Jour. of N o rthw est Sci2T ech U niv. of A gri. and Fo r. (N aṫ Sci. Ed. ) A p ril 2006 , ( P < 0.

34 4 () V o l. 34 N o. 4 2006 4 Jour. of N o rthw est Sci2T ech U niv. of A gri. and Fo r. (N aṫ Sci. Ed. ) A p ril 2006 α 1, 1, 2, 1 (1, 450002; 2, 457300) [ ]72 28 () 3, 4, 6, + 0. 25% + 0. 25% + 10 m ggkg,, (P < 0. 05),, (P < 0. 01); (P < 0. 05), (P < 0. 01);, ( P < 0. 01), [ ]; ; ; [] S816. 32; S828. 8 + 95 [] A [ ] 167129387 (2006) 0420023205, [122 ] [3 ] [4 ], [526 ], [7 ],, 2 [8 ], [9 ],,, 1 1. 1 28 ( ), 72 1. 2 72 3, 4, 6,, ; 1 + 0. 25% (,, 4, 4 10 8 gml ) ; 2 + 0. 25% + 10 m ggkg ( ) 1 1. 3 6,,, 1. 4 6,,,, 1. 5 2,, 4N 2HC l, 5 d, 3 d α [ ] 2005212212 [ ] (2002410020069) [ ] (1965- ),,,,, E2m ail: w zxhau@ 263. net

24 () 34 10% H 2SO 4, - 20 [ 10 ], 4N 2HC l [ 11 ] Ingredients : g% = 1- ( ( ) g( ) ) 100% 1 T able 1 Compo sition and nutrient levels of basic diet Content N utrient level Content Co rn 620. 0 g(m J kg - 1 ) D E 13. 75 Soybean m eal 258. 0 g(g kg - 1 ) CP 190. 5 F ish m eal 30. 0 g(g kg - 1 )Ca 8. 1 W hey pow der 30. 0 g(g kg - 1 ) T P 6. 4 Sucro se 20. 0 g(g kg - 1 ) A P 4. 3 CaH PO 4 14. 0 g(g kg - 1 ) L ys 11. 0 L im estone 7. 0 g(g kg - 1 ) M et 3. 0 N ac l 3. 0 g(g kg - 1 ) T h r 7. 7 P rem ix 10. 0 V egetable o il 8. 0 : :V A 5 500 IU, V D 3 500 IU, V E 40 IU, V B 1 3 m g, V B 2 5 m g, V B 12 28 Λg, 15 m g, 20 m g, 550 m g,m n 30 m g, Zn 100 m g, Fe 100 m g, Cu 150 m g, I 0. 4 m g, Se 0. 3 m g N o te: T he m icro components in diet per k ilogram p rovided by p rem ix include: V A 5 500 IU, V D 3 500 IU, V E 40 IU, V B 1 3 m g, V B 2 5 m g, V B 12 28 Λg, Panto thenic acid 15 m g, N iccin 20 m g, Cho line 550 m g,m n 30 m g, Zn 100 m g, Fe 100 m g, Cu 150 m g, I 0. 4 m g, Se 0. 3 m g. 1. 6 1. 6. 12, 3,,, m () m ( ) = 1 4 m () m ( ) = 1 3,, 12 000 rgm in 4 20 m in, 1. 5 ml, - 80 1. 6. 2 [12 ], : 37, 10 m in, 1 Λmo l, 10-4 Α2 2 [13 ], : 40 30 m in, 0. 1 1. 7, Group D uncan SA S ( 6. 12) STA T ANOVA 2 2. 1 2, (P > 0. 05), 1 2 (P < 0. 05) ; 1 (P < 0. 05), 2 1 (P > 0. 05) ; 1 2 (P < 0. 01), (P < 0. 01), 2 (P > 0. 05),,, 2 T able 2 Feed w eigh t,ad F I,AD G and FgG of p iglets fo r each group gkg Begin w eigh t gkg F inish w eigh t g (g - 1 d - 1 ) A verage daily feed intake g (g - 1 d - 1 ) A verage daily gain Feed gain Contro l 10. 10 1. 14 a 20. 51 1. 96 b 602. 29 48. 67 b 247. 86 38. 87 B 2. 43 0. 24 B 1 Group 1 10. 51 0. 55 a 24. 27 2. 67 a 720. 56 110. 98 a 327. 62 36. 25 A 2. 20 0. 13 A 2 Group 2 10. 15 0. 61 a 21. 64 2. 00 b 631. 17 72. 90 ab 273. 57 34. 50 B 2. 31 0. 16 AB : (P < 0. 05), (P < 0. 01) N o te: D ate w ith different sm all letters w ere significant different ( P < 0. 05), w ith different cap ital letters w ere extrem ely significant different (P < 0. 01). T he fo llow ing tables are the sam e.

4 : 25 2. 2, 3, 1 2 (P < 0. 05), 3, (P > 0. 05), 1 > 2 >, 3 T able 3 A pparent digestibility efficiencies of EE, CP, Ca and T P of diets fo r each group % Index Ether extract C rude p ro tein Calcium To tal pho spho rus Contro l 42. 33 3. 75 b 76. 80 2. 46 a 38. 32 2. 08 a 39. 21 1. 39 a 1 Group 1 52. 91 3. 61 a 79. 15 0. 75 a 43. 97 2. 18 a 41. 13 1. 34 a 2 Group 2 49. 89 3. 02 a 77. 63 1. 30 a 43. 89 5. 40 a 39. 45 4. 47 a 2. 3 2 1 (P > 0. 05) 4,, 1, (P < 0. 01) ; 2, (P < 0. 01) ; 4 T able 4 A ctivities of lipase and Α2am ylase in pancreatic gland and duodenum chym es of p iglets fo r each group Group Pancreatic gland g10-4 U L ipase D uodenum chym e Pancreatic gland gu Α2am ylase D uodenum chym e Contro l 21. 89 3. 01 B 1. 78 0. 36 C 4. 31 0. 31 B 3. 38 0. 36 C 1 Group 1 31. 33 2. 44 A 20. 54 1. 24 A 5. 61 0. 17 A 17. 51 4. 64 A 2 Group 2 27. 35 3. 76 AB 11. 00 2. 96 B 5. 08 0. 76 AB 11. 32 1. 10 B 3,,, [14215 ], Po llm an [16 ],, 8. 4%, 6. 8% [8 ], 2,,, 32. 1%, [17 ],,,, Kah ram an [18 ],,,,,,,, Kah ram an [18 ], Co llington [19 ],, ph ( 6. 5, 4. 4),, M axw ell [7 ],

26 () 34,,, ;,,,, ;,,,, Co llington [19 ], ( ), [20 ], 0. 1%, 40 (P < 0. 05), (P > 0. 05), (P < 0. 01),,,,, 3 3 [ ] [1 ] Robyn L G, Caro l R G. A pp rop riate regulation of antibio tics in livestock [J ]. Bo ston Co llege Environm ental A ffairs L aw Review, 2000, 28 (1) : 39277. [ 2 ] M athew A G, U pchurch W G, Chattin S E. Incidence of antibio tic resistance in fecal E scherich ia coli iso lated from comm ercial sw ine farm s[j ]. J A nim Sci, 1998, 76: 4292434. [ 3 ] B raude R. A ntibio tics in anim al feeds in Great B ritain [J ]. J A nim Sci, 1978, 46: 142521436. [ 4 ] W enk C. Grow th p romo ter alternatives after the ban on antibio tics[j ]. P ig new s and info rm ation, 2003, 24 (1) : 11216. [ 5 ] A be F, Ish ibash i N, Sh im am ura S. Effect of adm inistration of bifidobacteria and lactic acid bacteria to new bo rn calves and p iglets [J ]. Journal of D airy Science, 1995, 78 (12) : 283822846. [6 ] Jessen H. B io logical effects of feeding p igs w ith L actobacillus acidoph ilus[c ]ggp roc g g D airy Congr India. [ S. l. ]: [ s. n. ], 1974: 5792 586. [ 7 ] M axw ell C V, Buchanan D S, Ow ens F N. Effect of p robio tic supp lem entation on perfo rm ance, fecal param eters and digestibility in grow ing2finishing sw ine[j ]. A nim Sci Res Rep, 1983, 114: 1572161. [ 8 ],,,. [J ]., 2004, 171: 12213. [ 9 ] Kovacs2Zom bo rszky M, Kreizinger F, Com bo s S. D ate on the effects of the p robio tic L acto sacc [J ]. A cta V eterinaria H ungarica, 1994, 42 (1) : 3214. [ 10 ]. [M ]. :, 2003. [ 11 ]. [M ]. :, 1979. [ 12 ]. [M ]. :, 2000. [ 13 ],,. [J ]., 2001 (11) : 23224. [ 14 ] Ego rova O G,M o shkutelo I I, Go rodetskays A A. T he efficiency of grow ing suck ling p iglets w hen adding the p reparation frodo to the m ixed food[j ]. Russian A gricultural Sciences, 1998, 4: 23227. [ 15 ] Fuller R. P robio tics in m an and anim als[j ]. J A pp l Bacterio l, 1989, 66: 3652378. [ 16 ] Po llm an D S. Recent A dvances in A nim al N utrition[m ]ggp robio tics in p ig diets. L ondon: Butterwo rth P ress, 1986: 1932205. [ 17 ],,,. [J ]., 1994, 16 (2) : 74280. [ 18 ] Kah ram an R, O zp inar H, A bas I, et al. Effects of p robio tic and antibio tic on perfo rm ance of bro ilers[j ]. A rch iv fur Geflugelkunde, 2000, 64 (2) : 70274. [ 19 ] Co llington T K. T he influence of inclusion of either an antibio tic o r p robio tic in the diet on the developm ent of digestive enzym e activity in the p ig[j ]. B rit J N utr, 1990, 64: 59270. [ 20 ] [J ].,., 2001, 22 (8) : 38241.

4 : 27 Effect of L actobacillus on grow th perfo rm ance, nu trien t dige2 stib ility and digestive enzym e activities of w eaned p iglets W ANG Zh i-x iang 1, QIAO J ia-yun 1,W ANG Z i-heng 2, QI X in 1 (1 Colleg e of A nim al H usband ry and V eterinary, H enan A g ricu ltu ral U niversity, Z heng z hou, H eπnan 450002, Ch ina; 2 Q ingf eng County F ood B u reau, Q ingf eng, H eπnan 457300, Ch ina) Abstract: Seven ty2tw o 82day2o ld w eaned p iglets (D u roc Yo rk sh ire L andrace) w ere divided in to th ree group s of fou r repeatṡ A n experim en t w as conducted to study the effects of the supp lem en tation of L actobacillus agen t s and the com b ina t ion of L actobacillus and flavom ycin in the ba sic d iet on g row th perfo rm ance, nu trien t digestib ility and digestive enzym e activity of w eaned p iglets. T he resu lts show ed that L actobacillus increased average daily feed in take (P < 0. 05), average daily gain and decreased the feed gain ratio (P < 0. 01). L actobacillus increased apparen tly the digestib ility of ether ex tract (P < 0. 05) and the activities of am ylase and lipase in pancreatic gland and duodenum chym e (P < 0. 01) mo st sign ifican tly. T he com b ination of L actobacillus and flavom ycin decreased the perfo rm ance of p iglets and the activities of analyse and lipase in pancreatic p land and doudenum chym e (P < 0. 01) comparing w ith the single u se of L actobacillus. T he resu lts indicated that adding of L actobacillus in the diet cou ld p romo te the perfo rm ance of w eaned p iglets and the activity of lipase and digestib ility of ether ex tract apparen tly. Key words: w eaned p iglet; L actobacillus; digestib ility; digestive enzym e ( 22 ) Abstract ID: 1671-9387 (2006) 04-0019-EA Study on clon ing, exp ression and imm unogen icity of the fragm en t C of tetanu ss tox in J IANG Hui- ting 1, 2,Y U San-ke 1, FENG Peng 1, J IANG Ha i-yan 2,W ANG X i- liang 2 (1 Colleg e of A nim al S cience and T echnology, N orthw est A & F U niversity, Y ang ling, S haanx i 712100, Ch ina; 2 Institute of M icrobiology and Ep idem iology, A cademy of M ilitary M ed icine,b eijing 100071, China) Abstract: To clone, exp ress, p u rify p ro tein and ana lyse the imm unogen icity of the fragm en t C of tetanu s tox in, the fragm en t C gene of tetanu s tox in w as amp lified from C lostrid ium tetan i genom ic DNA by PCR. It w as in serted in to the h igh2exp ression vecto r pet 32a, and exp ression of th is p lasm id in E scherich ia coli BL 21 (D E3) resu lted in the p roduction of a fu sion p ro tein. T he recom b inan t fragm en t2c2th io redox in p ro tein s w ere purified sign ifican tly in one step by affin ity ch rom atography, and then u sed to imm un ize m ice and test the an tibody titerṡ T he resu lt of SD S2PA GE show ed that a specific recom b inan t p ro tein w as exp ressed, accoun ting fo r 28. 19% of the so lub le p ro tein. W estern b lo t analysis indicated that th is p roduct had certain an tigen icity, and the final purity w as 96. 92%. 14 days after the th ird imm un ization the an ti2 tetanu s an tibody titers of the m ice of the group rt TC w ere detected. T he recom b inan t p ro tein is an imm unogen icity an tigen of tetanu s tox in and thu s con structs a basis fo r the developm en t of vaccine in the fu tu re. Key words: tetanu s tox in; fragm en t C; imm unogen icity; p ro tein C