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Seattle Structural Genomics Center for Infectious Disease

AcbaC.17241.a: 1-deoxy-D-xylulose-5-phosphate synthase

Target Characteristics

from organism: Acinetobacter baumannii AB5075-UW
most recent status: purified
center reference id: AcbaC.17241.a
is community request: True
associated disease:
NIH risk group: 2
is select agent: False
NIH priority
pathogens category:
unclassified

Ordering Clones & Proteins

If there are materials available for this target, they will be listed below. Materials can be ordered from SSGCID using the button in the "order material" column. Clicking the button will add the material to a virtual cart. You may order multiple materials at a time at no cost to you, as this contract is funded by NIAID. When you are ready to place your order, click the "Place Order" link which will appear in the top right corner of the page after you place your first item in your cart.

Proteins

CENTER
REFERENCE ID
DOMAIN/REGION
DESCRIPTION
INFO AA
START
AA
STOP
ORDER
MATERIAL
AcbaC.17241.a.B1.PW37679 full length 1 634

External Resources

Resource Reference ID
GenBank: AKA30165.1
PATRIC ID: fig|470.1345.peg.365
PGAT: acinetobacter:ABUW_0379
RefSeq: WP_000967374.1
UniProt: A0A0D5YD42

Enzyme & Pathway Information

Pathway Pathway ID EC Number
methylerythritol phosphate pathway I NONMEVIPP-PWY 2.2.1.7
superpathway of pyridoxal 5'-phosphate biosynthesis and salvage PWY0-845 2.2.1.7
superpathway of geranylgeranyl diphosphate biosynthesis II (via MEP) PWY-5121 2.2.1.7
isoprene biosynthesis I PWY-6270 2.2.1.7
thiazole biosynthesis II (aerobic bacteria) PWY-6891 2.2.1.7
thiazole biosynthesis I (facultative anaerobic bacteria) PWY-6892 2.2.1.7
superpathway of thiamine diphosphate biosynthesis II PWY-6895 2.2.1.7
superpathway of ergosterol biosynthesis II PWY-7156 2.2.1.7
taxadiene biosynthesis (engineered) PWY-7392 2.2.1.7
methylerythritol phosphate pathway II PWY-7560 2.2.1.7
pyridoxal 5'-phosphate biosynthesis I PYRIDOXSYN-PWY 2.2.1.7
superpathway of thiamine diphosphate biosynthesis I THISYN-PWY 2.2.1.7

Sequences

These sequences are the native gene sequence; sequences of constructs derived from these sequences may differ due to codon optimization or other protocols. To find the specific sequence of any material you may have ordered, click on the "more" button next to the name of that material.
AA Sequence
MLYTEIPTQR PVTPLLDAID HPQQLRQLEH SQLLQVADEL RQYILYAAGQ SGGHFGANLG VVELTVALHY CFNTPNDRLV WDVGHQAYPH KILTGRREQI TTIRAKNGLA AFPAREESVF DTFGVGHSST AISAGLGMSL ARRYQKDPCE VVCIVGDGAM TAGMAFEAMN DAVAHDADLI VVLNDNDMSI SCSTGGFAKH LAAIWEKGHL VNVNEHGEAY IQPHPKWTYN SRLHQSATDA ADNLFKAIGF DYFGPFDGHD VTQLVQVFNA LKKRKGPRLV HVYTKKGKGF APAEADPITY HAIGKINAAS GGKTPPKYSD VFGEWLCDEA AQDERLLAIT PAMCEGSGMV KFAKQFPQRF FDVAIAEQHA VTLAAGMACE GLKPVVAIYS TFLQRGYDQL IHDVALQNLD VTFGIDRAGL VGEDGPTHAG AYDYAYMRTV PNMVIMAPKD ENECRQMLHT AYAYNGPAAV RYPRGAGVGV EIQKEMTVLE LGKAEIVAEI KANSDEQITV LAFGSRVMVA LEAAEQFAQK HDVSVCIVNM RFVKPLDEQM IRDLAEHTHL FVTVEEHAIM GGAGSAVNEF MAQEQIVKPI INLGLPDSFL HQATHNQMLQ DCGLDAKGIL NSIERAWLKV NQVV

NT Sequence
ATGTTGTATA CCGAAATTCC AACTCAACGC CCTGTTACGC CATTGTTAGA TGCGATTGAT CATCCTCAAC AATTACGTCA GCTCGAGCAT AGCCAATTAC TACAAGTGGC TGATGAGTTG CGTCAATATA TTTTATATGC AGCAGGCCAG AGTGGTGGCC ATTTCGGTGC TAACCTCGGC GTGGTTGAGC TGACGGTAGC GCTGCATTAT TGCTTTAATA CACCAAATGA CCGTTTAGTT TGGGATGTGG GACACCAAGC ATACCCACAT AAAATCCTGA CTGGACGCCG TGAACAAATT ACGACCATTC GCGCTAAAAA TGGATTGGCT GCTTTCCCAG CCAGAGAAGA GTCCGTTTTT GATACCTTTG GGGTAGGGCA TTCTTCAACT GCTATTTCAG CTGGTTTGGG TATGTCTTTG GCACGTCGCT ATCAGAAAGA CCCATGTGAA GTCGTTTGTA TTGTGGGTGA TGGTGCAATG ACTGCGGGCA TGGCATTTGA AGCAATGAAT GATGCTGTTG CTCATGATGC AGATTTAATT GTTGTACTCA ATGACAACGA TATGTCGATT TCTTGCAGTA CAGGTGGCTT TGCCAAACAT TTAGCTGCAA TTTGGGAAAA AGGTCATTTA GTTAATGTCA ATGAACATGG TGAAGCTTAT ATCCAGCCAC ACCCAAAATG GACATATAAC TCTCGATTAC ACCAATCGGC AACCGATGCG GCAGATAATT TATTTAAAGC AATTGGTTTT GATTATTTCG GGCCTTTTGA TGGACACGAT GTCACTCAGT TGGTTCAGGT GTTCAACGCG CTCAAAAAAC GTAAAGGTCC ACGTTTAGTT CACGTTTATA CCAAGAAAGG TAAAGGCTTT GCTCCTGCTG AAGCAGACCC GATTACTTAC CATGCGATTG GCAAAATTAA TGCTGCTTCG GGCGGGAAAA CACCACCAAA ATACTCTGAT GTGTTTGGTG AGTGGTTATG TGATGAAGCT GCACAAGATG AGCGTTTGCT TGCGATCACG CCTGCAATGT GTGAAGGCTC GGGCATGGTT AAATTTGCTA AGCAATTTCC TCAGCGTTTC TTCGATGTCG CGATTGCAGA GCAGCATGCT GTAACACTTG CAGCAGGAAT GGCATGCGAA GGGCTAAAAC CTGTTGTCGC CATTTATTCA ACATTCCTGC AGCGTGGTTA CGATCAGCTT ATTCATGATG TCGCATTGCA AAATCTTGAC GTGACTTTTG GTATTGACCG TGCAGGCTTG GTTGGTGAAG ATGGTCCAAC GCATGCAGGT GCATATGACT ATGCTTATAT GCGTACTGTG CCTAATATGG TGATCATGGC ACCGAAAGAT GAAAATGAAT GCCGTCAAAT GCTTCATACG GCTTATGCCT ATAATGGCCC GGCTGCGGTA CGCTATCCGC GTGGTGCAGG TGTGGGCGTC GAAATCCAAA AAGAGATGAC TGTTCTTGAA TTGGGTAAAG CTGAAATTGT TGCAGAAATT AAAGCAAACA GTGATGAGCA GATTACGGTT TTAGCATTTG GTAGTCGTGT CATGGTTGCT CTGGAAGCAG CTGAGCAATT TGCGCAAAAA CATGACGTCA GTGTGTGTAT TGTAAATATG CGCTTCGTAA AACCGCTTGA TGAACAAATG ATTCGAGACT TGGCTGAGCA TACTCATTTA TTCGTGACAG TTGAAGAACA CGCGATTATG GGTGGTGCGG GTAGTGCAGT GAATGAGTTT ATGGCTCAAG AACAAATTGT TAAACCTATC ATTAATTTAG GTCTACCTGA CTCGTTCTTG CATCAGGCGA CACATAATCA AATGCTACAA GATTGTGGTT TAGATGCTAA GGGTATTTTG AACTCGATTG AGCGAGCATG GCTTAAGGTA AATCAGGTGG TTTAA

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