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246 related items for PubMed ID: 28651048

  • 1. Nutritional and Metabolic Characteristics of Brassica carinata Co-products from Biofuel Processing in Dairy Cows.
    Ban Y, Khan NA, Yu P.
    J Agric Food Chem; 2017 Jul 26; 65(29):5994-6001. PubMed ID: 28651048
    [Abstract] [Full Text] [Related]

  • 2. Metabolic characteristics of the proteins in yellow-seeded and brown-seeded canola meal and presscake in dairy cattle: comparison of three systems (PDI, DVE, and NRC) in nutrient supply and feed milk value (FMV).
    Theodoridou K, Yu P.
    J Agric Food Chem; 2013 Mar 20; 61(11):2820-30. PubMed ID: 23410190
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  • 5. Evaluation of Camelina sativa (L.) Crantz meal as an alternative protein source in ruminant rations.
    Colombini S, Broderick GA, Galasso I, Martinelli T, Rapetti L, Russo R, Reggiani R.
    J Sci Food Agric; 2014 Mar 15; 94(4):736-43. PubMed ID: 24105894
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  • 7. Application potential of ATR-FT/IR molecular spectroscopy in animal nutrition: revelation of protein molecular structures of canola meal and presscake, as affected by heat-processing methods, in relationship with their protein digestive behavior and utilization for dairy cattle.
    Theodoridou K, Yu P.
    J Agric Food Chem; 2013 Jun 12; 61(23):5449-58. PubMed ID: 23683050
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  • 8. Protein fractionation byproduct from canola meal for dairy cattle.
    Heendeniya RG, Christensen DA, Maenz DD, McKinnon JJ, Yu P.
    J Dairy Sci; 2012 Aug 12; 95(8):4488-500. PubMed ID: 22818463
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  • 9. Molecular spectroscopic features of protein in newly developed chickpea: Relationship with protein chemical profile and metabolism in the rumen and intestine of dairy cows.
    Sun B, Khan NA, Yu P.
    Spectrochim Acta A Mol Biomol Spectrosc; 2018 May 05; 196():168-177. PubMed ID: 29448169
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  • 10. Effect of processing conditions on the nutritive value of canola meal and presscake. Comparison of the yellow and brown-seeded canola meal with the brown-seeded canola presscake.
    Theodoridou K, Yu P.
    J Sci Food Agric; 2013 Jun 05; 93(8):1986-95. PubMed ID: 23255288
    [Abstract] [Full Text] [Related]

  • 11. Studies on Brassica carinata seed. 1. Protein molecular structure in relation to protein nutritive values and metabolic characteristics.
    Xin H, Falk KC, Yu P.
    J Agric Food Chem; 2013 Oct 23; 61(42):10118-26. PubMed ID: 24059852
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  • 12. Characterization of dietary protein in Brassica carinata meal when used as a protein supplement for beef cattle consuming a forage-based diet.
    Schulmeister TM, Ruiz-Moreno M, Silva GM, Garcia-Ascolani M, Ciriaco FM, Henry DD, Lamb GC, Dubeux JCB, DiLorenzo N.
    J Anim Sci; 2021 Jan 01; 99(1):. PubMed ID: 33247911
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  • 13. Use of a dry fractionation process to manipulate the chemical profile and nutrient supply of a coproduct from bioethanol processing.
    Zhang X, Beltranena E, Christensen C, Yu P.
    J Agric Food Chem; 2012 Jul 11; 60(27):6846-54. PubMed ID: 22703236
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  • 14. Non-destructive analysis of the conformational differences among feedstock sources and their corresponding co-products from bioethanol production with molecular spectroscopy.
    Gamage IH, Jonker A, Zhang X, Yu P.
    Spectrochim Acta A Mol Biomol Spectrosc; 2014 Jan 24; 118():407-21. PubMed ID: 24076457
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  • 15. Studies on Brassica carinata seed. 2. Carbohydrate molecular structure in relation to carbohydrate chemical profile, energy values, and biodegradation characteristics.
    Xin H, Falk KC, Yu P.
    J Agric Food Chem; 2013 Oct 23; 61(42):10127-34. PubMed ID: 24059242
    [Abstract] [Full Text] [Related]

  • 16. Effect of replacing solvent-extracted canola meal with high-oil traditional canola, high-oleic acid canola, or high-erucic acid rapeseed meals on rumen fermentation, digestibility, milk production, and milk fatty acid composition in lactating dairy cows.
    Hristov AN, Domitrovich C, Wachter A, Cassidy T, Lee C, Shingfield KJ, Kairenius P, Davis J, Brown J.
    J Dairy Sci; 2011 Aug 23; 94(8):4057-74. PubMed ID: 21787941
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  • 17. Investigating Molecular Structures of Bio-Fuel and Bio-Oil Seeds as Predictors To Estimate Protein Bioavailability for Ruminants by Advanced Nondestructive Vibrational Molecular Spectroscopy.
    Ban Y, L Prates L, Yu P.
    J Agric Food Chem; 2017 Oct 18; 65(41):9147-9157. PubMed ID: 28933547
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  • 18. Application of FT/IR-ATR vibrational spectroscopy to reveal protein molecular structure of feedstock and co-products from Canadian and Chinese canola processing in relation to microorganism bio-degradation and enzyme bio-digestion.
    Gomaa WMS, Peng Q, Prates LL, Mosaad GM, Aamer H, Yu P.
    Spectrochim Acta A Mol Biomol Spectrosc; 2018 Nov 05; 204():791-797. PubMed ID: 30096732
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  • 19. Molecular basis of protein structure in combined feeds (hulless barley with bioethanol coproduct of wheat dried distillers grains with solubles) in relation to protein rumen degradation kinetics and intestinal availability in dairy cattle.
    Zhang X, Yu P.
    J Dairy Sci; 2012 Jun 05; 95(6):3363-79. PubMed ID: 22612970
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  • 20. Ruminal degradability of dry matter, crude protein, and amino acids in soybean meal, canola meal, corn, and wheat dried distillers grains.
    Maxin G, Ouellet DR, Lapierre H.
    J Dairy Sci; 2013 Aug 05; 96(8):5151-60. PubMed ID: 23769369
    [Abstract] [Full Text] [Related]

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