1990-1994，新疆農(nóng)業(yè)大學，畜牧學，農(nóng)學學士

1994-1997，新疆農(nóng)業(yè)大學，動物生理生化，理學碩士

1997-2000，中國農(nóng)業(yè)大學，動物營養(yǎng)與飼料科學，農(nóng)學博士

2000-2001，荷蘭瓦赫寧根大學，奶牛營養(yǎng)與飼料加工，博士后

2001-2003，中國農(nóng)業(yè)科學院畜牧研究所，畜牧學，博士后、助理研究員

2003-2008，中國農(nóng)業(yè)大學生物學院，生理學，副教授

2008-2011，新疆農(nóng)業(yè)大學動物科學學院，中組部、教育部第六批援疆干部

2008-至今，中國農(nóng)業(yè)大學動物科技學院，反芻動物營養(yǎng)，副教授、教授

中國奶業(yè)協(xié)會飼料飼養(yǎng)與環(huán)境工程專業(yè)委員會成員，北京市生理學會和中國生理學會會員；《畜牧獸醫(yī)學報》、《動物營養(yǎng)學報》、《草業(yè)學報》、《Journal of Dairy Science》、《Animal Feed Science and Technology》、《The Journal of Agricultural Science (Cambridge)》、《Livestock Science》、《Journal of the Science of Food and Agriculture》等國內(nèi)外學術(shù)期刊審稿人。

主講研究生課程《反芻動物營養(yǎng)學研究方法》；參加講授研究生《動物營養(yǎng)學Seminar》等課程。

[1] 國家自然科學基金面上項目，31572432，硝基化合物抑制瘤胃甲烷生成的輔酶學作用機理，201601-201912，在研、主持

[2] 國家重點基礎(chǔ)研究發(fā)展計劃（973計劃）項目任務，2011CB100800，消化道內(nèi)乳脂肪前體物的生成機制及其與瘤胃微生物區(qū)系之間的關(guān)系，201101-201512，結(jié)題、主持。

[3] 國家自然科學基金委面上項目，31072054，牦牛瘤胃真菌酶譜特征與飼料細胞壁降解作用，201101-201312，結(jié)題、主持。

[4] 農(nóng)業(yè)部公益性行業(yè)專項，200803033-B0504、秸稈發(fā)酵飼料生產(chǎn)關(guān)鍵技術(shù)研究、2008.5-2010.12，結(jié)題、主持。

[5] 國家“十一五”科技支撐計劃，2008BAK42B05-03，奶牛、水稻、蘋果產(chǎn)業(yè)GAP關(guān)鍵點分級及符合性驗證技術(shù)研究，2008.1-2010.12，結(jié)題、主持。

[6] 國家自然科學基金青年基金項目，30400315，瘤胃微生物酯酶酶學特性與作用機理研究，200501-200712，結(jié)題，主持。

[7] 北京市自然科學基金委，62032018、反芻家畜飼料蛋白質(zhì)及氨基酸小腸消化率參數(shù)評定，200301-200512，結(jié)題、主持。

[1] 《肉牛飼養(yǎng)標準》，中華人民共和國農(nóng)業(yè)行業(yè)標準（NY/T 815-2004），中國農(nóng)業(yè)出版社，主要起草人

[2] 《肉羊飼養(yǎng)標準》，中華人民共和國農(nóng)業(yè)行業(yè)標準（NY/T 816-2004），中國農(nóng)業(yè)出版社，主要起草人

[3] 《綿羊用精飼料》，中華人民共和國國家標準（GB/T 20807-2006），主要起草人

[4] 《奶牛階段飼養(yǎng)管理與疾病防治》，中國農(nóng)業(yè)大學出版社，主編

[5] 《反芻動物營養(yǎng)研究方法》，中國出版集團現(xiàn)代教育出版社，副主編

[6] 《反芻動物營養(yǎng)學》，科學出版社，參編

[7] 《現(xiàn)代奶牛養(yǎng)殖科學》，中國農(nóng)業(yè)出版社，參編

[8] 《奶牛良好農(nóng)業(yè)規(guī)范生產(chǎn)技術(shù)指南》，中國標準出版社，參編

[9] 《中國肉牛產(chǎn)業(yè)抗災減災與穩(wěn)產(chǎn)增產(chǎn)綜合技術(shù)措施》，化學工業(yè)出版社，參編

[10] 《飼料分析與檢驗》，中國計量出版社，參編

[11] 《飼料檢驗手冊》，中國計量出版署，參編

[12] 《科技特派員與制度創(chuàng)新》，中共中央黨校出版社，參編

[1] 楊紅建，龐德公，一種提高纖維降解率與正向調(diào)控瘤胃發(fā)酵丙酸生成的復合菌劑及其應用，20157，ZL201310653964.1

[2] 楊紅建，張丹鳳，姜雅慧，一種復合產(chǎn)甲烷速效抑制劑及其制備方法和用途，201112, ZL200910089581.X.

[3] 楊紅建，曹陽春，岳群，劉晶晶，商圣哲，一種抗細菌復合抗生素及其用途 201305, ZL200910086767.X.

[4] 楊紅建，謝春元，一種飼用復合阿魏酸酯酶添加劑及其使用方法，201207, ZL200810101057.5.

[5] 楊紅建，岳群，一種阿魏酸酯酶的提取方法，201007, ZL200810056477.6.

[6] 楊紅建，岳群，一種分離產(chǎn)阿魏酸酯酶微生物的方法，201207, ZL200710304761.6.

[7] 楊紅建，岳群，一種阿魏酸酯酶活性的檢測方法，20106, ZL200710304762.0.

[8] 楊紅建；宋正河；祝仕平；毛恩榮，一種發(fā)酵微量氣體產(chǎn)生量數(shù)據(jù)自動采集存儲裝置及方法，200712, ZL200610011301.X.

中文學術(shù)論文

[1] 郭閃閃,楊紅建,王娉,陳穎. 玉米赤霉烯酮和嘔吐毒素對奶牛健康和生鮮乳質(zhì)量的影響及預防措施.中國奶牛,2014,10,53-57.

[2] 龐德公, 楊紅建, 曹斌斌, 武甜甜. 高精料全混合日糧中產(chǎn)朊假絲酵母添加水平對體外瘤胃發(fā)酵特性和纖維降解的影響. 動物營養(yǎng)學報, 2014, 26(4): 918-924.

[3] 白薩茹拉, 楊紅建, 李勝利. 不同粗飼料組合全混合日糧對泌乳奶牛體外瘤胃揮發(fā)性脂肪酸生成動力學特性的影響. 動物營養(yǎng)學報, 2013, 25(12): 2920-2927.

[4] 張智慧,楊紅建,任清長,金鑫,李勝利. 不同粗飼料組合全混合日糧對泌乳奶牛瘤胃液微生物蛋白濃度24h變化和小腸微生物蛋白流量的影響. 動物營養(yǎng)學報, 2013，25( 9) :2005-2011.

[5] 沈莎莎,楊紅建,張智慧,文亞,任清長,張曉明. 瘤胃混合微生物對稻糠、玉米麩、麥麩飼料中植酸磷降解特性的比較研究.動物營養(yǎng)學報,2012,24(9) :1707-1712.

[6] 沈莎莎,楊紅建,任清長,白薩茹拉,張曉明. 體外產(chǎn)氣法評定植酸酶對稻糠、玉米麩和麥麩瘤胃發(fā)酵特性的影響. 動物營養(yǎng)學報,2012,24( 9) :1825-1831.

[7] 王小林,張丹鳳,卜登攀,周凌云,孫鵬,楊紅建. 熱應激對干奶期奶牛甲烷排放量的影響.中國畜牧獸醫(yī),2012,39(7):234-237.

[8] 王雯熙,楊紅建,薄玉琨,丁思,曹兵海. 不同品種桑葉營養(yǎng)成分分析與代謝能值評定研究. 中國畜牧雜志,2012.48(3):41-45.

[9] 沈莎莎,楊紅建,張曉明. 瘤胃微生物植酸酶的分類與酶學性質(zhì)研究進展. 畜牧獸醫(yī)學報,2011,42(12):1655-1660.

[10] 薄玉琨,楊紅建,王雯熙,劉華,王銳. 采用尼龍袋法和體外產(chǎn)氣法對白酒糟和醋糟營養(yǎng)價定和比較.草食家畜.2011,3:34-38.

[11] 沈博通,曹陽春,楊紅建. 分子生物學技術(shù)在瘤胃厭氧真菌分類多樣性與定量分析研究中的應用. 中國農(nóng)學通報,2011,27(23):1-5.

[12] 姜雅慧,沈維軍,卜登攀,楊紅建,申軍士. 持續(xù)動態(tài)瘤胃模擬系統(tǒng)研制現(xiàn)狀與應用展望.中國畜牧獸醫(yī),2011,38(2):212-216.

[13] 楊紅建,岳群,曹陽春. 荷斯坦閹牛瘤胃液中阿魏酸酯酶和乙酰酯酶的酶學特性研究. 中國農(nóng)業(yè)大學學報,2011,16(1):73-78.

[14] 丁思,楊紅建,薩仁娜,芮巧云,張宏福. 圈養(yǎng)條件下麻鴨日糧中添加菹草對產(chǎn)蛋率和蛋黃著色的影響. 草業(yè)學報,2010,19(6):87-92.

[15] 丁思,楊紅建,薩仁娜,唐湘方,芮巧云,張宏福. 不同采割時間下白洋淀菹草的營養(yǎng)成分變化分析.中國農(nóng)學通報,2010,26(20):11-14.

[16] 姜雅慧,楊紅建. 不同劑量黃曲霉毒素B_1對奶牛瘤胃混合微生物發(fā)酵的抑制作用. 中國農(nóng)學通報,2010,26(16):8-13.

[17] 龐德公,楊紅建. 產(chǎn)甲烷菌的分離純化培養(yǎng)及其培養(yǎng)基對于菌株的選擇作用. 中國畜牧獸醫(yī),2010,37(6):32-35.

[18] 曹陽春,楊紅建,沈博通. 高產(chǎn)纖維降解酶牦牛瘤胃厭氧真菌分離株的篩選與鑒定. 中國農(nóng)業(yè)大學學報,2010,15 (3):70-74.

[19] 孟祥坤,楊紅建,曹兵海,莊宏,張丹鳳. 添加三聚氰胺對高粗料日糧短期人工瘤胃發(fā)酵理化指標的影響.中國畜牧雜志,2010,46(9):52-55.

[20] 莊宏,楊紅建,曹兵海. 鹽酸克倫特羅在牛體不同組織中的代謝和殘留分析綜述.中國農(nóng)業(yè)大學學報,2010,15(2):35 -39.

[21] 商圣哲,楊紅建,岳群,趙洲. 不同抗生素組合對瘤胃厭氧真菌滾管培養(yǎng)過程中細菌生長的影響. 中國畜牧獸醫(yī),2010,37(2):150-153.

[22] 莊宏,楊紅建,曹兵海,孟祥坤,張丹鳳. 不同三聚氰胺添加量對高精混合飼料體外瘤胃發(fā)酵理化指標的影響.中國農(nóng)業(yè)大學學報,2010 ,15 (1):45 -49.

[23] 楊紅建,黎大洪,謝春元,岳群. 阿魏酸酯酶處理對羊草、玉米秸、稻秸及麥秸瘤胃體外發(fā)酵特性的影響. 動物營養(yǎng)學報,2010,22(1):207 -211.

[24] 劉晶晶,曹陽春,楊紅建. 阿魏酸酯酶表達體系與酶蛋白拓撲空間結(jié)構(gòu)分析.中國畜牧獸醫(yī),2009,36(12):26-30.

[25] 姜雅慧,楊紅建. 飼料中黃曲霉毒素污染現(xiàn)狀、影響因素及其對反芻動物瘤胃微生物發(fā)酵的影響. 中國畜牧獸醫(yī),2009,36(12):12-16.

[26] 岳群,楊紅建,謝春元,么學博,王加啟. 應用移動尼龍袋法和三步法評定反芻家畜常用飼料的蛋白質(zhì)小腸消化率.中國農(nóng)業(yè)大學學報,2007,12 (6):62-66.

[27] 謝春元,楊紅建,黎大洪,岳群. 外源酶制劑在反芻動物中應用的主要問題及作用機理探討. 中國飼料,2007,23:17-26.

[28] 謝春元,楊紅建,黎大洪. 細胞壁降解相關(guān)酶以及在反芻動物應用中活性測定標準化的建議. 家畜生態(tài)學報,2007,28(6):108-112.

[29] 葉建華,楊紅建.微生物阿魏酸酯酶及其應用. 中國奶牛,2007,10,28-31.

[30] 謝春元,楊紅建,么學博,岳群,王加啟. 瘤胃尼龍袋法和體外產(chǎn)氣法評定反芻動物飼料的營養(yǎng)價值的比較.中國畜牧雜志,2007,(43),17:39-42.

[31] 么學博,楊紅建,謝春元,岳群,王加啟. 反芻家畜常用飼料蛋白質(zhì)和氨基酸瘤胃降解特性和小腸消化率評定研究. 動物營養(yǎng)學報,2007,19(3):225-231.

[32] 謝春元,楊紅建,黎大洪,岳群,么學博. 體外發(fā)酵產(chǎn)氣技術(shù)在飼料營養(yǎng)價值評定中的應用. 中國飼料,2007,10:16-23.

[33] 沈英,宋正河,楊紅建,毛恩榮. 基于虛擬儀器技術(shù)的飼料體外發(fā)酵產(chǎn)氣自動記錄系統(tǒng)的研制. 農(nóng)業(yè)工程學報,2006,22(12):159-163.

SCI論文發(fā)表（*通訊作者）

[1] Cao BB, Wang R, Bo YK, Bai S, Yang HJ*, 2016. In situ rumen digestibility of ester-linked ferulic and p-coumaric acids in crop stover or straws in comparison with alfalfa and Chinese wild ryegrass hays. Anim. Feed Sci. Technol. 212: 27-34.

[2] Wei YQ, Long RJ, Yang H, Yang HJ*, Shen XH, Shi RF, Wang ZY, Du JG, Qi XJ, Ye QH, 2016. Fiber degradation potential of natural co-cultures of Neocallimastix frontalis and Methanobrevibacter ruminantium isolated from yaks (Bos grunniens) grazing on the Qinghai Tibetan Plateau, Anaerobe. DOI: 10.1016j. anaerobe. 2016.03.005

[3] Cui JH, Yang HJ*, Yu CQ, Bai S, Song SS, Wu TT, Sun W, Shao XM, Jiang LS, 2016Effect of urea fertilization on biomass yield, chemical composition, in vitro rumen digestibility and fermentation characteristics of forage oat straw in Tibet of China. J. Agric. Sci. (Cambridge). doi:10.1017S0021859616000198

[4] Zhang Q, Yu Z, H. Yang HJ, Na RS, 2016. The effects of stage of growth and additives with or without cellulase on fermentation and in vitro degradation characteristics of Leymus chinensis silage. Grass and Forage Science. DOI: 10.1111gfs.12210

[5] Wei YQ, Yang HJ*, Luan Y., Wu YJ, Long RJ, Wang ZY, 2016. Isolation, identification and fibrolytic characteristics of rumen fungi grown with indigenous methanogen from yaks (Bos grunniens) grazing on the Qinghai-Tibetan Plateau. J. Appl. Microbiol. 120(3):571-587.

[6] Min L, Zheng N, Zhao SG, Cheng JB, Yang YX, Zhang YD, Yang HJ, Wang JQ, 2016. Long-term heat stress induces the inflammatory response in dairy cows revealed by plasma proteome analysis. Biochem. Biophysic. Res. Communication. 471:296-302.

[7] Cao BB, Jin X, Yang HJ*, Li SL, Jiang LS, 2016. Microbial release of ferulic and p-coumaric acids from forages and their digestibilities in lactating cows fed total mixed rations with different forage combinations. J. Sci. Food Agric. 96(2): 650-655.

[8] Cui JH, Yang HJ*, Yu CQ, Bai S, Wu TT, Song SS, Sun W, Shao XM, Jiang LS, 2016. Effect of urea fertilisation on biomass yield, chemical composition, in vitro rumen digestibility and fermentation characteristics of straw of highland barley planted in Tibet of China. J. Agric. Sci. (Cambridge) 154(1): 151-164.

[9] Shi HT, Cao ZJ, Wang YJ, Li SL, Yang HJ, Bi YL, Doane PH, 2016. Effects of calcium oxide treatment at varying moisture concentrations on the chemical composition, in situ degradability, in vitro digestibility and gas production kinetics of anaerobically stored corn stover. J. Anim. Physiol. Anim. Nutr. DOI: 10.1111jpn.12381.

[10]Cao BB, Wang R, Yang HJ*, Jiang LS, 2015. In situ ruminal degradation of phenolic acid, cellulose and hemicellulose in crop brans and husks differing in ferulic and p-coumaric acid patterns. J. Agric. Sci. (Cambridge) 153(7): 1312-1320.

[11]Chang J, Zhang QG, Yang HJ*, Yin QQ, Wang P, Wang QW, 2015. Effect of biological corn stover replacing partial corn meal on production performance, nutrient metabolic rates and carcass characteristics of broilers. Indian J. Anim. Res. 49(4): 474-481.

[12]Min L, Cheng JB, Shi BL, Yang HJ, Zheng N, Wang JQ, 2015. Effects of heat stress on serum insulin, adipokines, AMP-activated protein kinase, and heat shock signal molecules in dairy cows. J. Zhejiang Univ-SCI B (Biomed & Biotechnol). 16(6): 541-548.

[13]Ren QC, Jin X, Zhang Z H, Yang HJ*, Li SL, 2015. Effects of dietary neutral detergent fibre to protein ratio on duodenal microbial nitrogen flow and nitrogen losses in lactating cows fed high-concentrate total mixed rations with different forage combinations. J. Agric. Sci. (Cambridge) 153: 753u2013764.

[14]Pang DG, Yang HJ*, 2014. Effect of a Combined Pretreatment with Cellulolytic and Lactic Acid Bacteria on in situ Rumen Degradability of Corn Stover in Charolais × Nanyang Crossbred Beef Cattle. Proc. Aust. Soc. Anim. Prod. Vol. 30, Page 313.

[15]Wang B, Mao SY, Yang HJ, Wu YM, Wang JK, Li SL, Shen ZM, Liu JX, 2014. Effects of alfalfa and cereal straw as a forage source on nutrient digestibility and lactation performance in lactating dairy cows. J. Dairy Sci. 97(12):7706-7715.

[16]Jiang YH, Wang P, Yang HJ*, Chen Y, 2014. The Efficacy of Bamboo Charcoal in Comparison with Smectite to Reduce the Detrimental Effect of Aflatoxin B1 on In Vitro Rumen Fermentation of a Hay-Rich Feed Mixture. Toxins 6(7):2008-2023.

[17]Ren QC, Yang HJ*, Li SL, Wang JQ, 2014. Diurnal variations of progesterone, testosterone, and androsta-1,4-diene-3,17-dionein the rumen and in vitro progesterone transformation by mixed rumen microorganisms of lactating dairy cows. J. Dairy Sci. 97(5): 3061-3072.

[18]Lund P, Dahl R, Yang HJ, Hellwing ALF, Cao BB, Weisbjerg MR, 2014. The acute effect of addition of nitrate on in vitro and in vivo methane emission in dairy cows. Anim. Prod. Sci. 54:1432-1435.

[19]Pang DG, Yang HJ*, Cao BB, Wu TT, Wang JQ, 2014. The beneficial effect of Enterococcus faecium on the in vitro ruminal fermentation rate and extent of three typical total mixed rations in northern China. Livestock Sci. 167:154-161.

[20]Yang HJ*, Zhuang H, Meng XK, Zhang DF, Cao BH, 2014. Effect of melamine on in vitro rumen microbial growth, methane production and fermentation of Chinese wild rye hay and maize meal in binary mixtures. J. Agric. Sci. (Cambridge) 152(4):686-696.

[21]Wang R, Yang HJ*, Yang X, Cao BH, 2013. Four phenolic acids determined by an improved HPLC method with a programmed ultraviolet wavelength detection and their relationships with lignin content in 13 agricultural residue feeds. J. Sci. Food Agric. 93(1): 53u201360.

[22]Cao YC, Yang HJ*, Zhang DF, 2013. Enzymatic characteristics of crude feruloyl and acetyl esterases of rumen fungus Neocallimastix sp. YAK11 isolated from yak (Bos grunniens). J. Anim. Physiol. Anim. Nutr.2013, 97(2):363u2013373.

[23]Zhang DF, Yang HJ*, 2012. Effects of Different Levels of Phosphate in Comparison with Citrate Buffer in Culture Media on In Vitro Ruminal Fermentation and Methanogenesis of a Starch-rich Feed Mixture. Afr. J. Microbiol. Res. 6(38): 6742-6747.

[24]Jiang YH, Yang HJ*, Lund P, 2012. Effect of aflatoxin B1 on in vitro ruminal fermentation of rations high in alfalfa hay or ryegrass hay. Anim Feed Sci Technol. 175(1-2): 85-89.

[25]Wang WX, Yang HJ*, Bo YK, Ding S, Cao BH, 2012. Nutrient composition, polyphenolic contents, and in situ protein degradation kinetics of leaves from three mulberry species. Livestock Sci. 146(2-3):203-206.

[26]Bo YK, Yang HJ*, Wang WX, Liu H, Wang GQ, Yu X, 2012. Metabolisable energy, in situ rumen degradation and in vitro fermentation characteristics of linted cottonseed hulls, delinted cottonseed hulls and cottonseed linter residue. Asian-Aust. J. Anim. Sci. 25(2):240-247.

[27]Zhang DF, Yang HJ*, 2012. Combination Effects of Nitrocompounds, Pyromellitic Diimide, and 2-Bromoethanesulfonate on In Vitro Ruminal Methane Production and Fermentation of a Grain-rich Feed. J. Agric. Food Chem. 60:364-371.

[28]Yang HJ*, Yue Q. 2012. The modification of glucose levels and N source in the Hungate’s medium to stimulate the production of fibrolytic enzymes of Anaeromyces sp YQ3 grown on corn stalks. Anim. Feed Sci Technol. 171:146-153.

[29]Yang HJ*, Yue Q, 2011. Effect of glucose addition and N sources in defined media on fibrolytic activity profiles of Neocallimastix sp. YQ1 grown on corn stover. J. Anim. Physiol. Anim. Nutr. 96(4):554-562.

[30]Cao YC, Yang HJ*, 2011. Effect of roughage ?bre content on ?brolytic activities and volatile fatty acid pro?les of Neocallimastix sp. YAK11 isolated from rumen ?uids of yak (Bos grunniens). Anim. Feed Sci. Technol. 170(3-4): 284-290.

[31]Jin DP, Li CY, Yang HJ, Zhang WX, Li CL, Guan WJ, Ma YH, 2011. Apoptotic effects of hydrogen peroxide and vitamin C on chicken embryonic fibroblasts: redox state and programmed cell death. Cytotechnology. 63(5):461-71.

[32]Jin DP, Li CY, Cong YM, Yang HJ, Zhang WX, Guan WJ, Ma YH, 2011. Inhibitory effects of Vitamin E on UVB-induced apoptosis of chicken embryonic fibroblasts. Cell Biology International. 35:381-389.

[33]Cao YC, Yang HJ*, 2011. Ruminal digestibility and fermentation characteristics in vitro of fenugreek and alfalfa hay combination with or without the inoculation of Neocallimastix sp. YAK11. Anim. Feed Sci. Technol. 169(1-2): 53u201360

[34]Yang HJ*, Yue Q, 2011. Effect of glucose levels and N sources in defined media on fibrolytic activity profiles of Neocallimastix sp. yq1 grown on Chinese wildrye grass hay or alfalfa hay. Asian-Aust. J. Anim. Sci. 24,379-385

[35]Zhang DF, Yang HJ*, 2011. In vitro ruminal methanogenesis of a hay-rich substrate in response to different combination supplements of nitrocompounds; pyromellitic diimide and 2-bromoethane sulphonate. Anim. Feed Sci. Technol. 163, 20-32.

[36]Zhang DF, Yang HJ*, 2010. Associated effects of three nitrocompounds, pyromellitic diimide and 2-bromoethanesulphonate on methane production and rumen fermentation characteristics of starch-rich substrates in vitro. Proceeding of Greenhouse Gases and Animal Agriculture Conference, October 3-8, Banff, Alberta, Canada.

[37]Yang HJ*, Xie CY, 2010. Assessment of fibrolytic activities of 18 commercial enzyme products and their abilities to degrade the cell wall fraction of corn stalks in in vitro enzymatic and ruminal batch cultures. Anim. Feed Sci. Technol. 159, 110-121.

[38]Yang HJ*, Cao, Y.C., Zhang, D.F., 2010. Caecal fermentation patterns in vitro of glucose, cellobiose, microcrystalline cellulose and NDF separated from alfalfa hay in the adult rabbit. Anim. Feed Sci. Technol.162, 149-154.

[39]Yue Q, Yang HJ*, Li DH, Wang JQ, 2009. A comparison of HPLC and spectrophotometrical methods to determine the activity of ferulic acid esterase in commercial enzyme products and rumen contents of steers. Anim. Feed Sci. Technol. 153, 169-177.

[40]Yue Q, Yang HJ*, Cao YC, Zhang DF, Jiang YH, Wang JQ, 2009. Feruloyl and acetyl esterase production of an anaerobic rumen fungus Neocallimastix sp. YQ2 effected by glucose and soluble nitrogen supplementations and its potential in the hydrolysis of fibrous feedstuffs. Anim. Feed Sci. Technol. 153, 263-277.

[41]Yang HJ*, Yue Q, Cao YC, Zhang DF, Wang JQ, 2009. Effects of crude feruloyl and acetyl esterase solutions of Neocallimastix sp YQ1 and Anaeromyces sp YQ3 isolated from Holstein steers on hydrolysis of Chinese wildrye grass hay, wheat bran, maize bran, wheat straw and corn stalk. Anim. Feed Sci. Technol. 154, 218-227.

[42]Yue Q, Yang HJ*, Xie CY, Yao XB, Wang JQ, 2007. Intestinal digestibility of protein and amino acid of ruminant feeds with the mobile nylon bag and in vitro digestion technique. J. Anim. Feed Sci. 16 (Suppl. 2): 195u2013200.

[43]Xie CY, Yang HJ*, Yue Q, Yao XB, Wang JQ, 2007. Amino acids profile of rumen-undegradable protein of maize, rice bran, soyabean meal and rapeseed meal in steers. J. Anim. Feed Sci. 16 (Suppl. 2): 235-240.

[44]Shen Y, Song ZH, Yang HJ*, Mao ER, 2006. Research and development of automated gas recording system for in vitro fermentation based on virtual instrumentation. Transact. Chin. Soc. Agr. Eng. 22 (12): 159-163.

[45]Yang HJ*, Tamminga S, Williams BA, Dijkstra J, Boer H, 2005. In vitro gas and volatile fatty acids production profiles of barley and maize grains and their soluble and washout fractions after feed processing. Anim. Feed Sci. Technol. 120: 125-140.

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