Structural basis for the ligand-binding specificity of fatty acid-binding proteins (pFABP4 and pFABP5) in gentoo penguin
Cited 7 time in
Cited 7 time in
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Title
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Structural basis for the ligand-binding specificity of fatty acid-binding proteins (pFABP4 and pFABP5) in gentoo penguin
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Authors
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Lee, Chang Woo
Kim, Jung Eun
Do, Hackwon
Kim, Ryeo-Ok
Lee, Sung Gu
Park, Hyun Ho
Chang, Jeong Ho
Yim, Joung Han
Park, Hyun
Kim, Il-Chan
Lee, Jun Hyuck
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Subject
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Biochemistry & Molecular Biology; Biophysics
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Keywords
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Fatty acid-binding protein; β-barrel protein; Crystal structure; Gentoo penguin (Pygoscelis papua); X-ray crystallography
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Issue Date
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2015
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Citation
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Lee, Chang Woo, et al. 2015. "Structural basis for the ligand-binding specificity of fatty acid-binding proteins (pFABP4 and pFABP5) in gentoo penguin". Biochemical and Biophysical Research Communications, 465: 12-18.
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Abstract
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Fatty acid-binding proteins (FABPs) are involved in transporting hydrophobic fatty acids between various
aqueous compartments of the cell by directly binding ligands inside their b-barrel cavities. Here, we
report the crystal structures of ligand-unbound pFABP4, linoleate-bound pFABP4, and palmitate-bound
pFABP5, obtained from gentoo penguin (Pygoscelis papua), at a resolution of 2.1Å,2.2Å, and 2.3Å,
respectively. The pFABP4 and pFABP5 proteins have a canonical b-barrel structure with two short ahelices
that form a cap region and fatty acid ligand binding sites in the hydrophobic cavity within the bbarrel
structure. Linoleate-bound pFABP4 and palmitate-bound pFABP5 possess different ligand-binding
modes and a unique ligand-binding pocket due to several sequence dissimilarities (A76/L78, T30/M32,
underlining indicates pFABP4 residues) between the two proteins. Structural comparison revealed
significantly different conformational changes in the b3eb4 loop region (residues 57-62) as well as the
flipped Phe60 residue of pFABP5 than that in pFABP4 (the corresponding residue is Phe58). A ligandbinding
study using fluorophore displacement assays shows that pFABP4 has a relatively strong affinity
for linoleate as compared to pFABP5. In contrast, pFABP5 exhibits higher affinity for palmitate than
that for pFABP4. In conclusion, our high-resolution structures and ligand-binding studies provide useful
insights into the ligand-binding preferences of pFABPs based on key proteineligand interactions.
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DOI
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http://dx.doi.org/10.1016/j.bbrc.2015.07.087
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Type
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Article
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