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LYPLAL1

From Wikipedia, the free encyclopedia
Crystal structure of human LYPLAL1, PDB code 3u0v. Alpha helices are in red, beta strands in gold, catalytic site residues in black.
Identifiers
SymbolLysophospholipase-like protein 1
PfamPF02230
InterProIPR029058
CATH3u0v
SCOP23u0v / SCOPe / SUPFAM
Available protein structures:
Pfam  structures / ECOD  
PDBRCSB PDB; PDBe; PDBj
PDBsumstructure summary

Lysophospholipase-like 1 is a protein in humans that is encoded by the LYPLAL1 gene. [1] The protein is a α/β-hydrolase of uncharacterized metabolic function. Genome-wide association studies in humans have linked the gene to fat distribution[2] and waist-to-hip ratio.[3] The protein's enzymatic function is unclear. LYPLAL1 was reported to act as a triglyceride lipase in adipose tissue[4] and another study suggested that the protein may play a role in the depalmitoylation of calcium-activated potassium channels.[5] However, LYPLAL1 does not depalmitoylate the oncogene Ras[6] and a structural and enzymatic study concluded that LYPLAL1 is generally unable to act as a lipase and is instead an esterase that prefers short-chain substrates, such as acetyl groups.[7] Structural comparisons have suggested that LYPLAL1 might be a protein deacetylase, but this has not been experimentally tested.[8]

Relationship to acyl-protein thioesterases

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Sequence conservation and structural homology suggest a close relationship of LYPLAL1 proteins to acyl-protein thioesterases, and, therefore, it has been suggested that LYPLAL1 might be the third human acyl-protein thioesterase.[9] However, the major structural difference between both protein families has been established in the hydrophobic substrate binding tunnel, which has been identified in human acyl-protein thioesterases 1[10] and 2,[11] as well as in Zea mays acyl-protein thioesterase 2.[12] In LYPLAL1, this tunnel is closed due to a different loop conformation, changing the enzyme's substrate specificity to short acyl chains.[7]

Protein surface of human LYPLAL1 (PDB code 3u0v), showing electrostatic charges (red = negative, blue = positive, white = hydrophobic. On the right, the tunnel-closing loop is shown.

References

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  1. ^ "Entrez Gene: Lysophospholipase-like 1". Retrieved 2013-02-27.
  2. ^ Benjamin AM, Suchindran S, Pearce K, Rowell J, Lien LF, Guyton JR, McCarthy JJ (2011). "Gene by sex interaction for measures of obesity in the framingham heart study". Journal of Obesity. 2011: 329038. doi:10.1155/2011/329038. PMC 3021872. PMID 21253498.
  3. ^ Heid IM, Jackson AU, Randall JC, Winkler TW, Qi L, Steinthorsdottir V, et al. (November 2010). "Meta-analysis identifies 13 new loci associated with waist-hip ratio and reveals sexual dimorphism in the genetic basis of fat distribution". Nature Genetics. 42 (11): 949–60. doi:10.1038/ng.685. PMC 3000924. PMID 20935629.
  4. ^ Steinberg GR, Kemp BE, Watt MJ (October 2007). "Adipocyte triglyceride lipase expression in human obesity". American Journal of Physiology. Endocrinology and Metabolism. 293 (4): E958-64. doi:10.1152/ajpendo.00235.2007. PMID 17609260.
  5. ^ Tian L, McClafferty H, Knaus HG, Ruth P, Shipston MJ (April 2012). "Distinct acyl protein transferases and thioesterases control surface expression of calcium-activated potassium channels". The Journal of Biological Chemistry. 287 (18): 14718–25. doi:10.1074/jbc.M111.335547. PMC 3340283. PMID 22399288.
  6. ^ Görmer K, Bürger M, Kruijtzer JA, Vetter I, Vartak N, Brunsveld L, Bastiaens PI, Liskamp RM, Triola G, Waldmann H (May 2012). "Chemical-biological exploration of the limits of the Ras de- and repalmitoylating machinery". ChemBioChem. 13 (7): 1017–23. doi:10.1002/cbic.201200078. PMID 22488913. S2CID 37748152.
  7. ^ a b Bürger M, Zimmermann TJ, Kondoh Y, Stege P, Watanabe N, Osada H, Waldmann H, Vetter IR (January 2012). "Crystal structure of the predicted phospholipase LYPLAL1 reveals unexpected functional plasticity despite close relationship to acyl protein thioesterases". Journal of Lipid Research. 53 (1): 43–50. doi:10.1194/jlr.M019851. PMC 3243480. PMID 22052940.
  8. ^ Bürger M, Chory J (2018). "Structural and chemical biology of deacetylases for carbohydrates, proteins, small molecules and histones". Communications Biology. 1: 217. doi:10.1038/s42003-018-0214-4. PMC 6281622. PMID 30534609.
  9. ^ Zeidman R, Jackson CS, Magee AI (January 2009). "Protein acyl thioesterases (Review)". Molecular Membrane Biology. 26 (1): 32–41. doi:10.1080/09687680802629329. hdl:10044/1/1452. PMID 19115143. S2CID 10591154.
  10. ^ Devedjiev Y, Dauter Z, Kuznetsov SR, Jones TL, Derewenda ZS (November 2000). "Crystal structure of the human acyl protein thioesterase I from a single X-ray data set to 1.5 A". Structure. 8 (11): 1137–46. doi:10.1016/s0969-2126(00)00529-3. PMID 11080636.
  11. ^ Won SJ, Davda D, Labby KJ, Hwang SY, Pricer R, Majmudar JD, Armacost KA, Rodriguez LA, Rodriguez CL, Chong FS, Torossian KA, Palakurthi J, Hur ES, Meagher JL, Brooks CL, Stuckey JA, Martin BR (December 2016). "Molecular Mechanism for Isoform-Selective Inhibition of Acyl Protein Thioesterases 1 and 2 (APT1 and APT2)". ACS Chemical Biology. 11 (12): 3374–3382. doi:10.1021/acschembio.6b00720. PMC 5359770. PMID 27748579.
  12. ^ Bürger M, Willige BC, Chory J (December 2017). "A hydrophobic anchor mechanism defines a deacetylase family that suppresses host response against YopJ effectors". Nature Communications. 8 (1): 2201. Bibcode:2017NatCo...8.2201B. doi:10.1038/s41467-017-02347-w. PMC 5736716. PMID 29259199.

Further reading

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