The Gram-negative bacterium Gluconacetobacter hansenii is considered a model organism for studying cellulose synthesis. We have determined the genome sequence of strain ATCC 23769.Plants produce cellulose, an unbranched chain of -1,4-linked glucose units, as a structural polysaccharide. It is the most abundant polymer on earth, recently receiving much interest due to its potential use as a feedstock for bioethanol. Bacteria also produce cellulose. Among these, Gluconacetobacter hansenii (previously named Acetobacter xylinus) (4) has been extensively characterized and is a model system for cellulose biosynthesis (1, 2, 7). G. hansenii produces extracellular cellulose that is devoid of lignin or hemicellulose, making it an excellent source for pure cellulose. A lack of a completely sequenced genome for this organism has been a limiting factor in identifying other key proteins involved in cellulose synthesis.The whole-genome sequencing of G. hansenii ATCC 23769 was performed using the 454 FLX-Titanium pyrosequencing technology (5). A combinatorial sequencing approach using 489,201 reads obtained from the shotgun library and 195,088 reads from an 8-kb pair end library (3) produced a total of 221,294,116 bp. These reads were assembled using the Newbler assembler, producing 88 large contigs (Ͼ500 bp) and a chromosome-sized scaffold of 3,646,142 bp with an average coverage of ϫ50.5. This scaffold contained exclusively chromosomal DNA and no plasmid sequences. The gaps in the large scaffold were filled by primer walking and subsequent sequencing of the PCR products. The resulting high-quality draft assembly, consisting of a large scaffold with 71 contigs, was annotated using the Prokaryotic Genomes Automatic Annotation Pipeline (PGAAP) service of the National Institute of Biotechnology Information (NCBI).The chromosomal sequence of G. hansenii 23769 contains 3,547,122 bp, with a GϩC content of 59%. The genome contains 3,351 genes, of which 3,308 are protein-encoding genes, accounting for 84% of the genome. There are 43 genes for tRNAs and 2 rRNA loci. The genes encoding proteins involved in cellulose synthesis are in an operon consisting of acsAB (GXY_04277), acsC (GXY_04282), and acsD (GXY_04292), as previously shown by Saxena et al. (7). Interestingly, there are two additional copies of acsAB, GXY_08864 and GXY_14452, which share 69% and 72% sequence identity, respectively, with the acsAB genes in the operon; the deduced amino acid sequences are 40% and 46% identical, respectively, with that deduced from acsAB in the operon. There are also two additional copies of acsC, GXY_08869 and GXY_014472, which share 72% and 65% DNA sequence identity, respectively, with the acsC gene in the operon; the deduced amino acid sequences share 28% and 30% amino acid identity, respectively, with that deduced from acsC. acsAB (GXY_08864) and acsC (GXY_08869) are only 17 bp apart, less than the distance (66 bp) between the acsAB and acsC genes in the operon. acsAB (GXY_14452) and acsC (GXY_14472) are separated by 3,299 bp, with three ge...
