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PDBsum entry 4z0m
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References listed in PDB file
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Key reference
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Title
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Unsaturated lipid assimilation by mycobacteria requires auxiliary cis-Trans enoyl CoA isomerase.
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Authors
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S.Srivastava,
S.Chaudhary,
L.Thukral,
C.Shi,
R.D.Gupta,
R.Gupta,
K.Priyadarshan,
A.Vats,
A.S.Haque,
R.Sankaranarayanan,
V.T.Natarajan,
R.Sharma,
C.C.Aldrich,
R.S.Gokhale.
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Ref.
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Chem Biol, 2015,
22,
1577-1587.
[DOI no: ]
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PubMed id
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Abstract
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Mycobacterium tuberculosis (Mtb) can survive in hypoxic necrotic tissue by
assimilating energy from host-derived fatty acids. While the expanded repertoire
of β-oxidation auxiliary enzymes is considered crucial for Mtb adaptability,
delineating their functional relevance has been challenging. Here, we show that
the Mtb fatty acid degradation (FadAB) complex cannot selectively break down cis
fatty acyl substrates. We demonstrate that the stereoselective binding of fatty
acyl substrates in the Mtb FadB pocket is due to the steric hindrance from
Phe287 residue. By developing a functional screen, we classify the family of Mtb
Ech proteins as monofunctional or bifunctional enzymes, three of which
complement the FadAB complex to degrade cis fatty acids. Crystal structure
determination of two cis-trans enoyl coenzyme A (CoA) isomerases reveals
distinct placement of active-site residue in Ech enzymes. Our studies thus
reveal versatility of Mtb lipid-remodeling enzymes and identify an essential
role of stand-alone cis-trans enoyl CoA isomerases in mycobacterial biology.
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