Description:
Uracil-DNA glycosylase (EC 3.2.2.-) (UDG).
Molecular weight: 26047
View which proteins in this organism that is involved with DNA Repair;
classified after biological processes (using data from the GOA project):
DNA repair( GO:0006281 ) base-excision repair( GO:0006284 )
Important dates:
01-FEB-1995, integrated into UniProtKB/Swiss-Prot.
01-FEB-1995, sequence version 1.
07-MAR-2006, entry version 52.
Phylogenetic order:
Bacteria Firmicutes Bacillales Bacillaceae Bacillus.
To calculate the pI (Isoelectric point - the pH where a protein has a neutral charge),
go to this page and enter the protein ID (e.g 3MG_ECOLI): http://us.expasy.org/tools/pi_tool.html
Links to references in other databases for protein UNG_BACSU:
| Database | Pointer | Add. info#1 | Add. info#2 |
| EMBL | X73124 | CAA51613.1 | - |
| EMBL | Z99123 | CAB15823.1 | - |
| PIR | S39712 | S39712. | |
| HSSP | P12295 | 3EUG | |
| GenomeReviews | AL009126_GR | BSU37970.1 | |
| SubtiList | BG10603 | ung. | |
| BioCyc | BSUB1423:BSU3793-MONOMER | -.1 | |
| HAMAP | MF_00148 | - | 1. |
| InterPro | IPR003249 | U_glycsylse_notp. | |
| InterPro | IPR002043 | UDNA_glycsylse. | |
| InterPro | IPR005122 | UDNA_glycsylseSF. | |
| PANTHER | PTHR11264 | U_glycsylse_notp.1 | 1. |
| Pfam | PF03167 | UDG | 1. |
| ProDom | PD001589 | U_glycsylse_notp | 1. |
| TIGRFAMs | TIGR00628 | ung | 1. |
| PROSITE | PS00130 | U_DNA_GLYCOSYLASE | 1. |
Keywords:
Complete proteome; DNA damage; DNA repair; Glycosidase; Hydrolase.
References:
RN [1]
RP NUCLEOTIDE SEQUENCE [GENOMIC DNA].
RC STRAIN=168;
RX MEDLINE=95020537; PubMed=7934828;
RA Glaser P., Kunst F., Arnaud M., Coudart M.P., Gonzales W.,
RA Hullo M.-F., Ionescu M., Lubochinsky B., Marcelino L., Moszer I.,
RA Presecan E., Santana M., Schneider E., Schweizer J., Vertes A.,
RA Rapoport G., Danchin A.;
RT "Bacillus subtilis genome project: cloning and sequencing of the 97 kb
RT region from 325 degrees to 333 degrees.";
RL Mol. Microbiol. 10:371-384(1993).
RN [2]
RP NUCLEOTIDE SEQUENCE [LARGE SCALE GENOMIC DNA].
RC STRAIN=168;
RX MEDLINE=98044033; PubMed=9384377; DOI=10.1038/36786;
RA Kunst F., Ogasawara N., Moszer I., Albertini A.M., Alloni G.,
RA Azevedo V., Bertero M.G., Bessieres P., Bolotin A., Borchert S.,
RA Borriss R., Boursier L., Brans A., Braun M., Brignell S.C., Bron S.,
RA Brouillet S., Bruschi C.V., Caldwell B., Capuano V., Carter N.M.,
RA Choi S.-K., Codani J.-J., Connerton I.F., Cummings N.J., Daniel R.A.,
RA Denizot F., Devine K.M., Duesterhoeft A., Ehrlich S.D., Emmerson P.T.,
RA Entian K.-D., Errington J., Fabret C., Ferrari E., Foulger D.,
RA Fritz C., Fujita M., Fujita Y., Fuma S., Galizzi A., Galleron N.,
RA Ghim S.-Y., Glaser P., Goffeau A., Golightly E.J., Grandi G.,
RA Guiseppi G., Guy B.J., Haga K., Haiech J., Harwood C.R., Henaut A.,
RA Hilbert H., Holsappel S., Hosono S., Hullo M.-F., Itaya M.,
RA Jones L.-M., Joris B., Karamata D., Kasahara Y., Klaerr-Blanchard M.,
RA Klein C., Kobayashi Y., Koetter P., Koningstein G., Krogh S.,
RA Kumano M., Kurita K., Lapidus A., Lardinois S., Lauber J.,
RA Lazarevic V., Lee S.-M., Levine A., Liu H., Masuda S., Mauel C.,
RA Medigue C., Medina N., Mellado R.P., Mizuno M., Moestl D., Nakai S.,
RA Noback M., Noone D., O'Reilly M., Ogawa K., Ogiwara A., Oudega B.,
RA Park S.-H., Parro V., Pohl T.M., Portetelle D., Porwollik S.,
RA Prescott A.M., Presecan E., Pujic P., Purnelle B., Rapoport G.,
RA Rey M., Reynolds S., Rieger M., Rivolta C., Rocha E., Roche B.,
RA Rose M., Sadaie Y., Sato T., Scanlan E., Schleich S., Schroeter R.,
RA Scoffone F., Sekiguchi J., Sekowska A., Seror S.J., Serror P.,
RA Shin B.-S., Soldo B., Sorokin A., Tacconi E., Takagi T., Takahashi H.,
RA Takemaru K., Takeuchi M., Tamakoshi A., Tanaka T., Terpstra P.,
RA Tognoni A., Tosato V., Uchiyama S., Vandenbol M., Vannier F.,
RA Vassarotti A., Viari A., Wambutt R., Wedler E., Wedler H.,
RA Weitzenegger T., Winters P., Wipat A., Yamamoto H., Yamane K.,
RA Yasumoto K., Yata K., Yoshida K., Yoshikawa H.-F., Zumstein E.,
RA Yoshikawa H., Danchin A.;
RT "The complete genome sequence of the Gram-positive bacterium Bacillus
RT subtilis.";
RL Nature 390:249-256(1997).
Feature:
CHAIN 1 225 Uracil-DNA glycosylase.
/FTId=PRO_0000176067.
ACT_SITE 65 65 Proton acceptor (By similarity).
Comments:
-!- FUNCTION: Excises uracil residues from the DNA which can arise as
a result of misincorporation of dUMP residues by DNA polymerase or
due to deamination of cytosine (By similarity).
-!- SUBCELLULAR LOCATION: Cytoplasm (By similarity).
-!- SIMILARITY: Belongs to the uracil-DNA glycosylase family.
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Sequence length: 225
MKQLLQDSWW NQLKEEFEKP YYQELREMLK REYAEQTIYP DSRDIFNALH YTSYDDVKVV
ILGQDPYHGP GQAQGLSFSV KPGVKQPPSL KNIFLELQQD IGCSIPNHGS LVSWAKQGVL
LLNTVLTVRR GQANSHKGKG WERLTDRIID VLSERERPVI FILWGRHAQM KKERIDTSKH
FIIESTHPSP FSARNGFFGS RPFSRANAYL EKMGEAPIDW CIKDL