISTDEV--YGSLDK--GLF  145 (358)
Q Consensus        71 ~~~~d~-ViHlAa~~~~~~~~~~p~~~~~~Nv~gt~nil~~~~~~~~~~~~~~~~~~~~v~~SS~~v--Yg~~~~--~~~  145 (358)
T Consensus       646 ~E~~~GVIVq~GGQtp~n--lA~~L~~~G--------------------------G~~iLGTS~~~ID~AEDR~kFs~~l  697 (1089)
T TIGR01369       646 LEKPEGVIVQFGGQTPLN--LAKELEEAG--------------------------GVPILGTSPESIDRAEDREKFSELL  697 (1089)
T ss_pred             ECCCCEEEEECCCHHHHH--HHHHHHHCC--------------------------CCEEECCCHHHHHHHCCHHHHHHHH
T ss_conf             058667999748732678--999999708--------------------------9317368857875131867999999


Q ss_pred             CCCCCCCCCCCCCCCCCCCEEEECCCCCCCCCCCCCCCCCCCCCCC
Q ss_conf             2222222222223332210000001233322222222222223332
Q gi|254780920|r  146 SEDMPYNPSSPYSATKASSDYLVLAWGHTYGIPVLLSNCSNNYGPY  191 (358)
Q Consensus       146 ~E~~~~~p~s~Yg~sK~~~E~~~~~~~~~~~l~~~ilR~~~vyGp~  191 (358)
T Consensus       698 ~~Lgi~QP~~~~a~s~eea----~~~A~~iGYPvl-vRPSYVLgG~  738 (1089)
T TIGR01369       698 DELGIPQPEWKIATSVEEA----KEFASEIGYPVL-VRPSYVLGGR  738 (1089)
T ss_pred             HHCCCCCCCCCEECCHHHH----HHHHHHCCCCEE-ECCCCCCCCC
T ss_conf             7158798988527287999----999854699289-8168300336