Victors

ilvD from Brucella suis 1330
Victor ID	1026
Gene Name	ilvD from Brucella suis 1330
Sequence Strain (Species/Organism)	Brucella suis 1330
NCBI Gene ID	1165756
NCBI Protein GI	23501013
Locus Tag	BR0099
Protein Accession	NP_697140.1
Other Database IDs	UniProtKB-ID: ILVD_BRUSU UniRef100: UniRef100_A9M6V2 UniRef90: UniRef90_B2S7Z5 UniRef50: UniRef50_Q5F8G6 UniParc: UPI00000DD1C5 EMBL: AE014291 EMBL-CDS: AAN29055.1 RefSeq_NT: NC_004310.3 GenomeReviews: AE014291_GR KEGG: bms:BR0099 NMPDR: fig\|204722.1.peg.97 TIGR: BR0099 HOGENOM: HBG671001 OMA: KVPCLSK ProtClustDB: PRK12448 BioCyc: BSUI204722:BR_0099-MONOMER
Taxonomy ID	204722
Chromosome No	I
Gene Starting Position	103312
Gene Ending Position	105147
Gene Strand (Orientation)	-
Protein Name	dihydroxy-acid dehydratase
DNA Sequence	>gi\|56968325:103312-105147 Brucella suis 1330 chromosome I, complete sequence ATCAATCCGGCAGCTTTCGCACCGCGCCCCTGGCGGCACTTGTCGCCATTGCCGCATAGGCTTTCAGCGC AGTGGAGATTTTACGCTTGCGTTCCTCTGCCGGTTTCCAGCCTGCTGCATCCTGCTCGGCGCGGCGTTCG GCAAGTGTGGCGTCGTCAACGGCAAGGTGGATCTTGCGGTTCGGAATGTCGATATCGATGATATCGCCTT CGCGCACCAGACCGATCGTGCCGCCTTCGGCTGCTTCCGGCGAAACATGGCCGATGGAAAGGCCCGATGA ACCGCCCGAGAAACGTCCGTCGGTGATAAGTGCGCAGGCTTTGCCGAAGCCCTTCGACTTCAGATAGCTG GTCGGGTAGAGCATTTCCTGCATTCCGGGGCCGCCGCGCGGGCCTTCATAGCGGATCAGCACGATGTCGC CCGGCTTGATCTTGCCGTTCAAAATGCCAAGCACAGCCGAATCCTGGCTTTCAAAAATGCGGGCCGGGCC GGAGAATTTCAGGATGGAATCGTCCACGCCTGCCGTCTTCACGATGCAGCCGTCTTCCGCCAGATTGCCG TAAAGCACGGCCAAGCCGCCATCCTGGCTGAAAGCGTGTTCCTTTGAGCGGATGACGCCTTTTTCGCGGT CGGTGTCCACCTTGTCGAAGCGCCGCTCCTGGCTGAAAGCCACCTGCGTCGGCACGCCGCCGGGAGCGGC GGAATAGAATTTGTGCACCATTTCGCTGTTTGTGCGCGTTACATCCCAATGATCAAGCGCCTTAGCGAGC GTTTCGCTGTGCACGGTCGGGATGCTGGTGGTCAGCAGGCCCGCATTGTCGAGCTGTCCGAGAATGCCCA TGATGCCGCCGGCATGATGCACGTCTTCCATGTGAACCGACGACACGGCGGGCGCCACCTTGCACAGCAC CGGCACGCGGCGCGACAGGCGGTCTATATCCGCCATGGTGAAATCGATTTCCGCTTCCTGCGCAGCCGCG AGCAGATGCAGAACCGTATTGGTCGAACCGCCCATGGCGATATCGAGCGTCATCGCGTTCTCGAAAGCCG AGAAAGTGGCGATGGAGCGCGGCAGCACACTTTCGTCATCCTGCTCGTAATAGCGGCGGGCGAGATCGAC GATCAGGTGGCCAGCTTCGACGAAGAGGCGCTTGCGGTCTGCATGGGTGGCGAGCGTCGAACCATTGCCG GGCAGCGACAGGCCGAGCGCTTCGGTAAGGCAATTCATCGAATTGGCCGTGAACATGCCCGAACACGACC CACAGGTCGGGCAGGCGGAACGCTCAATCGCCTTCACCTGCTCGTCGGTATAATGGTCGTCGGCCGCCGC CACCATGGCGTCCACGAGGTCGAGCTTCTTGACAGAATCCTCCCACACGACCTTGCCTGCTTCCATCGGC CCACCGGAGACGAACACGACCGGAATATTGAGACGCAGCGCCGCCATCAGCATGCCGGGCGTGATCTTGT CGCAATTGGAGATGCAGACCATCGCATCGGCGCAATGCGCATTGACCATATATTCGACCGAGTCGGCGAT GAGCTCACGGGAGGGGAGCGAATAGAGCATGCCGTCATGGCCCATGGCGATGCCGTCATCGACCGCAATG GTATTGAATTCCTTGGCGACGCCGCCCGCACTTTCGATTTCGCGCGCGACGAGCTGGCCGAGATCCTTCA GATGCACATGGCCGGGCACGAACTGGGTGAACGAGTTCACCACGGCGATAATCGGCTTGCCGAAATCCTC ATCCTTCATGCCGGTGGCGCGCCATAGGCCGCGCGCGCCGGCCATATTGCGGCCATGGGTGGTTGTACGC GAACGATAAGGAGGCA
Protein Sequence	>gi\|23501013\|ref\|NP_697140.1\| dihydroxy-acid dehydratase [Brucella suis 1330] MPPYRSRTTTHGRNMAGARGLWRATGMKDEDFGKPIIAVVNSFTQFVPGHVHLKDLGQLVAREIESAGGVAKEFNTIAVDDGIAMGHDGMLYSLPSRELIADSVEYMVNAHCADAMVCISNCDKITPGMLMAALRLNIPVVFVSGGPMEAGKVVWEDSVKKLDLVDAMVAAADDHYTDEQVKAIERSACPTCGSCSGMFTANSMNCLTEALGLSLPGNGSTLATHADRKRLFVEAGHLIVDLARRYYEQDDESVLPRSIATFSAFENAMTLDIAMGGSTNTVLHLLAAAQEAEIDFTMADIDRLSRRVPVLCKVAPAVSSVHMEDVHHAGGIMGILGQLDNAGLLTTSIPTVHSETLAKALDHWDVTRTNSEMVHKFYSAAPGGVPTQVAFSQERRFDKVDTDREKGVIRSKEHAFSQDGGLAVLYGNLAEDGCIVKTAGVDDSILKFSGPARIFESQDSAVLGILNGKIKPGDIVLIRYEGPRGGPGMQEMLYPTSYLKSKGFGKACALITDGRFSGGSSGLSIGHVSPEAAEGGTIGLVREGDIIDIDIPNRKIHLAVDDATLAERRAEQDAAGWKPAEERKRKISTALKAYAAMATSAARGAVRKLPD
Molecule Role	Virulence factor
Molecule Role Annotation	CATALYTIC ACTIVITY: 2,3-dihydroxy-3-methylbutanoate = 3-methyl-2-oxobutanoate + H(2)O(UniProt: Q8G353). COFACTOR: Binds 1 4Fe-4S cluster (Potential)(UniProt: Q8G353). PATHWAY: Amino-acid biosynthesis; L-isoleucine biosynthesis; L-isoleucine from 2-oxobutanoate: step 3(UniProt: Q8G353). PATHWAY: Amino-acid biosynthesis; L-valine biosynthesis; L-valine from pyruvate: step 3(UniProt: Q8G353). SIMILARITY: Belongs to the ilvD/edd family(UniProt: Q8G353). MUTATION: Of those B abortus mutants with mini-Tn5 insertions in genes predicted to be involved in amino acid biosynthesis and transport, only the ilvD mutant, displayed attenuation in both macrophages and mice. The othre two amino acid biosynthesis mutants [trpB::miniTn5 and pheA::miniTn5] displayed wild-type virulence in mice but attenuated inside macrophages. The studies with B abortus ilvD, trpB, and pheA mutants suggest that tryptophan and phenylalanine are available to the brucellae in their intracellular niche but that other amino acids (eg, leucine, isoleucine, or valine) are not (Alcantara et al., 2004).
COG	COG0129EG, under E: Amino acid transport and metabolism; G: Carbohydrate transport and metabolism
References	*Alcantara et al., 2004:* Alcantara RB, Read RD, Valderas MW, Brown TD, Roop RM 2nd. Intact purine biosynthesis pathways are required for wild-type virulence of Brucella abortus 2308 in the BALB/c mouse model. Infection and immunity. 2004; 72(8); 4911-4917. [PubMed: 15271960].


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ilvD from Brucella suis 1330