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Results: 16

Cited In for PubMed (Select 20562440)

1.

Genetic variation in FADS1 has little effect on the association between dietary PUFA intake and cardiovascular disease.

Hellstrand S, Ericson U, Gullberg B, Hedblad B, Orho-Melander M, Sonestedt E.

J Nutr. 2014 Sep;144(9):1356-63. doi: 10.3945/jn.114.192708. Epub 2014 Jul 9.

2.

Diet-gene interactions and PUFA metabolism: a potential contributor to health disparities and human diseases.

Chilton FH, Murphy RC, Wilson BA, Sergeant S, Ainsworth H, Seeds MC, Mathias RA.

Nutrients. 2014 May 21;6(5):1993-2022. doi: 10.3390/nu6051993. Review.

3.
4.

FADS gene polymorphisms confer the risk of coronary artery disease in a Chinese Han population through the altered desaturase activities: based on high-resolution melting analysis.

Li SW, Lin K, Ma P, Zhang ZL, Zhou YD, Lu SY, Zhou X, Liu SM.

PLoS One. 2013;8(1):e55869. doi: 10.1371/journal.pone.0055869. Epub 2013 Jan 31.

5.

Markers of endogenous desaturase activity and risk of coronary heart disease in the CAREMA cohort study.

Lu Y, Vaarhorst A, Merry AH, Dollé ME, Hovenier R, Imholz S, Schouten LJ, Heijmans BT, Müller M, Slagboom PE, van den Brandt PA, Gorgels AP, Boer JM, Feskens EJ.

PLoS One. 2012;7(7):e41681. doi: 10.1371/journal.pone.0041681. Epub 2012 Jul 23.

6.

Omega-3 fatty acid supplementation and cardiovascular disease.

Jump DB, Depner CM, Tripathy S.

J Lipid Res. 2012 Dec;53(12):2525-45. doi: 10.1194/jlr.R027904. Epub 2012 Aug 17. Review.

7.

Age and haplotype variations within FADS1 interact and associate with alterations in fatty acid composition in human male cortical brain tissue.

Freemantle E, Lalovic A, Mechawar N, Turecki G.

PLoS One. 2012;7(8):e42696. doi: 10.1371/journal.pone.0042696. Epub 2012 Aug 10.

8.

Umbilical cord PUFA are determined by maternal and child fatty acid desaturase (FADS) genetic variants in the Avon Longitudinal Study of Parents and Children (ALSPAC).

Lattka E, Koletzko B, Zeilinger S, Hibbeln JR, Klopp N, Ring SM, Steer CD.

Br J Nutr. 2013 Apr 14;109(7):1196-210. doi: 10.1017/S0007114512003108. Epub 2012 Aug 9.

9.

Quantitative genomics of 30 complex phenotypes in Wagyu x Angus F₁ progeny.

Zhang L, Michal JJ, O'Fallon JV, Pan Z, Gaskins CT, Reeves JJ, Busboom JR, Zhou X, Ding B, Dodson MV, Jiang Z.

Int J Biol Sci. 2012;8(6):838-58. doi: 10.7150/ijbs.4403. Epub 2012 Jun 12.

10.

Variants in CPT1A, FADS1, and FADS2 are Associated with Higher Levels of Estimated Plasma and Erythrocyte Delta-5 Desaturases in Alaskan Eskimos.

Voruganti VS, Higgins PB, Ebbesson SO, Kennish J, Göring HH, Haack K, Laston S, Drigalenko E, Wenger CR, Harris WS, Fabsitz RR, Devereux RB, Maccluer JW, Curran JE, Carless MA, Johnson MP, Moses EK, Blangero J, Umans JG, Howard BV, Cole SA, Comuzzie AG.

Front Genet. 2012 Jun 11;3:86. doi: 10.3389/fgene.2012.00086. eCollection 2012.

11.

Characterization of an arachidonic acid-deficient (Fads1 knockout) mouse model.

Fan YY, Monk JM, Hou TY, Callway E, Vincent L, Weeks B, Yang P, Chapkin RS.

J Lipid Res. 2012 Jul;53(7):1287-95. doi: 10.1194/jlr.M024216. Epub 2012 Apr 25.

12.

Intake levels of dietary long-chain PUFAs modify the association between genetic variation in FADS and LDL-C.

Hellstrand S, Sonestedt E, Ericson U, Gullberg B, Wirfält E, Hedblad B, Orho-Melander M.

J Lipid Res. 2012 Jun;53(6):1183-9. doi: 10.1194/jlr.P023721. Epub 2012 Mar 26.

13.

Polyunsaturated fatty acid levels in blood during pregnancy, at birth and at 7 years: their associations with two common FADS2 polymorphisms.

Steer CD, Hibbeln JR, Golding J, Davey Smith G.

Hum Mol Genet. 2012 Apr 1;21(7):1504-12. doi: 10.1093/hmg/ddr588. Epub 2011 Dec 21.

14.

Polyunsaturated fatty acid metabolism in prostate cancer.

Berquin IM, Edwards IJ, Kridel SJ, Chen YQ.

Cancer Metastasis Rev. 2011 Dec;30(3-4):295-309. doi: 10.1007/s10555-011-9299-7. Review.

15.

Enzymes of the cyclooxygenase pathways of prostanoid biosynthesis.

Smith WL, Urade Y, Jakobsson PJ.

Chem Rev. 2011 Oct 12;111(10):5821-65. doi: 10.1021/cr2002992. Epub 2011 Sep 27. Review. No abstract available.

16.

Human cyclooxygenase-2 is a sequence homodimer that functions as a conformational heterodimer.

Dong L, Vecchio AJ, Sharma NP, Jurban BJ, Malkowski MG, Smith WL.

J Biol Chem. 2011 May 27;286(21):19035-46. doi: 10.1074/jbc.M111.231969. Epub 2011 Apr 5.

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