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200 10$aJuvenile sex offenders$b[electronic resource] $ea guide to evaluation and treatment for mental health professionals /$fEileen P. Ryan, John A. Hunter, Daniel C. Murrie
210   $aOxford ;$aNew York $cOxford University Press$dc2012
215   $a1 online resource (265 p.)
300   $aDescription based upon print version of record.
311   $a0-19-539330-9 
320   $aIncludes bibliographical references and index.
327   $aCover; Contents; Preface; 1. Changing Perceptions of Juvenile Sexual Offending in Society and the Legal System; 2. Placing Sexual Behavior Problems in Context: What Is "Normal" Sexual Behavior Among Juveniles?; 3. Patterns of Sexual Offending in Juveniles and Risk Factors; 4. Juvenile Sexual Offending and Psychopathology; 5. Forensic Evaluation Versus Clinical Evaluation: How Do They Differ?; 6. Interviewing, Evaluation, and Risk Assessment of Sexually Offending Youth; 7. Assessment Instruments for Juveniles Who Sexually Offend; 8. Management and Treatment Methods
327   $a9. Biological and Pharmacologic Treatment of Sexually Aberrant BehaviorIndex; A; B; C; D; E; F; G; H; I; J; K; L; M; N; O; P; R; S; T; U; V; W; Y
330   $aA significant percentage of sexual abuse in the United States is committed by juveniles, and mental health professionals increasingly receive requests to evaluate these juveniles. With an emphasis on practicality and utility, Juvenile Sex Offenders fills a gap in the current literature by providing a thoughtful, thorough approach to evaluating and treating youth who have committed sexual offenses or have engaged in sexually abusive behavior. Serving as a functional guide, this text expertly prepares clinicians for the challenging task of evaluating juveniles, picking up where traditional clini
606   $aTeenage sex offenders
606   $aTeenage sex offenders$xPsychology
606   $aTeenage sex offenders$xEvaluation
606   $aTeenage sex offenders$xRehabilitation
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200 00$aEffectors in plant-microbe interactions /$fedited by Francis Martin, Sophien Kamoun
210  1$aAmes, Iowa ;$aChichester, West Sussex, England :$cWiley-Blackwell,$d2012.
210  4$dİ2012
215   $a1 online resource (875 p.)
300   $aDescription based upon print version of record.
311   $a0-470-95822-7 
320   $aIncludes bibliographical references at the end of each chapters and index.
327   $aCover; Title Page; Copyright; Contributors; Foreword; References; Preface; Section 1: Plant Immune Response Pathways; 1: Innate Immunity: Pattern Recognition in Plants; 1.1 Pattern Recognition through MAMPs (Microbe-Associated Molecular Patterns); 1.2 Some Classical MAMP-Receptor Pairs; 1.3 Physiological Responses and Signaling Events Induced by Elicitors; 1.4 The Biological Relevance of PTI; References; 2: Microbial Effectors and Their Role in Plant Defense Suppression; 2.1 The Gene-for-Gene Concept and the Emergence of Effectors; 2.2 Diversity of Effectors; 2.3 Effector Targets
327   $a2.4 Models to Explain Recognition of Effectors by R-gene Products2.5 Synthesis and Discussion; References; Section 2: Genome-Wide Analyses of Microbial Effectors and Effector Evolution; 3: Comparative Genomics and Evolution of Bacterial Type III Effectors; 3.1 Introduction; 3.2 Effector Structure; 3.3 Effector Acquisition; 3.4 Effector Change and Loss; 3.5 Effector Repertoire Evolution; 3.6 Future Prospects; References; 4: The Effectors of Smut Fungi; 4.1 Introduction; 4.2 Plant Responses to U. maydis; 4.3 The effectors of U. maydis; 4.4 Regulation of U. maydis Effector Genes
327   $a4.5 Stage and Organ Specificity of U. maydis Effectors4.6 The Effectors of Smut Fungi Related to U. maydis; 4.7 Outlook; 4.8 Acknowledgements; References; 5: Evolutionary and Functional Dynamics of Oomycete Effector Genes; 5.1 Introduction; 5.2 Oomycete Effectors Target Different Sites in Host Plant Tissue; 5.3 Oomycete Effectors have a Modular Architecture; 5.4 Oomycete Effector Genes Show Distinct Patterns of Expression During Plant Colonization; 5.5 Effector Genes Populate Plastic Regions of Oomycete Genomes; 5.6 Evolution of P. infestans Genome and Effector Genes Following Host Jumps
327   $a5.7 Several Oomycete Effectors Suppress Plant Immunity5.8 Effectors Are Useful in Breeding and Deployment of Disease Resistance; 5.9 Outlook; References; Section 3: Microbial Effector Functions: Virulence and Avirulence; 6: Suppression and Activation of the Plant Immune System by Pseudomonas syringae Effectors AvrPto and AvrPtoB; 6.1 Pseudomonas syringae pv. tomato Interactions with Plants; 6.2 AvrPto and AvrPtoB Have Both Redundant and Unique Activities in Plants; 6.3 AvrPto is a Small Effector with Two PTI-Suppressing Domains Both of Which Can Activate ETI in Certain Solanaceous Plants
327   $a6.4 AvrPtoB is a Large Modular Effector with Domains that Suppress PTI and ETI but Which Also Activate ETI in Certain Tomato Genotypes6.5 AvrPtoB Virulence Activity; 6.6 An Evolutionary Model of the Tomato-Pseudomonas Interaction; 6.7 Summary; 6.8 Acknowledgments; References; 7: Rust Effectors; 7.1 General Introduction to Rusts; 7.2 Identification of Effectors in Bean Rust and Flax Rust as Haustorial Secreted Proteins; 7.3 Genome-Wide Effector Prediction in the Poplar Rust and Wheat Stem Rust Genomes; 7.4 Comparative Genomics of Effectors; 7.5 Function of Rust Effectors; 7.6 Conclusions
327   $aReferences
330   $aPlants and microbes interact in a complex relationship that can have both harmful and beneficial impacts on both plant and microbial communities. Effectors, secreted microbial molecules that alter plant processes and facilitate colonization, are central to understanding the complicated interplay between plants and microbes.  Effectors in Plant-Microbe Interactions unlocks the molecular basis of this important class of microbial molecules and describes their diverse and complex interactions with host plants. Effectors in Plant Microbe Interactions is divided into five sections t
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615  0$aPlant-microbe relationships$xMolecular aspects.
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