ID ALGI_AZOVI STANDARD; PRT; 499 AA. AC O52196; DT 10-OCT-2003 (Rel. 42, Created) DT 10-OCT-2003 (Rel. 42, Last sequence update) DT 05-JUL-2004 (Rel. 44, Last annotation update) DE Probable poly(beta-D-mannuronate) O-acetylase (EC 2.3.1.-) (Alginate DE biosynthesis protein algI). GN Name=algI; OS Azotobacter vinelandii. OC Bacteria; Proteobacteria; Gammaproteobacteria; Pseudomonadales; OC Pseudomonadaceae; Azotobacter. OX NCBI_TaxID=354; RN [1] RP NUCLEOTIDE SEQUENCE. RC STRAIN=ATCC 9046; RX MEDLINE=99282527; PubMed=10352233; DOI=10.1016/S0378-1119(99)00119-5; RA Vazquez A., Moreno S., Guzman J., Alvarado A., Espin G.; RT "Transcriptional organization of the Azotobacter vinelandii algGXLVIFA RT genes: characterization of algF mutants."; RL Gene 232:217-222(1999). CC -!- FUNCTION: Together with algV and algF, forms an inner membrane CC complex which probably interacts with the alginate polymerization- CC transport complex and adds acetyl groups at the O-2 and O-3 CC positions of polymannuronic acid. Acetylation of alginate CC increases cyst resistance to desiccation. CC -!- PATHWAY: Alginate biosynthesis. CC -!- SUBCELLULAR LOCATION: Integral membrane protein. Inner membrane CC (By similarity). CC -!- SIMILARITY: Belongs to the membrane-bound acyltransferase family. CC -------------------------------------------------------------------------- CC This Swiss-Prot entry is copyright. It is produced through a collaboration CC between the Swiss Institute of Bioinformatics and the EMBL outstation - CC the European Bioinformatics Institute. There are no restrictions on its CC use as long as its content is in no way modified and this statement is not CC removed. CC -------------------------------------------------------------------------- DR EMBL; AF027499; AAC04568.1; -. DR InterPro; IPR004299; MBOAT_fam. DR Pfam; PF03062; MBOAT; 1. KW Acyltransferase; Alginate biosynthesis; Inner membrane; Transferase; KW Transmembrane. FT TRANSMEM 7 25 Potential. FT TRANSMEM 40 62 Potential. FT TRANSMEM 78 100 Potential. FT TRANSMEM 115 137 Potential. FT TRANSMEM 150 172 Potential. FT TRANSMEM 239 261 Potential. FT TRANSMEM 312 334 Potential. FT TRANSMEM 354 373 Potential. FT TRANSMEM 380 397 Potential. FT TRANSMEM 407 429 Potential. FT TRANSMEM 475 497 Potential. FT ACT_SITE 322 322 Potential. SQ SEQUENCE 499 AA; 56387 MW; CBB74AE4DF08F63C CRC64; MVFSSNVFLF LFLPLFLGLY YLSPARYRNL LLLTASYVFY AWWRIDFLGL FAAVTVFNYW IGLRIGAAGV RTQSAQRWLT LGVVVDLCVL GYFKYANFGV DSLNAIITSF GVEPFVVTHI LLPIGISFYV FESISYIIDV YRGDTPATRN LVDFAAFVAI FPHLIAGPVL RFRDLVDQFN HRTHTLDKFA EGCTRFMQGF IKKVFIADSL APIADHCFAL SDPTTGDAWL GALAYTAQLY FDFSGYSDMA IGLGLMIGFR FMENFNQPYI SQSITEFWRR WHISLSTWLR DYLYISLGGN RGTTFQTYRN LILTMLLGGL WHGANWTFII WGAWHGTWLA IERALRIDAA PKTIRPLRWV FAFLLVMVGW VIFRAENLDV AWRMYAAMFS FGDWTLSDLN KAQLTSLQIA TLLLAYVVIA VYGIRQFYAQ PLTGAPKAKA NDQADAPQGI VHASSGTLAY SQAIDIPALA TRVAVLLLFA ASVLKLSAQS FSPFLYFQF //