Cloning and Transgenesis 119 Stinnakre, M.G., Vilotte, J.L., Soulier, S. and Mercier, J.C. (1994) Creation and phenotypic analysis of alphalactalbumin-deficient mice. Proceedings of the National Academy of Sciences of the United States of America 91, 6544–6548. Su, H.Y., Jay, N.P., Gourley, T.S., Kay, G.W. and Damak, S. (1998) Wool production in transgenic sheep: results from first-generation adults and second-generation lambs. <strong>Animal</strong> Biotechnology 9, 135–147. Sullivan, E.J., Kasinathan, S., Kasinathan, P., Robl, J.M. and Collas, P. (2004) Cloned calves from chromatin remodeled in vitro. Biology of Reproduction 70, 146–153. Takahashi, S. and Ito, Y. (2004) Evaluation of meat products from cloned cattle: biological and biochemical properties. Cloning Stem Cells 6, 165–171. Tamashiro, K.L., Wakayama, T., Akutsu, H., Yamazaki, Y., Lachey, J.L., Wortman, M.D., Seeley, R.J., D’Alessio, D.A., Woods, S.C., Yanagimachi, R. and Sakai, R.R. (2002) Cloned mice have an obese phenotype not transmitted to their offspring. Nature Medicine 8, 262–267. Thomas, C.E., Ehrhardt, A. and Kay, M.A. (2003) Progress and problems with the use of viral vectors for gene therapy. Nature Reviews Genetics 4, 346–358. Thomassen, E.A., van Veen, H.A., van Berkel, P.H., Nuijens, J.H. and Abrahams, J.P. (2005) The protein structure of recombinant human lactoferrin produced in the milk of transgenic cows closely matches the structure of human milk-derived lactoferrin. Transgenic Research 14, 397–405. Tian, X.C., Kubota, C., Sakashita, K., Izaike, Y., Okano, R., Tabara, N., Curchoe, C., Jacob, L., Zhang, Y., Smith, S., Bormann, C., Xu, J., Sato, M., Andrew, S. and Yang, X. (2005) Meat and milk compositions of bovine clones. Proceedings of the National Academy of Sciences of the United States of America 102, 6261–6266. Tucker, F., Eichenlaub, M., Miller, A., Oliver, J., Forsyth, J., Berg, M., Cockrem, K., Oback, B. and Wells, D. (2004) Increased cattle cloning efficiency with serum-starved compared to G1 somatic donor cells. Biology of Reproduction, Special Issue: The 37th Annual Meeting of the Society for the Study of Reproduction. 1–4 August 2004, Vancouver, Canada, Abstract 577. van Berkel, P.H., Welling, M.M., Geerts, M., van Veen, H.A., Ravensbergen, B., Salaheddine, M., Pauwels, E.K., Pieper, F., Nuijens, J.H. and Nibbering, P.H. (2002) Large scale production of recombinant human lactoferrin in the milk of transgenic cows. Nature Biotechnology 20, 484–487. Van den Hout, J.M., Kamphoven, J.H., Winkel, L.P., Arts, W.F., De Klerk, J.B., Loonen, M.C., Vulto, A.G., Cromme-Dijkhuis, A., Weisglas-Kuperus, N., Hop, W., Van Hirtum, H., Van Diggelen, O.P., Boer, M., Kroos, M.A., Van Doorn, P.A., Van der Voort, E., Sibbles, B., Van Corven, E.J., Brakenhoff, J.P., Van Hove, J., Smeitink, J.A., de Jong, G., Reuser, A.J. and Van der Ploeg, A.T. (2004) Long-term intravenous treatment of Pompe disease with recombinant human alpha-glucosidase from milk. Pediatrics 113, e448–457. Van Reenen, C.G., Meuwissen, T.H., Hopster, H., Oldenbroek, K., Kruip, T.H. and Blokhuis, H.J. (2001) Transgenesis may affect farm animal welfare: a case for systematic risk assessment. Journal of <strong>Animal</strong> Science 79, 1763–1779. Wall, R.J., Kerr, D.E. and Bondioli, K.R. (1997) Transgenic dairy cattle: genetic engineering on a large scale. Journal of Dairy Science 80, 2213–2224. Wall, R.J., Powell, A.M., Paape, M.J., Kerr, D.E., Bannerman, D.D., Pursel, V.G., Wells, K.D., Talbot, N. and Hawk, H.W. (2005) Genetically enhanced cows resist intramammary Staphylococcus aureus infection. Nature Biotechnology 23, 445–451. Walsh, M.K., Lucey, J.A., Govindasamy-Lucey, S., Pace, M.M. and Bishop, M.D. (2003) Comparison of milk produced by cows cloned by nuclear transfer with milk from non-cloned cows. Cloning and Stem Cells 5, 213–219. Wang, L., Duan, E., Sung, L.Y., Jeong, B.S., Yang, X. and Tian, X.C. (2005) Generation and characterization of pluripotent stem cells from cloned bovine embryos. Biology of Reproduction 73, 149–155. Ward, K.A. (2000) Transgene-mediated modifications to animal biochemistry. Trends in Biotechnology 18, 99–102. Ward, K.A., Brownlee, A.G., Leish, Z. and Bonsing, J. (1993) Genetic manipulation for disease control. Proceedings of the VII World Conference on <strong>Animal</strong> Production. 28 June–2 July, Edmonton, Canada 1, 267–280. Weimer, P.J. (1998) Manipulating ruminal fermentation: a microbial ecological perspective. Journal of <strong>Animal</strong> Science 76, 3114–3122. Wells, D.N. (2003) Cloning in livestock agriculture. Reproduction Supplement 61, 131–150. Wells, D.N., Misica, P.M., Tervit, H.R. and Vivanco, W.H. (1998) Adult somatic cell nuclear transfer is used to preserve the last surviving cow of the Enderby Island cattle breed. Reproduction, Fertility and Development 10, 369–378.
120 D.N. Wells and G. Laible Wells, D.N., Laible, G., Tucker, F.C., Miller, A.L., Oliver, J.E., Xiang, T., Forsyth, J.T., Berg, M.C., Cockrem, K., L’Huillier, P.J., Tervit, H.R. and Oback, B. (2003a) Coordination between donor cell type and cell cycle stage improves nuclear cloning efficiency in cattle. Theriogenology 59, 45–59. Wells, D.N., Oback, B. and Laible, G. (2003b) Cloning livestock: time to return to embryonic cells. Trends in Biotechnology 21, 428–432. Wells, D.N., Forsyth, J.T., McMillan, V. and Oback, B. (2004) Review: the health of somatic cell cloned cattle and their offspring. Cloning Stem Cells 6, 101–110. Wheeler, M.B., Bleck, G.T. and Donovan, S.M. (2001) Transgenic alteration of sow milk to improve piglet growth and health. Reproduction 58, suppl. 313–324. Whitelaw, C.B. and Sang, H.M. (2005) Disease-resistant genetically modified animals. Revue Scientifique et Technique 24, 275–283. Willadsen, S.M. (1986) Nuclear transplantation in sheep embryos. Nature 320, 63–65. Williams, S.H., Sahota, V., Palmai-Pallag, T., Tebbutt, S.J., Walker, J. and Harris, A. (2003) Evaluation of gene targeting by homologous recombination in ovine somatic cells. Molecular Reproduction and Development 66, 115–125. Wilmut, I., Schnieke, A.E., McWhir, J., Kind, A.J. and Campbell, K.H. (1997) Viable offspring derived from fetal and adult mammalian cells. Nature 385, 810–813. Wilmut, I., Beaujean, N., De Sousa, P.A., Dinnyes, A., King, T.J., Paterson, L.A., Wells, D.N. and Young, L.E. (2002) Somatic cell nuclear transfer. Nature 419, 583–587. Womack, J.E. (2005) Advances in livestock genomics: opening the barn door. Genome Research 15, 1699–1705. Woodfield, D.R. and Easton, H.S. (2004) Advances in pasture plant breeding for animal productivity and health. New Zealand Veterinary Journal 52, 300–310. Wright, G., Carver, A., Cottom, D., Reeves, D., Scott, A., Simons, P., Wilmut, I., Garner, I. and Colman, A. (1991) High level expression of active human alpha-1-antitrypsin in the milk of transgenic sheep. Biotechnology (NY) 9, 830–834. Xue, F., Tian, X.C., Du, F., Kubota, C., Taneja, M., Dinnyes, A., Dai, Y., Levine, H., Pereira, L.V. and Yang, X. (2002) Aberrant patterns of X chromosome inactivation in bovine clones. Nature Genetics 31, 216–220. Yamada, K., Yazawa, K., Shimizu, A., Iwanaga, T., Hisashi, Y., Nuhn, M., O’Malley, P., Nobori, S., Vagefi, P.A., Patience, C., Fishman, J., Cooper, D.K., Hawley, R.J., Greenstein, J., Schuurman, H.J., Awwad, M., Sykes, M. and Sachs, D.H. (2005) Marked prolongation of porcine renal xenograft survival in baboons through the use of alpha1,3-galactosyltransferase gene-knockout donors and the cotransplantation of vascularized thymic tissue. Nature Medicine 11, 32–34. Yonai, M., Kaneyama, K., Miyashita, N., Kobayashi, S., Goto, Y., Bettpu, T. and Nagai, T. (2005) Growth, reproduction, and lactation in somatic cell cloned cow’s with short telomeres. Journal of <strong>Animal</strong> Science 88, 4097–4110. Yu, G., Chen, J., Yu, H., Liu, S., Chen, J., Xu, X., Sha, H., Zhang, X., Wu, G., Xu, S. and Cheng, G. (2006) Functional disruption of the prion protein gene in cloned goats. Journal of General Virology 87, 1019–1027. Zhou, Q., Renard, J.P., Le Friec, G., Brochard, V., Beaujean, N., Cherifi, Y., Fraichard, A. and Cozzi, J. (2003) Generation of fertile cloned rats by regulating oocyte activation. Science 302, 1179. Zuelke, K.A. (1998) Transgenic modification of cow’s milk for value-added processing. Reproduction, Fertility and Development 10, 671–676.
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Redesigning Animal Agriculture The
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Redesigning Animal Agriculture The
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Contents Contributors vii Acknowled
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Contributors Margaret Alston, Direc
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Acknowledgements “The editors gra
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Introduction to Redesigning Animal
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Introduction xiii factors). In rede
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1 Redesigning Animal Agriculture: a
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ing to the confusions and complexit
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such as environmental integrity alo
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The Systems Idea in Agriculture Sys
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These are all matters that are enti
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was intended to capture this vital
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wants and needs to be comprehensive
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people who can journey together tow
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A Systemic Perspective 17 Gunderson
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and telecommunications infrastructu
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y a move from a more intensive indu
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from 10 to 40% higher than urban Au
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in rural areas - environmental degr
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young people are leaving farms and
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Maintaining Vibrant Rural Communiti
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views in philosophical animal ethic
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case of virtues) there are specific
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animal ethics that is dominated by
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involves a detailed analysis of the
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to the idea that it is not wrong af
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not show sufficient respect to anim
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that ethical norms and ethical voca
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Ethics of Livestock Science 45 Diam
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plasticity of the genome and the po
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a highly predictable and beneficial
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immune response genes in both speci
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annotate these regions. The Herefor
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to their production source. This ca
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cially viable genetic tests. One re
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additive effects of the contributin
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understanding the relationship betw
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The Impact of Genomics 63 Mattick,
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5 Precision Animal Breeding Kishore
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effects (e.g. contemporary groups,
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- Page 94 and 95: Precision Animal Breeding 79 Jansen
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- Page 110 and 111: own maternal chromosomes. This reco
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- Page 116 and 117: lentivectors and RNA interference (
- Page 118 and 119: under development as a biopharmaceu
- Page 120 and 121: Rather than attempting to manipulat
- Page 122 and 123: strated in transgenic mice over-exp
- Page 124 and 125: Regulatory Issues The regulatory re
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- Page 130 and 131: Cloning and Transgenesis 115 Gama,
- Page 132 and 133: Cloning and Transgenesis 117 McCrea
- Page 136 and 137: 8 Transforming Livestock with Trans
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- Page 150 and 151: known influenza A virus H subtypes
- Page 152 and 153: will need to be balanced against th
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- Page 160 and 161: Introduction A key difficulty faced
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Stochastic Process-based Modelling
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10 Reef Safe Beef: Environmentally
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and most beef is produced under ext
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Mean NDVI Burdekin Mean NDVI Fitzro
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High biomass/cover Also, the increa
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Good or ‘A’ condition has the f
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Value ($) Grazier disinclination of
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Reef Safe Beef 183 Ludwig, J.A., Wi
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11 Meeting Ecological Restoration T
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evidence of only slight degradation
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Throughout the UK, there are spatia
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Quarterly flow weighted mean nitrat
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suggest that the majority of inland
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Table 11.3. Current problems in dif
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of diffuse nutrient loading on wate
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● Introducing full nutrient budge
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following scenario 1, and scenario
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Ecological Restoration Targets 203
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This chapter draws on two examples
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(Firbank, 2005; Potter and Tilzey,
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growth in the export market has com
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the use of larger amounts of agroch
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need to establish partnerships with
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Social, Environmental and Economic
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adaptation to environment genetic b
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sequencing of 10, 000 non-redundant
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transfer of nutrients and micro-org
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genotypic value, and EBV 67-68 germ
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livestock transgenics for agricultu
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quantitative genetics use 66-69 sys
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speciesism 35 sperm-mediated gene t
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water quality EU Water Framework Di
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