HIGDB - Haemophilus influenzae Genome Database

Protein search results for - E4QYC4

Names and origin
Entry : E4QYC4 (unreviewed)
Entry name : E4QYC4_HAEI6
Protein names : Glutamate-ammonia-ligase adenylyltransferase (EC 2.7.7.42) (Glutamine-synthase adenylyltransferase) ([Glutamate--ammonia-ligase] adenylyltransferase)
Organism : Haemophilus influenzae R2866
Organism ID : 262728
Gene names : glnE
ORF names : R2866_0635
EC number : 2.7.7.42
History
Date of creation : 2011-02-08
Date of modification : 2013-11-13
Date of sequence modification : 2011-02-08
Protein attributes
Protein existence : Inferred from homology
Gene Ontology (GO)
GO term name : ATP binding; [glutamate-ammonia-ligase] adenylyltransferase activity; ligase activity
GO identifier : GO:0005524; GO:0008882; GO:0016874
Keywords
Ligand & Biological process : ATP-binding; Complete proteome; Ligase; Nucleotide-binding; Nucleotidyltransferase; Repeat; Transferase
General annotation
Sequence similarities : Belongs to GlnE family
Protein sequence
Length : 1049 residues
>E4QYC4|E4QYC4_HAEI6 Haemophilus influenzae R2866
MTALSALIEQKLQSLGTILCQSFPELSPEKIHEAIQQNSNHPELPVYQLGYAIAMSDFVE
KVLQKYPHLVKQWWEKSPCFADCTAYIERLNKELANVHDETALYQILRQFRNIEMAKLSF
CQSLNLATVEEIFVQLSQLAESLIIAARDWLYHQACAEIGTPMDEQGNPQQLYILGMGKL
GGFELNFSSDIDLIFTYPSQGETSVENTNARRSVDNGKFFTRLGQRLISALDEFTSDGFV
YRTDMRLRPFGDSGALVLSFAAMEQYYQDQGRDWERYAMIKGRVLGVQTKDPNVSKLKKM
LRPFVYRRYIDFSVIQSLREMKGKIEREVRRRGLKDNIKLGAGGIREVEFIVQVFQLIRG
GREINLQQHSLLKILPEITKLGLITEQQFHNLRESYIFLRRVENILQAINDQQTQTLPTD
EIDQIRLVEACKTFTCLNENNQTIEKHYPIENWDDFYRTLQQKQEKVRAVFTQLIGDEQD
EPSQTDSQWQDFLEADFEDIEQTLLESGVSENNIDEVLEKLAQFKDGLNHRVIGSRGRDV
LSHLMPTVLALIFEQENYRTLLPRILNIIEKISSRTTYLELLLENPRALQQVIELCAQSH
LISEQLAHYPILLDELLNTEALRHPLPFTQYPTELHQYLLRLPPDDEEQLIDALRQFKQA
TLLKVAAADILGALPVMKVSDHLTYLAEAIIEVVVNLAWKQVSSRFGVPEHLQNNEKGFL
VIGYGKLGGIELGYKSDLDLVFLYDAVESQTTGGKKVIDSNQFYLRLAQKIVSIFSINTS
AGVLYEADMRLRPSGDAGLIGCSLSAFSHYQLNDAWTWEKQALVRARPVFGESSLKAKFE
HIRQQVLSASRDIEQLKQDVVEMRKKMFAHLSHSKHSEFNLKTDLGGITDIEFIAQYLML
ANAPKKPQLTKWSDNVRIFDDMAEAKIISQTDCDTLKQCYVDLRNAIHHLNLIGKSPVVD
ETEFVKERSFIQAFWDRLFVS