LOCUS ASM98068.1 1031 aa PRT BCT 14-AUG-2017
DEFINITION Vibrio vulnificus NBRC 15645 = ATCC 27562 beta-D-galactosidase
protein.
ACCESSION CP012882-213
PROTEIN_ID ASM98068.1
SOURCE Vibrio vulnificus NBRC 15645 = ATCC 27562
ORGANISM Vibrio vulnificus NBRC 15645 = ATCC 27562
Bacteria; Proteobacteria; Gammaproteobacteria; Vibrionales;
Vibrionaceae; Vibrio.
REFERENCE 1 (bases 1 to 1741042)
AUTHORS Rowe-Magnus,D. and Rusch,D.B.
TITLE Direct Submission
JOURNAL Submitted (06-OCT-2015) Biology, Indiana University, 1001 E. Third
Street, Bloomington, IN 47405, USA
COMMENT Annotation was added by the NCBI Prokaryotic Genome Annotation
Pipeline (released 2013). Information about the Pipeline can be
found here: http://www.ncbi.nlm.nih.gov/genome/annotation_prok/
##Genome-Assembly-Data-START##
Assembly Method :: Celera Assembler v. 8.1
Genome Coverage :: 10x; 100x
Sequencing Technology :: PacBio; Illumina
##Genome-Assembly-Data-END##
##Genome-Annotation-Data-START##
Annotation Provider :: NCBI
Annotation Date :: 10/06/2015 12:48:27
Annotation Pipeline :: NCBI Prokaryotic Genome Annotation
Pipeline
Annotation Method :: Best-placed reference protein set;
GeneMarkS+
Annotation Software revision :: 3.0
Features Annotated :: Gene; CDS; rRNA; tRNA; ncRNA;
repeat_region
Genes :: 4,415
CDS :: 4,220
Pseudo Genes :: 45
rRNAs :: 12, 11, 11 (5S, 16S, 23S)
complete rRNAs :: 12, 11, 11 (5S, 16S, 23S)
tRNAs :: 115
ncRNA :: 1
##Genome-Annotation-Data-END##
FEATURES Qualifiers
source /organism="Vibrio vulnificus NBRC 15645 = ATCC 27562"
/mol_type="genomic DNA"
/strain="ATCC 27562"
/type_material="type strain of Vibrio vulnificus"
/db_xref="taxon:1219061"
/chromosome="2"
/country="USA"
/collection_date="1979"
protein /gene="lacZ"
/locus_tag="AOT11_01120"
/EC_number="3.2.1.23"
/inference="EXISTENCE: similar to AA
sequence:RefSeq:WP_015727440.1"
/note="forms a homotetramer; hydrolyzes lactose
disaccharide to galactose and glucose; converts lactose to
allolactose which is the natural inducer of the lac
operon; Derived by automated computational analysis using
gene prediction method: Protein Homology."
/transl_table=11
BEGIN
1 MTAFSEILQR RDWENPQSVN IHCLKAHSPL ASFRDMAHAR DGIHAQRQSL NGQWKFKLFD
61 APEQVEGQFT QADFNDAEWD EIPVPSNWQL HGYDKPIYAN IKYPFDVNPP FVPRENPTGC
121 YRTRVSLSPE DLLNTQRIIF DGVNSAFHLW CNGTWVGYSQ DSRLPAEFDL TSHLVAGKNT
181 LAVMVMRWCD GSYLEDQDMW WLSGIFRDVT LLSKPQHCIE DVFITPELDA CYRDGSLSVV
241 TTITAPETYQ VQAQLFEGKQ AVTEPNIARP HNRRIDERGT WNDVVFQTLH LREPKKWSAE
301 TPNLYRLVVS LLDENGTHLE SEAYPVGFRK VEISEGQLKL NGKPLLIRGV NRHEHHPELG
361 HVMTEEDMIR DICLMKQYNF NAVRTAHYPN HPRWYELCDQ YGLYVCDEAN IETHGMQPMS
421 RLSSDPQWAH AYMSRYTQMV LRDKNHPSII IWSLGNESGH GSNHNAMYAW SKNFDPSRPV
481 QYEGGGSNTS ATDIIAPMYA RVNTLVADEA VPKWPIKKWI SLPNETRPLI LCEYAHAMGN
541 SLGSFNDYWT AFREFPRLQG GFIWDWVDQG LSQWDENGQH FWAYGGDFGD EINDRQFCIN
601 GLIFPDRTVH PTLEEAKYCQ RMITVSLQAQ TQAACTLLVT NENLFRATDN EQLNWSLLEN
661 GQVIQTGSQV LNVGADSQTS LEIALNFTPK AQAQYHLNID ICLIEATSWA SEGHVVATEQ
721 IALRNHAGLA MPTLRTQPAP KLTQNGHAIV VRSLDEKHQW RWDSQSGLLV EWNVDGKAQM
781 LAAPQDNFFR APLDNDIGIS EVDNVDPNAW VCRWEMAGIG QWQRHCVHCE SETLAHAVVV
841 TTTFAYHFGG EVQAITKWTH TLSNDGEMQW DVDVTLADAL PPMPRIGLEL QLPLHQTDTP
901 ITWQGLGPFE NYPDRLAAAR FGLHTQTLTQ MHTPYIFPTD SGLRCGTHWL QVNELAISGD
961 FQFSVSQYAQ QQLAEAKHTH DLVAQEQIYL RLDHQHMGVG GDDSWSPSVH KEFQLTEKHY
1021 RYQLRFSPAS R
//