Research Progress of Fatty Acid in Silage

doi:10.11733/j.issn.1007-0435.2012.06.002

Acta Agrestia Sinica ›› 2012, Vol. 20 ›› Issue (6): 990-994.DOI: 10.11733/j.issn.1007-0435.2012.06.002

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Research Progress of Fatty Acid in Silage

HAN Li-ying, ZHOU He, YU Zhu

Institute of Grassland Science, China Agricultural University, Beijing 100193, China

Received:2012-06-21 Revised:2012-07-25 Online:2012-12-15 Published:2012-12-28

青贮饲料中脂肪酸研究进展

韩立英, 周禾, 玉柱

中国农业大学草地研究所, 北京 100193

通讯作者: 周禾
作者简介:韩立英(1984-),女,天津人,博士研究生,研究方向为饲草加工贮藏与应用,E-mail: hanliying@grass-env.com;
基金资助:
"十二五"国家科技支撑计划"优质牧草资源开发与多元化草产品加工利用关键技术研究与集成示范"(2011BAD17B02)资助

Abstract

Abstract: Silage plays an important role in dairy healthy and milk fatty acid as a main source of dairy feed. This significantly provides many kinds of polyunsaturated fatty acids (PUFA) such as linoleic acid and linolenic acid, necessary for dairy growth and milk fat composition, as well as human health. This paper introduces the process of fatty acid biosynthesis and degradation, then summarizes research advances of fatty acid in silage.

Key words: Silage, Fatty acid, Research advance

摘要： 青贮饲料作为奶牛的主要饲料来源,对奶牛健康及牛奶中脂肪酸的含量和组成具有直接影响,能够为奶牛提供其自身代谢无法合成的多种不饱和脂肪酸(如亚油酸、亚麻酸),改善奶牛生长状况和乳脂组成,进而促进人类膳食营养的合理摄取,改善人类健康。因此,开展青贮饲料中脂肪酸的研究工作具有重要意义。本文从生理生化角度介绍了脂肪酸的生物合成、降解途径,综合论述了国内外对青贮饲料中脂肪酸的研究进展,并对今后青贮饲料中脂肪酸的研究方向进行了展望。

关键词: 青贮饲料, 脂肪酸, 研究进展

CLC Number:

S816.53
Q547

HAN Li-ying, ZHOU He, YU Zhu. Research Progress of Fatty Acid in Silage[J]. Acta Agrestia Sinica, 2012, 20(6): 990-994.

韩立英, 周禾, 玉柱. 青贮饲料中脂肪酸研究进展[J]. 草地学报, 2012, 20(6): 990-994.

References

[1] 卢善发. 植物脂肪酸的合成与基因工程[J].植物学通报,2000,17(6):481-491
[2] Dewhurst R J, Shingfield K J, Lee M R F, et al. Increasing the concentrations of beneficial polyunsaturated fatty acid in milk produced by dairy cows in high-forage systems [J]. Animal Feed Science Technology,2006,131(3):168-206
[3] Van Ranst G. Effect of ensiling on fatty acid composition and lipid metabolism in forages and the possible role of polyphenol oxidase. Belgium: Ghent University, 2009
[4] Heck J M, van Valenbery H J F, Dijkstra J, et al. Seasonal variation in the Dutch bovine raw milk composition [J]. Journal of Dairy Science,2009,92(10):4745-4755
[5] Liew C, Schut H A J, Chin S F, et al. Protection of conjugated linoleic acids against 2-amino-3-methylimidazo [4,5-f] quinoline-induced colon carcinogenesis in the F344 rat: a study of inhibitory mechanisms [J]. Carcinogenesis,1995,16(12): 3037-3043
[6] Ip C, Jiang C, Thompson H J, et al. Retention of conjugated linoleic acid in the mammary gland is associated with tumor inhibition during the post-initiation phase of carcinogenesis [J]. Carcinogenesis,1997,18(4):755-759
[7] DeVoney D, Pariza M W, Cook M E. Trans-10, cis-12 octadecadienoic acid increases lymphocyte proliferation [J]. FASEB,1999,13(suppl):4565
[8] Yamasaki M, Kishihara K, Mansho K, et al. Dietaty conjugated linoleic acid increases immunoglobulin productivity of sprague-Dawley rat spleen lymphocyted [J]. Bioscience Biotechnology Biochemistry,2000,64(10):2159-2164
[9] 李昌珠,李正茂.植物脂肪酸的生物合成及其生理功能的研究进展[J]. 湖南林业科技,2009,36(6):45-49
[10] Weselake R J, Pomeroy M K, Furukawa T L. Developmental profile of dicacylglcerol acyltransferase in maturing seed of oilseed rape and safflower and microspore-derived cultures of oilseed rape [J]. Plant Physiology,1993,102(2):565-571
[11] Numa S. Fatty acid metabolism and its regulation [M]. Amsterdam: Elsevier, 1984:155-179
[12] Hayashi H, De Bellis L, Ciruli A, et al. A novel acyl-CoA oxidases that can oxidize short-chain acyl-CoA in plant peroxisomes [J]. Journal of Biological Chemistry,1999,274(18):12715-12721
[13] Scott R A, Comelius S G, Meersmann H J. Effect of age on lipogenesis and lipolysis in lean and obese swine [J]. Journal of Animal Science,1981,52(3):505-511
[14] Palmquist D L. Influence of source and amount of dietary fat on digestibility in lactating eows [J]. Journal of Dairy Science,1991,74(4):1354-1360
[15] 蒋云生,于海,汪志君,等. 多菌发酵对如式香肠营养与风味的影响[J].食品科学,2009,30(23):301-305
[16] 张彦萍,贾瑞玲,侯岁稳,等.高等植物合成长链不饱和脂肪酸基因工程研究进展[J].中国油料作物学报,2009,31(1):97-102
[17] 刘波,孙艳,刘永红,等.产油微生物油脂生物合成与代谢调控研究进展[J].微生物学报,2005,45(1):153-155
[18] Garton G A. Fatty acid composition of the lipids of pasture grasses [J]. Nature,1960,187(4736):511-512
[19] Chilliard Y, Ferlay A, Doreau M. Effect of different types of forages, animal fat or marine oils in cows diet on milk fat secretion and composition, especially conjugated linoleic acid (CLA) and polyunsaturated fatty acid [J]. Livestock Production Science,2001,70(1):31-48
[20] Lough A K, Anderson L J. Effect of ensilage on the lipids of pasture grasses [J]. Proceedings of the Nutrition Society,1973,32(2):61-62
[21] Whiting C M, Mutsvangwa T, Walton J P, et al. Effects of feeding either fresh alfalfa or alfalfa silage on milk fatty acid content in Holstein dairy cows [J]. Animal Feed Science and Technology,2004,113(1/4):27-37
[22] Boufaied H, Chouinard P Y, Tremblay G F, et al. Fatty acids in forges.Ⅰ.Factors affecting concentrations [J]. Canadian Journal of Animal Science,2003,83(3):501-511
[23] Hawke J C. Chemistry and biochemistry of herbage [M]. New York: Academic press,1973:213-263
[24] Lee S W, Chouinard Y, Van B N. Effect of some factors on the concentration of linolenic acid of forages [J]. Asian-Australian Journal of Animal Sciene,2006,19(8):1148-1158
[25] Dewhurst R J, King P J. Effect of extended wilting, shading and chemical additives on the fatty acid in laboratory grass silages [J]. Grass and Forage Science,1998,53(3):219-224
[26] Loor J J, Herbein J H, Polan C E. Trans 18:1 and 18:2 isomers in blood Plasma and milk fat of grazing eows fed a grain supplement containing solvent extracted or mechanically extracted soybean meal [J]. Journal of Dairy Science,2002,85(5):1197-1207
[27] Bauman D E, Perfield J W, Veth M J, et al. New perspectives on lipid digestion and metabolism in ruminants // Proceedings of the Cornell Nutrition Conference. Ithaca: Cornell University, 2003:175-189
[28] Doreau M, Chilliard Y. Digestion and metabolism of dietary fat in farm animals [J]. British Journal of Nutrition,1997,78 (Suppl):15-35
[29] Witkowska I M, Wever C, Gort G, et al. Effects of nitrogen rate and regrowth interval on perennial ryegrass fatty acid content during the growing season [J]. Agronomy Journal,2008,100(5):1371-1379
[30] Elgersma A, Maudet P, Witkowska I M,et al. Effects of nitrogen fertilisation and regrowth period on fatty acid concentrations in perennial ryegrass (Lolium perenne L.) [J]. Annals of Applied Biology,2005,147(2):145-152
[31] Falcone D, Ogas J, Somerville C. Regulation of membrane fatty acid composition by temperature in mutants of Arabidopsis with alterations in membrane lipid composition [J]. BMC Plant Biology,2004,4(1):17
[32] Barta A L. Higher fatty acid content of perennial grasses as affected by species and by nitrogen and potassium fertilization [J]. Crop Science,1975,15(2):169-171
[33] Mayland H F, Molloy L F, Collie T W. Higher fatty acid composition of immature forages as affected by N fertilization [J]. Agronomy Journal,1976,68(6):979-982
[34] Jarrige R, Grenet E, Demarquilly C, et al. Les constituants de l’appareil végétatif des plantes fourragères [M]. Paris: INRA, 1995:25-81
[35] Di Marco O N, Aello M S, Nomdedeu M, et al. Effect of maize crop matruity on silage chemical composition and digestibility (in vivo, in situ and in vitro) [J]. Animal Feed Science Technology,2002,99(1/4):37-43
[36] Tan S L, Morrison W R. Lipids in the germ, endosperm and peericarp of the developing maize kernek[J]. Journal of the American Oil Chemists Society,1979,56(8):759-764
[37] Khan N A, Cone J W, Pellikaan W F, et al. Changes in fatty acid content and composition in silage maize during grain filling [J]. Journal of the Science of Food and Agriculture,2011,91(6):1041-1049
[38] Dewhurst R J, Scollan N D, Lee M R F, et al. Forage breeding and management to increase the beneficial fatty acid content of ruminant products [J]. Proceedings of the Nutrition Society,2003,62(2):329-336
[39] Brouwer E. Sur les modifications de la composition des acides gras de I herbe pendant la maturation er la conservation [J]. Recueil des Travaux Chimiques des Pays-Bas,1944,63(2):35-38.
[40] Elgersma A, Ellen G, van der Horst H,et al. Comparison of the fatty acid composition of fresh and ensiled perennial ryegrass (Lolium perenne L.) affected by cultivar and regrowth interval [J]. Animal Feed Science and Technology,2003,108 (1/4):191-205
[41] Feussner I, Wasternack C. The lipoxygenase pathway [J]. Annual Review of Plant Biology,2002,53(1):275-297
[42] Ueda K, Chabrot J, Doreau M. Effect of silage and hay making on fatty acid content and composition of legumes [C]// Durand J L, ed. Proceedings of the 19th General Meeting of the European Grassland Federation. La Rochelle, France: European Grassland Federation, 2002:98-99
[43] Chow T T, Fievez V, Ensberg M, et al. Fatty acid content, composition and lipolysis during wilting and ensiling of perennial ryegrass (Lolium perenne L.): preliminary findings [C]//Proceedings of the 20th General Meeting of the European Grassland Federation. La Rochelle, France: European Grassland Federation, 2004:981-983
[44] Khan N A, Cone J W, Hendriks W H. Stability of fatty acid in grass and maize silage after exposure to air during the feed out period [J]. Animal Feed Science and Technolgoy,2009,154(3/4):183-192
[45] 甘凤琼,吴子恺.微胚乳玉米籽粒发育过程中乙酰辅酶A羧化酶活性变化规律的研究[J].玉米科学,2010,18(4):82-85
[46] Lourenco M, Van Ranst G, Fievez V. Differences in extent of lipolysis in red or white clover and ryegrass silages in relation to polyphenol oxidase activity [J]. Communications in Agricultural and Applied Biological Sciences,2005,70(2):169-172
[47] 杜波.青贮中产CLA乳酸菌的分离、鉴定及其对青贮发酵产CLA的影响[D].合肥:安徽农业大学,2007
[48] Warren H E, Tweed J K S, Youell S J, et al. Effect of ensiling on the fatty acid composition of the resultant silage [C]//Durand J L, ed. Proceedings of the 19th General Meeting of the European Grassland Federation. La Rochelle, France: European Grassland Federation, 2002:100-101
[49] Arvidsson K, Gustavsson A M, Martinsson K. Effects of conservation method on fatty acid composition of silages [J]. Animal Feed Science and Technology,2009,148(2):241-252

Research Progress of Fatty Acid in Silage

青贮饲料中脂肪酸研究进展

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