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Items: 1 to 20 of 102

1.

Thyroid hormone responsive protein Spot14 enhances catalysis of fatty acid synthase in lactating mammary epithelium.

Rudolph MC, Wellberg EA, Lewis AS, Terrell KL, Merz AL, Maluf NK, Serkova NJ, Anderson SM.

J Lipid Res. 2014 Jun;55(6):1052-65. doi: 10.1194/jlr.M044487. Epub 2014 Apr 25.

2.

Modulation of tumor fatty acids, through overexpression or loss of thyroid hormone responsive protein spot 14 is associated with altered growth and metastasis.

Wellberg EA, Rudolph MC, Lewis AS, Padilla-Just N, Jedlicka P, Anderson SM.

Breast Cancer Res. 2014 Dec 4;16(6):481. doi: 10.1186/s13058-014-0481-z.

3.

Fatty acid synthase is required for mammary gland development and milk production during lactation.

Suburu J, Shi L, Wu J, Wang S, Samuel M, Thomas MJ, Kock ND, Yang G, Kridel S, Chen YQ.

Am J Physiol Endocrinol Metab. 2014 May 15;306(10):E1132-43. doi: 10.1152/ajpendo.00514.2013. Epub 2014 Mar 25.

4.

Sterol regulatory element binding protein and dietary lipid regulation of fatty acid synthesis in the mammary epithelium.

Rudolph MC, Monks J, Burns V, Phistry M, Marians R, Foote MR, Bauman DE, Anderson SM, Neville MC.

Am J Physiol Endocrinol Metab. 2010 Dec;299(6):E918-27. doi: 10.1152/ajpendo.00376.2010. Epub 2010 Aug 24.

5.

Inhibition of FASN reduces the synthesis of medium-chain fatty acids in goat mammary gland.

Zhu JJ, Luo J, Wang W, Yu K, Wang HB, Shi HB, Sun YT, Lin XZ, Li J.

Animal. 2014 Sep;8(9):1469-78. doi: 10.1017/S1751731114001323. Epub 2014 Jun 9.

PMID:
24909980
6.

Dietary trans fatty acid isomers differ in their effects on mammary lipid metabolism as well as lipogenic gene expression in lactating mice.

Kadegowda AK, Connor EE, Teter BB, Sampugna J, Delmonte P, Piperova LS, Erdman RA.

J Nutr. 2010 May;140(5):919-24. doi: 10.3945/jn.109.110890. Epub 2010 Mar 10.

7.

Milk fat responses to butterfat infusion during conjugated linoleic acid-induced milk fat depression in lactating dairy cows.

Vyas D, Moallem U, Teter BB, Fardin-Kia AR, Erdman RA.

J Dairy Sci. 2013 Apr;96(4):2387-99. doi: 10.3168/jds.2012-5861. Epub 2013 Feb 15.

PMID:
23415539
8.

The Spot 14 protein is required for de novo lipid synthesis in the lactating mammary gland.

Zhu Q, Anderson GW, Mucha GT, Parks EJ, Metkowski JK, Mariash CN.

Endocrinology. 2005 Aug;146(8):3343-50. Epub 2005 May 12.

PMID:
15890771
9.

Trans-10, cis-12 CLA dose-dependently inhibits milk fat synthesis without disruption of lactation in C57BL/6J mice.

Harvatine KJ, Robblee MM, Thorn SR, Boisclair YR, Bauman DE.

J Nutr. 2014 Dec;144(12):1928-34. doi: 10.3945/jn.114.198911. Epub 2014 Oct 15.

10.

Effects of polyunsaturated fatty acids from plant oils and algae on milk fat yield and composition are associated with mammary lipogenic and SREBF1 gene expression.

Angulo J, Mahecha L, Nuernberg K, Nuernberg G, Dannenberger D, Olivera M, Boutinaud M, Leroux C, Albrecht E, Bernard L.

Animal. 2012 Dec;6(12):1961-72. doi: 10.1017/S1751731112000845. Epub 2012 Apr 27.

PMID:
22717104
11.

Role of maternal tissue in the synthesis of polyunsaturated fatty acids in response to a lipid-deficient diet during pregnancy and lactation in rats.

González RS, Rodriguez-Cruz M, Maldonado J, Saavedra FJ.

Gene. 2014 Oct 1;549(1):7-23. doi: 10.1016/j.gene.2014.06.057. Epub 2014 Jul 19.

PMID:
25046614
12.

Impact of maternal dietary n-3 and n-6 fatty acids on milk medium-chain fatty acids and the implications for neonatal liver metabolism.

Novak EM, Innis SM.

Am J Physiol Endocrinol Metab. 2011 Nov;301(5):E807-17. doi: 10.1152/ajpendo.00225.2011. Epub 2011 Jul 26.

13.

Maternal obesity reduces milk lipid production in lactating mice by inhibiting acetyl-CoA carboxylase and impairing fatty acid synthesis.

Saben JL, Bales ES, Jackman MR, Orlicky D, MacLean PS, McManaman JL.

PLoS One. 2014 May 21;9(5):e98066. doi: 10.1371/journal.pone.0098066. eCollection 2014.

14.

Thyroid hormone responsive (THRSP) promotes the synthesis of medium-chain fatty acids in goat mammary epithelial cells.

Yao DW, Luo J, He QY, Wu M, Shi HB, Wang H, Wang M, Xu HF, Loor JJ.

J Dairy Sci. 2016 Apr;99(4):3124-33. doi: 10.3168/jds.2015-10632. Epub 2016 Feb 3.

PMID:
26851858
15.

Effects of different model diets on milk composition and expression of genes related to fatty acid synthesis in the mammary gland of lactating dairy goats.

Zhang H, Ao CJ, Khas-Erdene, Song LW, Zhang XF.

J Dairy Sci. 2015 Jul;98(7):4619-28. doi: 10.3168/jds.2013-7097. Epub 2015 May 14.

PMID:
25981073
16.

Conjugated linoleic acid-induced milk fat reduction associated with depressed expression of lipogenic genes in lactating Holstein mammary glands.

Han LQ, Pang K, Li HJ, Zhu SB, Wang LF, Wang YB, Yang GQ, Yang GY.

Genet Mol Res. 2012 Sep 17;11(4):4754-64. doi: 10.4238/2012.September.17.2.

17.

The g.763G>C SNP of the bovine FASN gene affects its promoter activity via Sp-mediated regulation: implications for the bovine lactating mammary gland.

Ordovás L, Roy R, Pampín S, Zaragoza P, Osta R, Rodríguez-Rey JC, Rodellar C.

Physiol Genomics. 2008 Jul 15;34(2):144-8. doi: 10.1152/physiolgenomics.00043.2008. Epub 2008 May 13. Erratum in: Physiol Genomics. 2009 Jan 8;36(2):127.

18.

Spot14/Mig12 heterocomplex sequesters polymerization and restrains catalytic function of human acetyl-CoA carboxylase 2.

Park S, Hwang IW, Makishima Y, Perales-Clemente E, Kato T, Niederländer NJ, Park EY, Terzic A.

J Mol Recognit. 2013 Dec;26(12):679-88. doi: 10.1002/jmr.2313.

19.

A commonly used rumen-protected conjugated linoleic acid supplement marginally affects fatty acid distribution of body tissues and gene expression of mammary gland in heifers during early lactation.

Kramer R, Wolf S, Petri T, von Soosten D, Dänicke S, Weber EM, Zimmer R, Rehage J, Jahreis G.

Lipids Health Dis. 2013 Jul 4;12:96. doi: 10.1186/1476-511X-12-96.

20.

Gene networks driving bovine milk fat synthesis during the lactation cycle.

Bionaz M, Loor JJ.

BMC Genomics. 2008 Jul 31;9:366. doi: 10.1186/1471-2164-9-366.

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