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Seattle Structural Genomics Center for Infectious Disease

AcbaC.01331.a: phosphoglycerate kinase

Target Characteristics

from organism: Acinetobacter baumannii AB5075-UW
most recent status: in PDB
center reference id: AcbaC.01331.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.

Clones*

CENTER
REFERENCE ID
DOMAIN/REGION
DESCRIPTION
INFO AA
START
AA
STOP
ORDER
MATERIAL
AcbaC.01331.a.B1.GE38686 full length 1 395 GE38686
* SSGCID clones represent un-induced expression constructs which have been verified by sequencing from vector primers. Clones may contain a tag, such as N-term 6xHis. Get sequence information using the button in the "info" column.

Structures

image of structure for 5BT8
5BT8
Deposited: 6/2/2015
Determination: XRay
Diffraction Image
Clone: AcbaC.01331.a.B1.GE38686
Protein: AcbaC.01331.a.B1.PS02354

External Resources

Resource Reference ID
GenBank: AKA31999.1
PATRIC ID: fig|470.1345.peg.2226
PGAT: acinetobacter:ABUW_2271
RefSeq: WP_001011093.1
UniProt: A0A086HXS4

Enzyme & Pathway Information

Pathway Pathway ID EC Number
homolactic fermentation ANAEROFRUCAT-PWY 2.7.2.3
glycolysis III (from glucose) ANAGLYCOLYSIS-PWY 2.7.2.3
Calvin-Benson-Bassham cycle CALVIN-PWY 2.7.2.3
gluconeogenesis I GLUCONEO-PWY 2.7.2.3
glycolysis I (from glucose 6-phosphate) GLYCOLYSIS 2.7.2.3
superpathway of glycolysis and the Entner-Doudoroff pathway GLYCOLYSIS-E-D 2.7.2.3
superpathway of glycolysis, pyruvate dehydrogenase, TCA, and glyoxylate bypass GLYCOLYSIS-TCA-GLYOX-BYPASS 2.7.2.3
superpathway of hexitol degradation (bacteria) HEXITOLDEGSUPER-PWY 2.7.2.3
heterolactic fermentation P122-PWY 2.7.2.3
Bifidobacterium shunt P124-PWY 2.7.2.3
formaldehyde assimilation III (dihydroxyacetone cycle) P185-PWY 2.7.2.3
superpathway of N-acetylneuraminate degradation P441-PWY 2.7.2.3
hexitol fermentation to lactate, formate, ethanol and acetate P461-PWY 2.7.2.3
oxygenic photosynthesis PHOTOALL-PWY 2.7.2.3
glycolysis IV (plant cytosol) PWY-1042 2.7.2.3
superpathway of cytosolic glycolysis (plants), pyruvate dehydrogenase and TCA cycle PWY-5464 2.7.2.3
glycolysis II (from fructose 6-phosphate) PWY-5484 2.7.2.3
gluconeogenesis III PWY66-399 2.7.2.3
glycolysis VI (metazoan) PWY66-400 2.7.2.3
1-butanol autotrophic biosynthesis (engineered) PWY-6886 2.7.2.3
superpathway of glucose and xylose degradation PWY-6901 2.7.2.3
glycerol degradation to butanol PWY-7003 2.7.2.3
ethylene biosynthesis V (engineered) PWY-7124 2.7.2.3
photosynthetic 3-hydroxybutanoate biosynthesis (engineered) PWY-7218 2.7.2.3
superpathway of anaerobic sucrose degradation PWY-7345 2.7.2.3
sucrose biosynthesis I (from photosynthesis) SUCSYN-PWY 2.7.2.3

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
MNFQRMTDLN LAGKRVLIRE DLNVPVKNGV ITSDARLRAA LPTIKAALEK GAAVMVFSHL GRPVEGEPKP EQSLAPVAAY LTEALGQEVK LFTDYLDGVE VEAGQVVLLE NVRFNPGEKK NNPELAQKYA ALCDVFVMDA FGTAHRAEAS TEGVARFAPV AAAGPLLAAE LDALGRAMQT PEKPMVAIVA GSKVSTKLDV LNSLSGICDQ LIVGGGIANT FLAAAGYNVG KSLYEADLVE TAKQIAAKVS VPLPTDVVVA DASQINFEDF LGSLAAAQAV IKKVEDVTAN DMILDVGPET AKAFANILTT SKTILWNGPV GVFEVDQFGE GTKALSLAVA QSDAFSIAGG GDTLAAIDKY NVADQIGYIS TGGGAFLEFV EGKTLPAVAV LLERA

NT Sequence
ATGAATTTTC AGCGCATGAC TGACCTTAAT TTAGCAGGTA AACGTGTCCT TATTCGTGAA GATTTAAACG TTCCTGTTAA AAATGGTGTG ATTACCAGCG ATGCTCGTTT ACGTGCCGCA CTTCCAACAA TAAAAGCTGC TTTAGAAAAA GGCGCTGCTG TAATGGTATT TTCACATTTA GGTCGTCCTG TGGAAGGTGA GCCAAAGCCT GAACAATCAC TTGCACCAGT GGCTGCATAT TTAACTGAAG CATTAGGTCA AGAAGTTAAA TTATTTACTG ATTATTTAGA TGGTGTTGAA GTTGAAGCAG GACAAGTTGT TTTGCTTGAA AATGTTCGTT TTAATCCGGG TGAAAAGAAA AATAATCCTG AACTTGCACA AAAATATGCA GCTCTATGTG ATGTGTTTGT AATGGATGCT TTTGGTACTG CTCACCGTGC AGAAGCTTCT ACAGAAGGTG TAGCACGTTT TGCACCTGTT GCAGCGGCAG GCCCATTATT GGCTGCTGAA TTAGATGCAC TTGGCCGTGC AATGCAAACA CCTGAAAAAC CAATGGTGGC AATTGTCGCT GGTTCTAAAG TTTCAACAAA ACTTGATGTA TTAAATTCAT TATCTGGTAT TTGTGACCAA CTGATTGTGG GAGGTGGTAT TGCAAATACT TTCTTGGCGG CTGCTGGTTA CAATGTTGGT AAATCTTTAT ATGAAGCTGA CTTGGTTGAA ACTGCAAAAC AAATTGCTGC TAAAGTAAGT GTTCCACTTC CTACAGACGT AGTTGTAGCT GATGCCTCAC AAATTAACTT CGAAGATTTC TTAGGTTCTT TGGCAGCAGC GCAAGCAGTA ATTAAGAAAG TTGAAGATGT CACAGCAAAT GATATGATTT TGGATGTGGG TCCTGAAACA GCTAAAGCAT TTGCAAATAT TTTAACAACT TCAAAAACGA TTCTTTGGAA TGGTCCTGTT GGTGTATTTG AAGTTGATCA ATTTGGTGAA GGTACTAAAG CACTTTCTCT TGCAGTTGCA CAATCTGATG CATTCTCAAT TGCTGGTGGT GGTGATACTT TAGCTGCGAT CGATAAATAT AATGTAGCTG ATCAAATTGG TTATATTTCA ACAGGTGGTG GTGCATTCCT TGAATTTGTT GAAGGAAAAA CATTGCCAGC AGTTGCCGTT TTACTTGAAC GTGCTTAA

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