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200 00$aBreeding major food staples$b[electronic resource] /$fedited by Manjit S. Kang and P.M. Priyadarshan
205   $a1st ed.
210   $aAmes, Iowa $cBlackwell Pub.$d2007
215   $a1 online resource (455 p.)
300   $aDescription based upon print version of record.
311   $a0-8138-1835-4 
320   $aIncludes bibliographical references and index.
327   $tCrop breeding methodologies: classic and modern /$rManjit S. Kang ... [et al.] --$tGenetic enhancement of polypoid crops using tools of classical cytogenetics and modern biotechnology /$rPrem P. Jauhar --$tBiofortification: breeding micronutrient-dense crops /$rWolfgang H. Pfeiffer, Bonnie McClafferty --$tBioinformatics and plant genomics for staple crops improvement /$rDavid Edwards --$tBreeding spring bread wheat for irrigated and rainfed production systems of the developing world /$rRavi P. Singh, Richard Trethowan --$tRice breeding for sustainable production /$rSant S. Virmani, M. Ilyas-Ahmed --$tBarley breeding for sustainable production /$rSalvatore Ceccarelli ... [et al.] --$tCorn breeding in the twenty-first century /$rG. Richard Johnson --$tSoybean breeding achievements and challenges /$rSilvia R. Cianzio --$tBreeding potato as a major staple crop /$rJohn E. Bradshaw --$tBreeding of sweetpotato /$rS. L. Tan, M. Nakatani, K. Komaki --$tCassava genetic improvement /$rHernan Ceballos ... [et al.] --$tBanana breeding /$rMichael Pillay, Leena Tripathi.
330   $aAs the world's population increases the need to produce greater quantities of major staple crops such as wheat, rice, maize, potato, cassava, soybean, sweet potato, barley, and banana in order to sufficiently feed the people of the world continues to grow. Breeding Major Food Staples covers improving yields and quality of these crops through breeding and the use of molecular biology tools such as gene transfer, genome mapping, biofortification, and bioinformatics. This book will be an important reference for anyone working in crop breeding.
606   $aFood crops$xBreeding
606   $aCrop improvement
615  0$aFood crops$xBreeding.
615  0$aCrop improvement.
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200 00$aPlasticity of the neuromuscular system$b[electronic resource]
210   $aChichester ;$aNew York $cWiley$d1988
215   $a1 online resource (286 p.)
225 1 $aCiba Foundation symposium ;$v138
300   $a"Symposium on Plasticity of the neuromuscular system held at the Ciba Foundation, London, 19-21 January 1988"--P. v.
300   $aEdited by David Evered and Julie Whelan.
300   $a"A Wiley-Interscience publication."
311   $a0-471-91902-0 
320   $aIncludes bibliographical references and indexes.
327   $aPLASTICITY OF THE NEUROMUSCULAR SYSTEM; Participants; Introduction; Physiological factors influencing the growth of skeletal muscle; Molecular basis of the phenotypic characteristics of mammalian muscle fibres; Hormonal control of myosin heavy chain genes during development of skeletal muscles; Studies of acetylcholine receptor subunit gene expression: chromatin structural changes during myogenesis; General discussion I; Mechanism of interaction between motoneurons and muscles; Development of neuromuscular connections: guidance of motoneuron axons to muscles in the embryonic chick hindlimb
327   $aIn vitro analysis of specificity during newe-muscle synaptogenesisReorganization of synaptic inputs to developing skeletal muscle fibres; Neurot rop hic interact ions in the development of spinal cord motoneurons; The role of muscle in the development and differentiation of spinal motoneurons: in vitro studies; Distinct roles of neurofilament and tubulin gene expression in axonal growth; General discussion I I; Comparison of injury and development in the neuromuscular system
327   $aModel for the study of plasticity of the human nervous system: features of residual spinal cord motor activity resulting from established post- traumatic injuryResponses of diseased muscle to electrical and mechanical intervention; Final general discussion; Index of contributors; Subject index
330   $aPresents new information on the mutual interaction of skeletal muscle fibers and motoneurons at all levels, from the physiological to the molecular. Covers genetic, physiological, and hormonal factors affecting skeletal muscle development, control of acetylcholine receptor gene expression, selection and organization of motoneurons, and remodelling and refinement of synaptic inputs under the influence of muscle-derived growth factors. Also discusses the plasticity of the neuromuscular system during regeneration after injury, and in the modification of muscle properties and movement patterns in 
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606   $aNeuroplasticity$vCongresses
606   $aNeuromuscular transmission$vCongresses
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