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Results: 1 to 20 of 124

Related Citations for PubMed (Select 21690237)

1.

Proteomics and pathway analyses of the milk fat globule in sheep naturally infected by Mycoplasma agalactiae provide indications of the in vivo response of the mammary epithelium to bacterial infection.

Addis MF, Pisanu S, Ghisaura S, Pagnozzi D, Marogna G, Tanca A, Biosa G, Cacciotto C, Alberti A, Pittau M, Roggio T, Uzzau S.

Infect Immun. 2011 Sep;79(9):3833-45. doi: 10.1128/IAI.00040-11. Epub 2011 Jun 20.

2.

The sheep milk fat globule membrane proteome.

Pisanu S, Ghisaura S, Pagnozzi D, Biosa G, Tanca A, Roggio T, Uzzau S, Addis MF.

J Proteomics. 2011 Mar 1;74(3):350-8. doi: 10.1016/j.jprot.2010.11.011. Epub 2010 Dec 13.

PMID:
21147282
3.

Ovine subclinical mastitis: proteomic analysis of whey and milk fat globules unveils putative diagnostic biomarkers in milk.

Chiaradia E, Valiani A, Tartaglia M, Scoppetta F, Renzone G, Arena S, Avellini L, Benda S, Gaiti A, Scaloni A.

J Proteomics. 2013 May 27;83:144-59. doi: 10.1016/j.jprot.2013.03.017. Epub 2013 Apr 2.

PMID:
23563085
4.

Solubilization methods and reference 2-DE map of cow milk fat globules.

Bianchi L, Puglia M, Landi C, Matteoni S, Perini D, Armini A, Verani M, Trombetta C, Soldani P, Roncada P, Greppi G, Pallini V, Bini L.

J Proteomics. 2009 Jul 21;72(5):853-64. doi: 10.1016/j.jprot.2008.11.020. Epub 2008 Dec 7.

PMID:
19111954
5.

Validation of RNA isolated from milk fat globules to profile mammary epithelial cell expression during lactation and transcriptional response to a bacterial infection.

Brenaut P, Bangera R, Bevilacqua C, Rebours E, Cebo C, Martin P.

J Dairy Sci. 2012 Oct;95(10):6130-44. doi: 10.3168/jds.2012-5604. Epub 2012 Aug 23.

PMID:
22921620
6.

Post-weaning increases in the milk-fat globule EGF-factor VIII on fat globules in mouse milk and in the uptake of the fat globules by HC11 mammary epithelial cells.

Nakatani H, Yasueda T, Oshima K, Okajima T, Nadano D, Flint DJ, Matsuda T.

J Biochem. 2013 Jan;153(1):31-41. doi: 10.1093/jb/mvs116. Epub 2012 Oct 3.

7.

Production and release of antimicrobial and immune defense proteins by mammary epithelial cells following Streptococcus uberis infection of sheep.

Addis MF, Pisanu S, Marogna G, Cubeddu T, Pagnozzi D, Cacciotto C, Campesi F, Schianchi G, Rocca S, Uzzau S.

Infect Immun. 2013 Sep;81(9):3182-97. doi: 10.1128/IAI.00291-13. Epub 2013 Jun 17.

8.

The proteomic advantage: label-free quantification of proteins expressed in bovine milk during experimentally induced coliform mastitis.

Boehmer JL, DeGrasse JA, McFarland MA, Tall EA, Shefcheck KJ, Ward JL, Bannerman DD.

Vet Immunol Immunopathol. 2010 Dec 15;138(4):252-66. doi: 10.1016/j.vetimm.2010.10.004. Epub 2010 Oct 14. Review.

PMID:
21067814
9.

Bovine milk fat globule membrane proteome.

Reinhardt TA, Lippolis JD.

J Dairy Res. 2006 Nov;73(4):406-16. Epub 2006 Jul 12.

PMID:
16834814
10.
11.

Characterisation of host defence proteins in milk using a proteomic approach.

Smolenski G, Haines S, Kwan FY, Bond J, Farr V, Davis SR, Stelwagen K, Wheeler TT.

J Proteome Res. 2007 Jan;6(1):207-15.

PMID:
17203965
12.

Goat α(s1)-casein genotype affects milk fat globule physicochemical properties and the composition of the milk fat globule membrane.

Cebo C, Lopez C, Henry C, Beauvallet C, Ménard O, Bevilacqua C, Bouvier F, Caillat H, Martin P.

J Dairy Sci. 2012 Nov;95(11):6215-29. doi: 10.3168/jds.2011-5233. Epub 2012 Aug 23.

PMID:
22921619
13.

Mycoplasma agalactiae p40 Gene, a novel marker for diagnosis of contagious agalactia in sheep by real-time PCR: assessment of analytical performance and in-house validation using naturally contaminated milk samples.

Oravcová K, López-Enríquez L, Rodríguez-Lázaro D, Hernández M.

J Clin Microbiol. 2009 Feb;47(2):445-50. doi: 10.1128/JCM.01442-08. Epub 2008 Nov 19.

14.

Proteomic characterization of human milk fat globule membrane proteins during a 12 month lactation period.

Liao Y, Alvarado R, Phinney B, Lönnerdal B.

J Proteome Res. 2011 Aug 5;10(8):3530-41. doi: 10.1021/pr200149t. Epub 2011 Jun 29.

PMID:
21714549
15.

Correlating the immune response with the clinical-pathological course of persistent mastitis experimentally induced by Mycoplasma agalactiae in dairy goats.

Castro-Alonso A, Rodríguez F, De la Fé C, Espinosa de Los Monteros A, Poveda JB, Andrada M, Herráez P.

Res Vet Sci. 2009 Apr;86(2):274-80. doi: 10.1016/j.rvsc.2008.06.004. Epub 2008 Aug 13.

PMID:
18703207
16.

Comparison of milk fat globule membrane (MFGM) proteins of Chianina and Holstein cattle breed milk samples through proteomics methods.

Murgiano L, Timperio AM, Zolla L, Bongiorni S, Valentini A, Pariset L.

Nutrients. 2009 Feb;1(2):302-15. doi: 10.3390/nu1020302. Epub 2009 Dec 22.

17.

The pathology of experimental Mycoplasma californicum mastitis in ewes.

Reilly GA, Kennedy S, McAliskey M, Ball HJ.

J Comp Pathol. 1993 Aug;109(2):155-61.

PMID:
8245231
18.

Bovine milk proteome: quantitative changes in normal milk exosomes, milk fat globule membranes and whey proteomes resulting from Staphylococcus aureus mastitis.

Reinhardt TA, Sacco RE, Nonnecke BJ, Lippolis JD.

J Proteomics. 2013 Apr 26;82:141-54. doi: 10.1016/j.jprot.2013.02.013. Epub 2013 Feb 28.

PMID:
23459212
19.

Experimental production of bovine and ovine mastitis with a Mycoplasma canadense isolate.

Ball HJ, Mackie DP.

Vet Rec. 1986 Jan 18;118(3):72-3. No abstract available.

PMID:
3952945
20.

Proteomic analysis of the temporal expression of bovine milk proteins during coliform mastitis and label-free relative quantification.

Boehmer JL, Ward JL, Peters RR, Shefcheck KJ, McFarland MA, Bannerman DD.

J Dairy Sci. 2010 Feb;93(2):593-603. doi: 10.3168/jds.2009-2526.

PMID:
20105531
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