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200 10$aPractical genetics for aquaculture$b[electronic resource] /$fC. Greg Lutz
210   $aOxford ;$aMalden, MA $cFishing News Books$d2001
215   $a1 online resource (252 pages)
300   $aDescription based upon print version of record.
311   $a0-85238-285-5 
320   $aIncludes bibliographical references and index.
327   $aPractical Genetics for Aquaculture; Contents; Preface; Acknowledgments; 1 Overview; 1.1 Rationale; 1.2 Content; 1.3 References; 2 Gene Action I: Qualitative Traits; 2.1 Introduction; 2.2 Theory; 2.2.1 Chromosomes, loci, and alleles; 2.2.2 Dominance; 2.2.3 Formation of gametes; 2.3 Practice; 2.3.1 Ascertaining qualitative inheritance; 2.4 Illustrative Investigations And Applications; 2.4.1 Simple inheritance: a production-related trait; 2.4.2 Inheritance of color and coloration patterns; 2.4.3 Albinism; 2.5 References; 3 Gene Action II: Inheritance of Quantitative Traits; 3.1 Introduction
327   $a3.2 Theory3.2.1 Genetic effects and phenotypic variation; 3.2.2 Average effects and dominance deviations; 3.2.3 Attributing observed variation to genetic effects; 3.2.4 Utility of estimates of genetic variation: heritability; 3.3 Practice; 3.3.1 Directed mating; 3.3.2 Identifying or segregating family groups; 3.3.3 Constraints: analysis and interpretation; 3.4 Notable Investigations And Applications; 3.4.1 Interpreting and applying heritability estimates; 3.4.2 A case study: Ictalurus punctatus; 3.4.3 A case study: Macrobrachium rosenbergii; 3.4.4 A case study: Procambarus clarkii
327   $a3.4.5 A case study: Sparus aurata3.4.6 Growth, survival, conformation and dressout traits; 3.4.7 Disease resistance; 3.5 References; 4 Selection and Realized Heritability; 4.1 Introduction; 4.2 Theory; 4.2.1 Estimating and predicting heritability; 4.2.2 Applying selection; 4.2.3 Correlated responses; 4.2.4 Multi-trait approaches; 4.2.5 Complicating and constraining factors; 4.2.6 Improving selection efficiency; 4.2.7 Using family data; 4.3 Practice; 4.3.1 Implementation difficulties; 4.3.2 Identification options; 4.3.3 Lack of response to selection
327   $a4.4 Illustrative Investigations And Applications4.4.1 Evaluating available strains; 4.2.2 Domestication selection; 4.4.3 Conflicting results; 4.4.4 Correlated responses; 4.4.5 Indirect selection through production practices; 4.4.6 Indirect measurement; 4.4.7 Altering environmental tolerances; 4.4.8 Adjusting data for environmental bias; 4.4.9 Accounting for differences between sexes; 4.4.10 Genotype by environment interactions; 4.4.11 Miscellaneous results: finfish; 4.4.12 Miscellaneous results: mollusks; 4.4.13 Miscellaneous results: crustaceans; 4.5 References
327   $a5 Inbreeding, Crossbreeding and Hybridization5.1 Introduction; 5.2 Theory; 5.2.1 Dominance effects and multi-locus traits; 5.2.2 Population genetics and dominance effects; 5.2.3 Molecular genetics and dominance effects; 5.2.4 Utilizing dominance effects for genetic improvement; 5.2.5 Alternate goals in hybridization trials; 5.3 Practice; 5.3.1 Inbreeding impacts; 5.3.2 Exploiting heterosis in a production environment; 5.3.3 Maternal effects; 5.3.4 Combining strain or species attributes; 5.3.5 Monosex and sterile hybrids; 5.3.6 Combining appropriate broodstock and gametes
327   $a5.3.7 Crossbreeding or hybridization in breed formation
330   $aOver recent years there have been major advances in the application of molecular, biotechnological and genetic techniques to a wide range of aquatic species. Until now, many working in a hands-on capacity in the area of aquaculture have not known what the benefits of this work could be to them. This important new book redresses this situation, providing clear details of the available scientific information and the direct application of techniques under simple and practical situations.
606   $aAquaculture
606   $aAquatic animals$xGenetics
608   $aElectronic books.
615  0$aAquaculture.
615  0$aAquatic animals$xGenetics.
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200 00$aGynecologic cancers $ea multidisciplinary approach to diagnosis and management /$fedited by Kunle Odunsi, Tanja Pejovic
210  1$aNew York :$cDemos Medical Publishing,$d2014.
215   $a1 online resource $cillustrations (some color)
225  0$aCurrent multidisciplinary oncology
300   $aDescription based upon print version of record.
311   $a1-936287-89-7 
320   $aIncludes bibliographical references and index.
327   $aCover; Title; Copyright; Contents; Series Foreword; Preface; Contributors; Part I: Cervical Cancer and Precancerous Lesions; Chapter 1: The Biology of Human Papillomavirus and the Etiology of Female Genital Tract Cancers; Viral Structure and Genomic Organization; Viral Life Cycle; Tissue-Specific Pathogenesis; Biological Markers of Progression; Clinical Models For HPV-related Disease; References; Chapter 2: Cervical Cancer Prevention: HPV Vaccines; HPV Vaccine Development; References; Chapter 3: Cervical Cancer Prevention: Screening and Diagnostic Accuracy
327   $aCervical Cancer Screening and the Papanicolaou (PAP) SmearHigh-Risk Human Papillomavirus (HPV) Testing; The Role of Colposcopic Biopsies; Molecular Markers of HPV-Mediated Neoplastic Transformation; Improved Diagnostic Accuracy using Neoplastic Markers; Future Screening; References; Chapter 4: Management of Cervical Dysplasia and Precancerous Lesions; Colposcopic Terminology; Human Papillomavirus (HPV) Positive, Cytology Negative; HPV Negative, Ascus Cytology; HPV Positive, Ascus Cytology or LSIL or More Severe Cytology Regardless of HPV Status; CIN1 with ASCUS, ASC-H, or LSIL Cytology
327   $aCIN1 with HSIL or AGC CytologyCIN2,3; CIN2,3 in Adolescent and Young Women; AIS; Pregnancy; HIV-Positive Women; References; Chapter 5: Management of Recurrent Cervical Cancer; Background; Surveillance; Local Recurrences After Primary Surgical Management; Local Recurrences After Radiotherapy; Distant Recurrences or Nonoperable Local Recurrences; Conclusion; References; Chapter 6: Multimodality Treatment of Rare Cervical Cancer; Rare AC; GCC; Conclusion; References; Chapter 7: Principles of Radiation Therapy for Cervical Cancer; Introduction; EBRT; Brachytherapy
327   $aIndications and Treatment OutcomesReferences; Part II: Multidisciplinary Approach to Cancer of the Uterine Corpus; Chapter 8: Surgical-Pathologic Features of Uterine Cancers; Endometrial Carcinoma; Endometrial Hyperplasia; Practical Considerations on Endometrial Biopsy; References; Chapter 9: Multidisciplinary Approach to Treatment of Endometrioid Uterine Carcinoma; Surgery for Early Endometrial Cancer; Surgery for Advanced Endometrial Cancer (stage III-IV); References; Chapter 10: Principles of Radiation Therapy for Uterine Cancers; Adjuvant Radiation; Advanced Disease; Recurrent Disease
327   $aMedically Inoperable PatientsFuture Studies; Summary; References; Chapter 11: Multidisciplinary Management of Serous Carcinoma of the Endometrium; Epidemiology, Molecular Pathogenesis, and Biologic Behavior; Diagnosis, Management, and Prognosis; Emerging Therapies; Summary; References; Chapter 12: Multidisciplinary Approach to Diagnosis and Treatment of Uterine Sarcomas; Uterine Leiomyosarcoma; Endometrial Stromal Sarcomas; Other Sarcomas; Conclusions; References; Part III: Epithelial Ovarian Cancer; Chapter 13: Molecular Pathogenesis of Ovarian Cancer; Introduction
327   $aEtiology of Sporadic Epithelial Ovarian Carcinoma
330   $aOver the course of the last decade, the treatment of gynecologic cancer has evolved quite rapidly. New scientific and clinical advances have modified the standard of care and led to improved patient outcomes. At the same time, the treatment of gynecologic cancer has become increasingly complex, requiring the comprehensive review and assessment of multiple issues including genetics, radiology, surgery, molecular diagnostics, chemotherapy, and more. As a result, the harmony and open communication between these specialties facilitated by a multidisciplinary team approach are crucial in providing
410  0$aCurrent multidisciplinary oncology.
606   $aGenerative organs, Female$xDiseases$xDiagnosis
606   $aGenerative organs, Female$xDiseases$xTreatment
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