不同方式注射高剂量pGRF基因质粒在猪体内表达效果的研究
|
摘要
本试验研究了不同方式注射高剂量pGRF基因质粒在6-100公斤猪体内的表达效果。32头长白×太湖二元杂交仔猪依据体重、性别及遗传特性一致的原则配对为16个组(起始体重6.78±0.87Kg),随机分为4个处理,每个处理4个重复,每个重复2头猪。4个处理分别为(1)无针头喷射系统注射4.4mgpGRF基因质粒组;(2)普通注射器注射4.4mgpGRF基因质粒组;(3)普通注射器注射2.2mgpGRF基因质粒组;(4)空白对照组。试验猪自由采食与饮水,记录试猪采食和增重情况。在试猪平均体重达到40公斤以后,每个处理选取4头猪,每14天前腔静脉空腹采血用于血浆GRF、GH、IGF-I、SS浓度的测定。试验猪达到100公斤体重时结束饲养试验,每个处理选取4头试猪进行前腔静脉空腹采血用于血糖和血清尿素氮的测定。采血后屠宰,进行内脏器官、胴体品质和肉质的测定。
试验结果表明:普通注射器注射2.2mg和4.4mg的pGRF基因质粒对动物的生产性能具有明显的改善作用,而无针头喷射系统注射4.4mgpGRF基因质粒对动物的生产性能没有影响。其中针注2.2mgpGRF基因质粒与对照组相比可使每头猪全期饲料消耗减少16.6kg(P<0.05),提高全期日增重4.6%(P>0.05),降低料重比5.4%(P<0.05)。针注4.4mgpGRF每头猪可节约饲料消耗23Kg(P<0.05),降低料重比7.9%(P<0.05)。综合试猪全期生产性能,一次性注射高剂量(4.4mg)pGRF基因质粒相对于注射2.2mgpGRF基因质粒并不能进一步改善动物的生产性能。高剂量(4.4mg)pGRF基因质粒可相对延长其在动物体内的作用时间,可有效提高动物生长后期血浆GRF浓度。注射4.4mg和2.2mgpGRF基因质粒均对动物屠宰肉质无不良影响,未发现器官代偿性增大现象。高剂量的pGRF基因质粒可显著促进体内生长抑素的分泌,可使注射后12-20周内生长抑素的总量升高6.3-22.5%(P>0.05或P<0.01),从而不利于其生物学效应的发挥。同普通注射器相比,无针头喷射系统可能具有较高的外源基因转移效率。
A study was carried out to investigate the effect of different type of injecting high-dosage of pGRF gene plasmid on 6-100Kg pigs. 32 Landrace * Taihu piglets (initial weight: 6.78?.87 Kg)were paired by weight, sex and litter and alloted into 16 groups and then distributed into 4 treatments: (1) Biojector injecting 4.4mg pGRF gene plasmid; (2) syringe injecting 4.4mg pGRF gene plasmid; (3) syringe injecting 2.2mg pGRF gene plasmid; (4) syringe injecting placebo. Each treatment group consisted of four pens of two pigs each. Provide feed and water ad libitum and record body weight and feed consumption on time. When the body weight reached to 40Kg, the hormones(GRF\ IGF-K GFK SS)were examined on 4 pigs of each treatment every 14 days. 4 pigs in per treatment were slaughtered when pigs were approximately lOOKg BW. Carcass and meat quality, internal organs, and blood GLU and BU were inspected.
Data indicated that syringe injecting 2.2mg or 4.4mg of pGRF gene plasmid can promote growth performance significantly, while biojector injecting 4.4mg of pGRF gene plasmid have no effect on animal growth.. Comparing to the control group, reaching to 100kg BW, Syringe injecting 2.2mg of pGRF gene plasmid can decrease 16.6Kg(P<0.05) feed consumption each pig, increase daily gain 4.6%(P>0.05) and decrease F/G 5.4%(P<0.05). Syringe injectiong 4.4mg pGRF gene plasmid can decrease feed consumption 23Kg (PO.05), decrease F/G 7.9%(P<0.05). According to whole-stage performance, one injection of high dosage (4.4mg) of pGRF gene plasmid can not further promote growth performance comparing to 2.2mg treatment. 4.4mg of pGRF gene plasmid have long effective life, which can increase GRF concentration during later growth stage. Syringe or Biojector injecting 4.4mg or 2.2mg pGRF gene plasmid have no adverse effect on meat quality, and no organomegaly had been found. High-dosage of pGRF gene plasmid can markedly promote somatostatin Secretion, which can elevate the total amount of somatostatin during 12-20 week after injection by 6.3-22.5% (P>0.05 or PO.01) .
c
试验结果表明:普通注射器注射2.2mg和4.4mg的pGRF基因质粒对动物的生产性能具有明显的改善作用,而无针头喷射系统注射4.4mgpGRF基因质粒对动物的生产性能没有影响。其中针注2.2mgpGRF基因质粒与对照组相比可使每头猪全期饲料消耗减少16.6kg(P<0.05),提高全期日增重4.6%(P>0.05),降低料重比5.4%(P<0.05)。针注4.4mgpGRF每头猪可节约饲料消耗23Kg(P<0.05),降低料重比7.9%(P<0.05)。综合试猪全期生产性能,一次性注射高剂量(4.4mg)pGRF基因质粒相对于注射2.2mgpGRF基因质粒并不能进一步改善动物的生产性能。高剂量(4.4mg)pGRF基因质粒可相对延长其在动物体内的作用时间,可有效提高动物生长后期血浆GRF浓度。注射4.4mg和2.2mgpGRF基因质粒均对动物屠宰肉质无不良影响,未发现器官代偿性增大现象。高剂量的pGRF基因质粒可显著促进体内生长抑素的分泌,可使注射后12-20周内生长抑素的总量升高6.3-22.5%(P>0.05或P<0.01),从而不利于其生物学效应的发挥。同普通注射器相比,无针头喷射系统可能具有较高的外源基因转移效率。
A study was carried out to investigate the effect of different type of injecting high-dosage of pGRF gene plasmid on 6-100Kg pigs. 32 Landrace * Taihu piglets (initial weight: 6.78?.87 Kg)were paired by weight, sex and litter and alloted into 16 groups and then distributed into 4 treatments: (1) Biojector injecting 4.4mg pGRF gene plasmid; (2) syringe injecting 4.4mg pGRF gene plasmid; (3) syringe injecting 2.2mg pGRF gene plasmid; (4) syringe injecting placebo. Each treatment group consisted of four pens of two pigs each. Provide feed and water ad libitum and record body weight and feed consumption on time. When the body weight reached to 40Kg, the hormones(GRF\ IGF-K GFK SS)were examined on 4 pigs of each treatment every 14 days. 4 pigs in per treatment were slaughtered when pigs were approximately lOOKg BW. Carcass and meat quality, internal organs, and blood GLU and BU were inspected.
Data indicated that syringe injecting 2.2mg or 4.4mg of pGRF gene plasmid can promote growth performance significantly, while biojector injecting 4.4mg of pGRF gene plasmid have no effect on animal growth.. Comparing to the control group, reaching to 100kg BW, Syringe injecting 2.2mg of pGRF gene plasmid can decrease 16.6Kg(P<0.05) feed consumption each pig, increase daily gain 4.6%(P>0.05) and decrease F/G 5.4%(P<0.05). Syringe injectiong 4.4mg pGRF gene plasmid can decrease feed consumption 23Kg (PO.05), decrease F/G 7.9%(P<0.05). According to whole-stage performance, one injection of high dosage (4.4mg) of pGRF gene plasmid can not further promote growth performance comparing to 2.2mg treatment. 4.4mg of pGRF gene plasmid have long effective life, which can increase GRF concentration during later growth stage. Syringe or Biojector injecting 4.4mg or 2.2mg pGRF gene plasmid have no adverse effect on meat quality, and no organomegaly had been found. High-dosage of pGRF gene plasmid can markedly promote somatostatin Secretion, which can elevate the total amount of somatostatin during 12-20 week after injection by 6.3-22.5% (P>0.05 or PO.01) .
c
引文
蔡厚明,金静芬,陆永仁,陈梦月,张达青,陈家伦.1989.老年人血清生长激素对GRF刺激的反应.中华内分泌代谢杂志.5(4):210.
陈光慧,赵文.1999.骨骼肌DNA结合蛋白.高技术通讯.9(5).49.
程治平主编.1984.内分泌生理学.人民卫生出版社。
辜玉红.2001.pGRF基因质粒对猪生产性能、胴体品质及血液生化指标影响的研究.四川农业大学硕士学位论文.
黄夺先,姚连生,赵伟等.1991.生长抑素(Somatostatin)主动免疫山羊的增重效果.江苏农业学报.7(4):37.
吕捷,赵春礼.2000.成年动物骨骼肌细胞原代培养及转染外源基因的初步研究.解剖学报.31(1).87.
沈宙宇主编.1983.激素的生物化学.科学出版社.
施亚雪,何天源.1998.兔骨骼肌直接注射质粒DNA的生物效应.外科理论与实践.228.
四川农业大学动物营养研究所编.1992.四川猪饲养标准.国内外畜禽、鱼、经济动物饲养标准及饲料营养价值表汇编.
王珏,赵澎.1998.人酪氨酸羟化酶基因在猴骨骼肌直接注射后的表达.解剖学报.29(4).347.
王艳玲,韩正康.1998.半胱氨对大鼠哺乳晚期泌乳量及血液中几种激素含量的影响.动物学研究.19(3):247.
王艳玲.半胱氨促进大鼠泌乳的研究,1993.南京农业大学学位论文.
向红丁, A.E.Boyd.1994.生长抑素抑制胰岛素分泌作用的分子机制.中华内分泌代谢杂志.10(3):167.
张继峰,秦阳君,付爱华,1999.电针介导的基因转移.中国科学(C辑).29(1).89.
张景迎,庞呈义.1999.裸DNA骨骼肌注射表达外源基因条件的初步研究.泰山医学院学报.20(1).1.
张镜如,乔健天等主编.1998.生理学.人民卫生出版社.
张永亮等.2000.生长激素释放因子(GRF)在动物肌肉组织中的表达.中国兽医学报.20(3).239.
张勇.2001,pGRF基因质粒对猪生产性能与蛋白质代谢利用的调控.四川农业大学博士学位论文.
赵文,汤健.1998,直接肌肉注射质粒DNA对肌组织cAMP,cGMP含量的影响.基础医学与临床,18(6).24.
郑少鹏,田竟生.1995.LacZ基因在体内外骨骼肌中的表达,首都医学院学报.16(2).85.
郑少鹏,田竟生.1997.质粒pRSVTH的重组和在体外培养骨骼肌内的表达.解剖学报.28(2).157.
郑亦辉主编,1994.动物激素及其应用.江苏科学技术出版社.
朱励,2001.影响肌纤维生长的因素及其与肉质性状间相关性的研究,四川农业大学硕士学位论文
朱小君,姚阿卿,刘勃.1994.外源基因在大鼠体内不同组织的表达.中华医学杂志.74(3).158.
邹多武,许国铭,李兆中,孙振兴,尹宁.1997.生长抑素对Oddi括约肌功能的影响.中华内科杂志.36(3):177.
Aihara, H. and J. I. Miyazaki. 1998. Gene transfer into muscle by electroporation in vivo. Nature
biotechnology. 16:867.
Beermann D. H, D. E. Hogue, V. K. Fishell, S. Aronica, H. W. Dickson and B. R. Schricker. 1990. Exogenous human growth hormone releasing factor and ovine somatotropin improve growth performance and composition of gain in Iambs.J.Anim.Sci. 68:412.
Blair, H. T., S. N. McCutcheon, D. D. S. Mackenzie, P. D. Gluckman and J. E. Ormsby. 1987. Variation in plasma concentration of insulin-like growth factor-Ⅰ and its covariation with liveweight in mice. Aust. J. Bio). Sci. 40:287.
Bonneau, M. 1992. Administration of somatotropin releasing factor or somatotropin to poultry and pigs: effects on performance, meat quality and reproduction. Productions-Animales. 5(4) : 257.
Boyd, R. D., D. Wray-Cahen and B. Krick.1988. Implications of somatotropin on nutrient requirements of growing swine. Proc. Conell Nutr, Conf. 50:81.
Buonomo, F. C., T. J. Lautrio, C. A. Baile and D. R. Campion. 1987. Determination of insulin-like growth factorI(IGFI) and IGF binding protein levels in swine. Domest. Anim. Endocrinol. 4:23.
Campbell, R. G., R. J. Johnson , R. H.King, M. R. Taverner and D. J. Meisinger. 1990. Interaction of dietary protein content and exogenous porcine growth hormone administration on protein and lipid acceretion rates in growing pigs. J. Anim. Sci. 68:3217.
Campbell, R. G., R. J. Johnson and R. H. King. 1991. Interrelationships between exogenous porcine somatotropin(pST) administration and dietary protein and energy intake on protein deposition capacity and energy metabolism of pigs. J. Anim. Sci. 69:1522.
Campbell, R.G., N. C.Steele, T. J.Caperna, J. P.Mcmurtry, M. B.Solomon and A. D.Mitchell. 1988. Interrelationships between energe intake and endogenous porcine growth hormone administration on the performance, body composition and protein and energy metabolism of growing pigs weighing 25 to 55 kilograms live weight. J.Anim.Sci. 66:1643.
Cluing, C. S., T. D. Etherton and J. P. Wiggins. 1985. Stimulation of swine growth by porcine growth hormone. J.Anim.Sci. 60:118.
Davis, H. L, B. A. Demeneix, B. Quantin, J. Coulombe and R. G.Whalen. 1991. Plasmid DNA is superior to viral vectors for direct gene transfer into adult mouse skeletal muscle. Biotechniques. 11(4) :474.
Davis, H. L., M. L. Michel, M. Mancini, M. Schleef and R. G. Whalen. 1994. Direct gene transfer in skeletal muscle: plasmid DNA-based immunization against the hepatitis B virus surface antigen. J Immunol Methods. 30:175(1) :11.
Davis, H. L., R. G.Whalen and B. A.Biekinska. 1993. Direct gene transfer into skeletal muscle in vivo: factors affecting efficiency of transfer and stability of expression. Human Gene Therapy. 4:159.
Draghia-Akli, R., M. L.Fiorotto, L. A.Hill and P. B.Malone . 1999. Myogenic expression of an injectable protease-resistant growth hormone augments longterm growth in pigs. Nature Biotechnology. 17:1179.
Draghia-Akli, R., X. G. Li and R. J.Schwatz. 1997. Enhanced growth by ectopic expression of growth
hormone releasing hormone using an injectable myogenic vetor. Nature Biotechnology. 15:1285.
Dubreuil, P. and J. Morisset. 1986. Effect of somatocrinin and a somatostatin antiserum on duodenal and gastric growth in the rat. Regul. Pept. 16:51.
Dubreuil, P., T. Abribat, P. Brazeau and H. Lapierre. 1998. Nitrogen balance and mineral excretion in growing male pigs injected with a human growth hormone-releasing factor analog. Canadian Journal of Veterinary Research. 62(1) : 9.
Dubreuil, P., Y Couture, G. Pelletier, D. Petitclerc, H. Lapierre, S. Pommier, P. Gaudreau, J. Morisset and P. Brazeau. 1990,a. Effect of porcine growth hormone-releasing factor (1-29) NH2 and thyrotropin-factor on pig growth performance. Can. J. Anim. Sci. 70:459.
Dubreuil, P., Y. Couture, G. Pelletier, D. Petitclerc, L. Delorme, H. Lapierre, P. Gaudreau, J. Morisset and P. Brazeau. 1990c. Effect of long-term administration of porcine growth hormone-releasing factor and(or) thyrotropin-releasing factor on growth hormone, prolactin and thyroxine concentrations in growing pigs. J. Anim. Sci. 68:95.
Dubreuil. P, Y. Couture, G. Pelletier, D. Petitclerc and L. Delorme. 1990,b. Effect of porcine growth hormone-releasing factor(l-29) NH2 and thyrotropin-releasing factor on pig growth performance. Canadian Journal of animal science,70:459.
Early, R. L. M. C. Bride and B. W. Ball. 1990. Growth and metabolism in somatotropin-treated steers: Protein synthesis and tissue energy expenditures. J. Anim. Sci. 68:4153.
Eisemann, J. H., A. C. Hammond, D. E. Bauman, P. J. Reynolds, S. N. Mccutcheon, H. F. Tyrrell and C. L. Haland. 1986. Effect of bovine growth hormone administration on metabolism on metabolism of growing hereford heifers: potein and lipid metabolism and plasma concentrations of metabolites and hormones. J. Nutr. 116:2504.
Enright, W. J, D. J. Prendiville, L. J. Spicer, P. R. Strieker, A. P. Moloney, T. F. Mowles and R. M. Campbell 1993. Effects of growth hormone-releasing factor and(or) thyrotopin-releasing hormone on growth, feed efficiency, carcass characteristics, and blood hormones and metabolites in beef heifers. J. Anim. Sci. 71(9) : 2395.
Etherton, T. D., J. P. Wiggins, C. S. Chung, C. M. Evock, J. F.Rebhun and P. E. Walton. 1986. Stimulation of pig growth performance by porcine growth hormone and growth hormone-releasing factor. J. Anim. Sci. 63:1389.
Evans L. S, M. L. David, E. J. Mark, Rebecca Lines, Larry Baizer, M. G. Kenneth, and P. M. Sally. 2000. Microsphere encapsulation or biojector system delivery enhances adjuvanted DNA vaccines in rhesus macaques www. bioject.com. /clinic/index.html.
Ferland, L. 1976. Physiological role of somatostatin in the control of growth hormone and thyrotropin secretion. Biochem. Biophys. Res.Commun. 68:149.
Fynan, E. F., R. G. Webster and D. H. Fuller 1993. DNA vaccines: Protective immunizations by parental,
mucosal, and gene-gun inoculations. Proc Natl Acad Sci USA 90: 11478.
Hagstrom, R. E., I. N. Rybakova, J. A. Wolff. 1996. Nonnuclear DNA binding proteins in striated muscle. Biochem. Med.58:113.
Joao Carlos Aguiar, C. Richard, Hedstroml, O.William, Rogers, Yupin Charoenvit, B. John, Jr. Sacci, E. David, Lanar, F. Victoria, Majam, R. Richard, Stout and S. L. Hoffman. 2002. Immunization with a needle-free jet device. www. elsevier. Com /gej-ng/10/42/35/60/27/65/#AFF1.
Lamberson, W. R., T. J. Safranski, R. O. Bates, D. H. Keisler and R. L. Matteri. 1995. Relationships of serum insulin-like growth factor I concentrations to growth, composition, and reproductive traits of swine. J. Anim. Sci. 73:3241.
Lapierre, H., C. Farmer, C. Girard and P. Brazeau 1992. Effect of age and intake on growth hormone kinetics in dairy heifers. Domestic-Animal-Endocrinology. 9(3) : 199.
Lapierre, H., G. Pelletier, D. Petitclerc, P. Dubreuil, J. Morisset, Y. Couture and P. Brazeau. 1988. Effect of human growth hormone-releasing factor(1-29) NH2 on growth hormone releasing and milk production in dairy cows. J. Dairy Sci. 71:92.
Lawrence Baizer, R. R. Stout, Georg Widera, Shawn Babiuk, and Lome Babiuk. 2002. Biojector neddle-free injection enhances immune responses to a DNA vaccine #T3391. www. bioject.com. /clinic/index.html.
Lawrence., S. E., M. L. David, E. J. Mark, Rebecca Lines, Larry Baizer, M. G. Kenneth and P. M. Sally. 2000. Microsphere encapsulation or biojector system delivery enhances adjuvanted DNA vaccines in rhesus macaques, www. bioject.com./clinic7index.html.
Machlin, J. L. 1972. Effect of porcine growth hormone on growth and carcass composition of the pig. J. Anim. Sci. 35:794.
Niimi, M., J.Takahara, K. Kawanishi and S. Irino. 1985. Effects of age on GH responses to growth hormone releasing factor in rats. Endocrinologia Japonica. 32(4) : 559.
NRC. 1998. Nutrient requirements of swine(10th Ed.). Washington D. C. The national Academy Press.
Owens, P. C., K. J. Moyse, P. E. Walton, I. Priebe, G. L. Francis, D. Harrison, B. Luxford and R. G., Cambell. 1993. Genetic differences in insulin-like growth factors and bineding proteins: Relationship to growth rate. Proc. Endocr. Soc. (USA). 863.
Owens, P. C., K. L Catford , P. E Walton. 1999. The relationship between endogenous insulin-like growth factors and growth in pigs. J. Anim. Sci. 77:2098.
Pell, J. M. 1990. The nutritional regulation of growth hormone action. Nutrition Reserarch Reviews. 3:163.
Peticlerc, D., G. Pelletier, H. Lapierre, P. Gaudreau, Y. Couture, P. Dubreuil, J. Morisset and P. Brazeau. 1987. Dose response of two synthetic human growth hormone-releasing factors on growth hormone release in heifers and pigs. J. Anim. Sci. 65:996.
Pursel, V. G., R. G.Cambell, K. F. Miller, R. R. Behringer, R. D. Palmiter and R. L. Brinster. 1988. Growth
potential of transgenic pigs expreessing a bovine growth hormone gene. J.Anim.Sci. 66(Suppl.1) 267 (Abstr.).
Spercer, G. S. G. and G. J.Garssrn. 1983. A novel approach to growth promotion using auto immunisation against somatostatin. Ⅰ. Effects on growth and hormone levels in lambs. Livestock production science. 10:25-37.
Sujata Manam, J. L. Brian, B. B. Amy, J. T. Philip, J. P. Cindy, L. B. Harper, G. G. Thomas Ⅱ, Zhutian Niu, Lyudmila Denisova, Thy T. Follmer, Stephen J. Pacchione, Zhibin Wang, Carolann M. Beare, Walter J. Bagdon and Warren W. Nichols. 2001. Plasmid DNA vaccines: tissue distribution and effects of DNA sequence adjuvants and delivery method on integration into host DNA. Intervirology 43:273.
Vahlsing, H. L., M. A. Yankauckas, M. Sawdey, S. H. Gromkowski and M. Manthorpe. 1993. Immunization with plasmid DNA using a pneumatic gun. Science 19:1745.
Verstegen, M. W., A. W. Van der Hel, A. M. Henken, J. Huisman, E. Kanis, P Van der Wal and E. J. Van Weerden. 1990. Effect of exogenous porcine somatotropin administration on nitrogen and energy metabolism in three genotypes of pigs. J. Anim. Sci. 68:1008.
Vitadello, M., M. V. Schiaffino and A. Picard. 1994. Gene transfer in regenerating muscle. Human Gene Therapy. 5:11.
Walton, P. E., T. D. Etherton and C. S. Chang. 1987. Exogenous pituitary and recombinant growth hormone induce insulin and insulin-like growth factor I resistance in pig adipose tissue. Domest. Anim. Endocrinol. 4:183.
Wells, D. J and G. Goldspink. 1992. Age and sex influence expression of plasmid DNA directly injected into mouse skeletal muscle. FEBS letters. 306:203.
Wells, D. J. 1993 Improved gene transfer by direct plasmid injection associated with regeneration in mouse skeletal muscle. FEBS Letters. 332:179.
Wolff, J. A., J. J. Ludtke, G. Acsadi, P. Williams and A. Jani. 1992. Long-term persistence of plasmid DNA and foreign gene expression in mouse muscle. Human Molecular Genetics. 1:6. 363.
Wolff, J. A., P. Williams, G. Acsadi, S. Jiao, A. Jani and W.Chong. 1994. Conditions affecting direct gene transfer into rodent muscle in vivo. Vaccine.12(16) : 1503.
Wolff, J. A., R. W. Malone, P. William, W. Chong, G. Acsadi, A. Jani and P. L.Felgner. 1990. Direct gene transfer into mouse muscle in vivo. Scince. 247:1465.
陈光慧,赵文.1999.骨骼肌DNA结合蛋白.高技术通讯.9(5).49.
程治平主编.1984.内分泌生理学.人民卫生出版社。
辜玉红.2001.pGRF基因质粒对猪生产性能、胴体品质及血液生化指标影响的研究.四川农业大学硕士学位论文.
黄夺先,姚连生,赵伟等.1991.生长抑素(Somatostatin)主动免疫山羊的增重效果.江苏农业学报.7(4):37.
吕捷,赵春礼.2000.成年动物骨骼肌细胞原代培养及转染外源基因的初步研究.解剖学报.31(1).87.
沈宙宇主编.1983.激素的生物化学.科学出版社.
施亚雪,何天源.1998.兔骨骼肌直接注射质粒DNA的生物效应.外科理论与实践.228.
四川农业大学动物营养研究所编.1992.四川猪饲养标准.国内外畜禽、鱼、经济动物饲养标准及饲料营养价值表汇编.
王珏,赵澎.1998.人酪氨酸羟化酶基因在猴骨骼肌直接注射后的表达.解剖学报.29(4).347.
王艳玲,韩正康.1998.半胱氨对大鼠哺乳晚期泌乳量及血液中几种激素含量的影响.动物学研究.19(3):247.
王艳玲.半胱氨促进大鼠泌乳的研究,1993.南京农业大学学位论文.
向红丁, A.E.Boyd.1994.生长抑素抑制胰岛素分泌作用的分子机制.中华内分泌代谢杂志.10(3):167.
张继峰,秦阳君,付爱华,1999.电针介导的基因转移.中国科学(C辑).29(1).89.
张景迎,庞呈义.1999.裸DNA骨骼肌注射表达外源基因条件的初步研究.泰山医学院学报.20(1).1.
张镜如,乔健天等主编.1998.生理学.人民卫生出版社.
张永亮等.2000.生长激素释放因子(GRF)在动物肌肉组织中的表达.中国兽医学报.20(3).239.
张勇.2001,pGRF基因质粒对猪生产性能与蛋白质代谢利用的调控.四川农业大学博士学位论文.
赵文,汤健.1998,直接肌肉注射质粒DNA对肌组织cAMP,cGMP含量的影响.基础医学与临床,18(6).24.
郑少鹏,田竟生.1995.LacZ基因在体内外骨骼肌中的表达,首都医学院学报.16(2).85.
郑少鹏,田竟生.1997.质粒pRSVTH的重组和在体外培养骨骼肌内的表达.解剖学报.28(2).157.
郑亦辉主编,1994.动物激素及其应用.江苏科学技术出版社.
朱励,2001.影响肌纤维生长的因素及其与肉质性状间相关性的研究,四川农业大学硕士学位论文
朱小君,姚阿卿,刘勃.1994.外源基因在大鼠体内不同组织的表达.中华医学杂志.74(3).158.
邹多武,许国铭,李兆中,孙振兴,尹宁.1997.生长抑素对Oddi括约肌功能的影响.中华内科杂志.36(3):177.
Aihara, H. and J. I. Miyazaki. 1998. Gene transfer into muscle by electroporation in vivo. Nature
biotechnology. 16:867.
Beermann D. H, D. E. Hogue, V. K. Fishell, S. Aronica, H. W. Dickson and B. R. Schricker. 1990. Exogenous human growth hormone releasing factor and ovine somatotropin improve growth performance and composition of gain in Iambs.J.Anim.Sci. 68:412.
Blair, H. T., S. N. McCutcheon, D. D. S. Mackenzie, P. D. Gluckman and J. E. Ormsby. 1987. Variation in plasma concentration of insulin-like growth factor-Ⅰ and its covariation with liveweight in mice. Aust. J. Bio). Sci. 40:287.
Bonneau, M. 1992. Administration of somatotropin releasing factor or somatotropin to poultry and pigs: effects on performance, meat quality and reproduction. Productions-Animales. 5(4) : 257.
Boyd, R. D., D. Wray-Cahen and B. Krick.1988. Implications of somatotropin on nutrient requirements of growing swine. Proc. Conell Nutr, Conf. 50:81.
Buonomo, F. C., T. J. Lautrio, C. A. Baile and D. R. Campion. 1987. Determination of insulin-like growth factorI(IGFI) and IGF binding protein levels in swine. Domest. Anim. Endocrinol. 4:23.
Campbell, R. G., R. J. Johnson , R. H.King, M. R. Taverner and D. J. Meisinger. 1990. Interaction of dietary protein content and exogenous porcine growth hormone administration on protein and lipid acceretion rates in growing pigs. J. Anim. Sci. 68:3217.
Campbell, R. G., R. J. Johnson and R. H. King. 1991. Interrelationships between exogenous porcine somatotropin(pST) administration and dietary protein and energy intake on protein deposition capacity and energy metabolism of pigs. J. Anim. Sci. 69:1522.
Campbell, R.G., N. C.Steele, T. J.Caperna, J. P.Mcmurtry, M. B.Solomon and A. D.Mitchell. 1988. Interrelationships between energe intake and endogenous porcine growth hormone administration on the performance, body composition and protein and energy metabolism of growing pigs weighing 25 to 55 kilograms live weight. J.Anim.Sci. 66:1643.
Cluing, C. S., T. D. Etherton and J. P. Wiggins. 1985. Stimulation of swine growth by porcine growth hormone. J.Anim.Sci. 60:118.
Davis, H. L, B. A. Demeneix, B. Quantin, J. Coulombe and R. G.Whalen. 1991. Plasmid DNA is superior to viral vectors for direct gene transfer into adult mouse skeletal muscle. Biotechniques. 11(4) :474.
Davis, H. L., M. L. Michel, M. Mancini, M. Schleef and R. G. Whalen. 1994. Direct gene transfer in skeletal muscle: plasmid DNA-based immunization against the hepatitis B virus surface antigen. J Immunol Methods. 30:175(1) :11.
Davis, H. L., R. G.Whalen and B. A.Biekinska. 1993. Direct gene transfer into skeletal muscle in vivo: factors affecting efficiency of transfer and stability of expression. Human Gene Therapy. 4:159.
Draghia-Akli, R., M. L.Fiorotto, L. A.Hill and P. B.Malone . 1999. Myogenic expression of an injectable protease-resistant growth hormone augments longterm growth in pigs. Nature Biotechnology. 17:1179.
Draghia-Akli, R., X. G. Li and R. J.Schwatz. 1997. Enhanced growth by ectopic expression of growth
hormone releasing hormone using an injectable myogenic vetor. Nature Biotechnology. 15:1285.
Dubreuil, P. and J. Morisset. 1986. Effect of somatocrinin and a somatostatin antiserum on duodenal and gastric growth in the rat. Regul. Pept. 16:51.
Dubreuil, P., T. Abribat, P. Brazeau and H. Lapierre. 1998. Nitrogen balance and mineral excretion in growing male pigs injected with a human growth hormone-releasing factor analog. Canadian Journal of Veterinary Research. 62(1) : 9.
Dubreuil, P., Y Couture, G. Pelletier, D. Petitclerc, H. Lapierre, S. Pommier, P. Gaudreau, J. Morisset and P. Brazeau. 1990,a. Effect of porcine growth hormone-releasing factor (1-29) NH2 and thyrotropin-factor on pig growth performance. Can. J. Anim. Sci. 70:459.
Dubreuil, P., Y. Couture, G. Pelletier, D. Petitclerc, L. Delorme, H. Lapierre, P. Gaudreau, J. Morisset and P. Brazeau. 1990c. Effect of long-term administration of porcine growth hormone-releasing factor and(or) thyrotropin-releasing factor on growth hormone, prolactin and thyroxine concentrations in growing pigs. J. Anim. Sci. 68:95.
Dubreuil. P, Y. Couture, G. Pelletier, D. Petitclerc and L. Delorme. 1990,b. Effect of porcine growth hormone-releasing factor(l-29) NH2 and thyrotropin-releasing factor on pig growth performance. Canadian Journal of animal science,70:459.
Early, R. L. M. C. Bride and B. W. Ball. 1990. Growth and metabolism in somatotropin-treated steers: Protein synthesis and tissue energy expenditures. J. Anim. Sci. 68:4153.
Eisemann, J. H., A. C. Hammond, D. E. Bauman, P. J. Reynolds, S. N. Mccutcheon, H. F. Tyrrell and C. L. Haland. 1986. Effect of bovine growth hormone administration on metabolism on metabolism of growing hereford heifers: potein and lipid metabolism and plasma concentrations of metabolites and hormones. J. Nutr. 116:2504.
Enright, W. J, D. J. Prendiville, L. J. Spicer, P. R. Strieker, A. P. Moloney, T. F. Mowles and R. M. Campbell 1993. Effects of growth hormone-releasing factor and(or) thyrotopin-releasing hormone on growth, feed efficiency, carcass characteristics, and blood hormones and metabolites in beef heifers. J. Anim. Sci. 71(9) : 2395.
Etherton, T. D., J. P. Wiggins, C. S. Chung, C. M. Evock, J. F.Rebhun and P. E. Walton. 1986. Stimulation of pig growth performance by porcine growth hormone and growth hormone-releasing factor. J. Anim. Sci. 63:1389.
Evans L. S, M. L. David, E. J. Mark, Rebecca Lines, Larry Baizer, M. G. Kenneth, and P. M. Sally. 2000. Microsphere encapsulation or biojector system delivery enhances adjuvanted DNA vaccines in rhesus macaques www. bioject.com. /clinic/index.html.
Ferland, L. 1976. Physiological role of somatostatin in the control of growth hormone and thyrotropin secretion. Biochem. Biophys. Res.Commun. 68:149.
Fynan, E. F., R. G. Webster and D. H. Fuller 1993. DNA vaccines: Protective immunizations by parental,
mucosal, and gene-gun inoculations. Proc Natl Acad Sci USA 90: 11478.
Hagstrom, R. E., I. N. Rybakova, J. A. Wolff. 1996. Nonnuclear DNA binding proteins in striated muscle. Biochem. Med.58:113.
Joao Carlos Aguiar, C. Richard, Hedstroml, O.William, Rogers, Yupin Charoenvit, B. John, Jr. Sacci, E. David, Lanar, F. Victoria, Majam, R. Richard, Stout and S. L. Hoffman. 2002. Immunization with a needle-free jet device. www. elsevier. Com /gej-ng/10/42/35/60/27/65/#AFF1.
Lamberson, W. R., T. J. Safranski, R. O. Bates, D. H. Keisler and R. L. Matteri. 1995. Relationships of serum insulin-like growth factor I concentrations to growth, composition, and reproductive traits of swine. J. Anim. Sci. 73:3241.
Lapierre, H., C. Farmer, C. Girard and P. Brazeau 1992. Effect of age and intake on growth hormone kinetics in dairy heifers. Domestic-Animal-Endocrinology. 9(3) : 199.
Lapierre, H., G. Pelletier, D. Petitclerc, P. Dubreuil, J. Morisset, Y. Couture and P. Brazeau. 1988. Effect of human growth hormone-releasing factor(1-29) NH2 on growth hormone releasing and milk production in dairy cows. J. Dairy Sci. 71:92.
Lawrence Baizer, R. R. Stout, Georg Widera, Shawn Babiuk, and Lome Babiuk. 2002. Biojector neddle-free injection enhances immune responses to a DNA vaccine #T3391. www. bioject.com. /clinic/index.html.
Lawrence., S. E., M. L. David, E. J. Mark, Rebecca Lines, Larry Baizer, M. G. Kenneth and P. M. Sally. 2000. Microsphere encapsulation or biojector system delivery enhances adjuvanted DNA vaccines in rhesus macaques, www. bioject.com./clinic7index.html.
Machlin, J. L. 1972. Effect of porcine growth hormone on growth and carcass composition of the pig. J. Anim. Sci. 35:794.
Niimi, M., J.Takahara, K. Kawanishi and S. Irino. 1985. Effects of age on GH responses to growth hormone releasing factor in rats. Endocrinologia Japonica. 32(4) : 559.
NRC. 1998. Nutrient requirements of swine(10th Ed.). Washington D. C. The national Academy Press.
Owens, P. C., K. J. Moyse, P. E. Walton, I. Priebe, G. L. Francis, D. Harrison, B. Luxford and R. G., Cambell. 1993. Genetic differences in insulin-like growth factors and bineding proteins: Relationship to growth rate. Proc. Endocr. Soc. (USA). 863.
Owens, P. C., K. L Catford , P. E Walton. 1999. The relationship between endogenous insulin-like growth factors and growth in pigs. J. Anim. Sci. 77:2098.
Pell, J. M. 1990. The nutritional regulation of growth hormone action. Nutrition Reserarch Reviews. 3:163.
Peticlerc, D., G. Pelletier, H. Lapierre, P. Gaudreau, Y. Couture, P. Dubreuil, J. Morisset and P. Brazeau. 1987. Dose response of two synthetic human growth hormone-releasing factors on growth hormone release in heifers and pigs. J. Anim. Sci. 65:996.
Pursel, V. G., R. G.Cambell, K. F. Miller, R. R. Behringer, R. D. Palmiter and R. L. Brinster. 1988. Growth
potential of transgenic pigs expreessing a bovine growth hormone gene. J.Anim.Sci. 66(Suppl.1) 267 (Abstr.).
Spercer, G. S. G. and G. J.Garssrn. 1983. A novel approach to growth promotion using auto immunisation against somatostatin. Ⅰ. Effects on growth and hormone levels in lambs. Livestock production science. 10:25-37.
Sujata Manam, J. L. Brian, B. B. Amy, J. T. Philip, J. P. Cindy, L. B. Harper, G. G. Thomas Ⅱ, Zhutian Niu, Lyudmila Denisova, Thy T. Follmer, Stephen J. Pacchione, Zhibin Wang, Carolann M. Beare, Walter J. Bagdon and Warren W. Nichols. 2001. Plasmid DNA vaccines: tissue distribution and effects of DNA sequence adjuvants and delivery method on integration into host DNA. Intervirology 43:273.
Vahlsing, H. L., M. A. Yankauckas, M. Sawdey, S. H. Gromkowski and M. Manthorpe. 1993. Immunization with plasmid DNA using a pneumatic gun. Science 19:1745.
Verstegen, M. W., A. W. Van der Hel, A. M. Henken, J. Huisman, E. Kanis, P Van der Wal and E. J. Van Weerden. 1990. Effect of exogenous porcine somatotropin administration on nitrogen and energy metabolism in three genotypes of pigs. J. Anim. Sci. 68:1008.
Vitadello, M., M. V. Schiaffino and A. Picard. 1994. Gene transfer in regenerating muscle. Human Gene Therapy. 5:11.
Walton, P. E., T. D. Etherton and C. S. Chang. 1987. Exogenous pituitary and recombinant growth hormone induce insulin and insulin-like growth factor I resistance in pig adipose tissue. Domest. Anim. Endocrinol. 4:183.
Wells, D. J and G. Goldspink. 1992. Age and sex influence expression of plasmid DNA directly injected into mouse skeletal muscle. FEBS letters. 306:203.
Wells, D. J. 1993 Improved gene transfer by direct plasmid injection associated with regeneration in mouse skeletal muscle. FEBS Letters. 332:179.
Wolff, J. A., J. J. Ludtke, G. Acsadi, P. Williams and A. Jani. 1992. Long-term persistence of plasmid DNA and foreign gene expression in mouse muscle. Human Molecular Genetics. 1:6. 363.
Wolff, J. A., P. Williams, G. Acsadi, S. Jiao, A. Jani and W.Chong. 1994. Conditions affecting direct gene transfer into rodent muscle in vivo. Vaccine.12(16) : 1503.
Wolff, J. A., R. W. Malone, P. William, W. Chong, G. Acsadi, A. Jani and P. L.Felgner. 1990. Direct gene transfer into mouse muscle in vivo. Scince. 247:1465.