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101 0 $aeng
135   $aur|n|---|||||
181   $ctxt
182   $cc
183   $acr
200 00$aModel organisms in spinal cord regeneration /$fedited by Catherina G. Becker and Thomas Becker
210   $aWeinheim $cWiley-VCH$dc2007
215   $a1 online resource (425 p.)
300   $aDescription based upon print version of record.
311 08$a9783527315048 
311 08$a3527315047 
320   $aIncludes bibliographical references and index.
327   $aModel Organisms in Spinal Cord Regeneration; Contents; Preface; List of Contributors; Part I Mammalian Models of CNS Regeneration; 1 The Role of Inhibitory Molecules in Limiting Axonal Regeneration in the Mammalian Spinal Cord; 1.1 Introduction; 1.1.1 CNS Neurons Have Widely Differing Phenotypes; 1.2 Difficulties in Assessing Axonal Regeneration in the Mammalian Spinal Cord; 1.2.1 Experimental Lesions and Problems of Interpretation; 1.2.2 Tracing Regenerating Axons; 1.2.2.1 Regeneration of Corticospinal Axons is Difficult to Assess
327   $a1.2.2.2 Regeneration of Ascending Dorsal Column Axons Can Be Measured Simply and Accurately1.3 Myelin Proteins as Inhibitors of Axonal Regeneration; 1.3.1 Nogo; 1.3.2 OMgp; 1.3.3 MAG; 1.3.4 The Nogo-66 Receptor, NgR1, (RTN4R), and Related Molecules; 1.3.5 Co-Receptors: LINGO-1, p75 and TROY (TAJ); 1.3.6 Signal Transduction from Myelin-Derived Inhibitory Molecules; 1.3.7 The Role of Nogo-A in Axonal Regeneration in the Spinal Cord; 1.3.7.1 Variations in the Extent of Axonal Regeneration in Different Strains of Nogo Knockout Mice
327   $a1.3.7.2 Effects of Antibodies Against Nogo on Axonal Regeneration in Spinal Cord1.3.7.3 Neuronal Nogo-A; 1.3.8 The Role of NgR1, NgR2 and Their Co-Receptors in Axonal Regeneration Within the Spinal Cord; 1.3.8.1 The Distribution of NgR1 and NgR2 Does Not Suggest a General Regeneration-Inhibitory Function in the CNS; 1.3.8.2 Knockout Mice Do Not Provide a Clear Picture of the Role of NgR1 in Regeneration; 1.3.8.3 Pharmacological Blockade of NgR1 Enhances Axonal Sprouting and Regeneration
327   $a1.3.8.4 The Pattern of Expression of LINGO-1 and p75 Does Not Suggest a General Role in Inhibiting Regeneration in Vivo1.3.8.5 LINGO-1, p75 and TROY Have Important Roles in Neurite Outgrowth in Vitro, But Their Significance for Axonal Regeneration in Vivo Has Not Yet Been Established; 1.3.9 Effects of MAG and OMgp on Axon Regeneration in the Mammalian CNS; 1.3.10 Strong Evidence That Myelin Proteins Are Not Always Effective Inhibitors of Axonal Regeneration in Vivo; 1.4 Inhibitors at the Lesion Site (Fig. 1.5); 1.4.1 CSPGs
327   $a1.4.1.2 Relationship Between the Distribution of CSPGs and Failure of Axonal Regeneration1.4.1.3 Chondroitinase ABC and Axonal Regeneration; 1.4.1.4 Scar-Reducing and Growth-Promoting Effects of Decorin; 1.4.2 Axonal Guidance Molecules Are Present in the Spinal Cord and Their Receptors Are Expressed by Specific Classes of Neuron; 1.4.2.1 Semaphorins; 1.4.2.2 Ephrins; 1.4.2.3 Slits and Netrins in the Mammalian Spinal Cord; 1.5 The Most Consistent Effects of Interfering with Inhibitory Molecules or Their Signaling Are on Raphespinal Axons
327   $a1.6 Interfering with Downstream Effectors of Inhibitory Signaling
330   $aThis handbook provides a comprehensive overview for students, clinicians and researchers planning to enter the field of neural regeneration, combining the latest knowledge with an understanding of all important model organisms in one handy volume. By covering the strengths and weaknesses as well as possible applications of different models it saves researchers both time and resources in their choice of the appropriate model organism. An equally valuable introduction for the novice planning to enter the field.
606   $aSpinal cord$xRegeneration
606   $aRegeneration (Biology)
615  0$aSpinal cord$xRegeneration.
615  0$aRegeneration (Biology)
676   $a616.8
676   $a617.482
701   $aBecker$b Catherina G$01842302
701   $aBecker$b Thomas$059807
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801  1$bMiAaPQ
801  2$bMiAaPQ
906   $aBOOK
912   $a9911019761003321
996   $aModel organisms in spinal cord regeneration$94422345
997   $aUNINA