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Medaka: Biology, Management, and Experimental Protocols, Volume 2





Medaka: Biology, Management, and Experimental Protocols, Volume 2



Explains the advantages of using medaka in experimental designs, to facilitate research, and to stimulate progress by adopting medaka as a model animal

The second volume of Medaka: Biology, Management, and Experimental Protocols, together with the first volume, helps to familiarize scientists with the advantages of using medaka in experimental designs, to facilitate research using medaka, and to stimulate progress by adopting medaka as a model animal. The second edition expands on the first by providing additional information and current protocols that have been recently developed, or modified, to successfully raise medaka fish under stable culture conditions in the laboratory.

This volume explores new technologies developed after 2009, using the fish as a molecular tool in the fields of life science, evolution, ecology, and toxicology. The authors—noted experts in the field—provide the latest information that spans the varied research disciplines and addresses the value to science of medaka's adoption as a model animal. This important book:

  • Explores the advantages of using medaka in experimental designs, to facilitate research
  • Details the most recent protocols to successfully raise medaka fish under stable conditions in the laboratory
  • Explores the most recent developments in the field
  • Provides step-by step specifics for each protocol, allowing researchers to adapt them for use in their own work

Written for students and researchers in fish biology and aquaculture, Medaka: Biology, Management, and Experimental Protocols, Volume 2 introduces the cutting edge research in basic and applied biology using medaka as a model animal as well as descriptions of experimental methods and protocols.

Chapter 1: Medaka Management

1.0 Introduction

1.1 Targetable nuclease system for genome editing

1.1.1 Outline of medaka life-cycle in the wild

1.1.2 Preparation of normal rearing conditions of medaka in the laboratory and procedures for breeding

1.2 Standardized culture and growth curve

1.2.1 Characteristics and selection of strains

1.2.2 Management of medaka eggs and fish

1.2.3 Maintenance of breeding tanks during breeding

1.2.4 Anesthesia


Chapter 2: Medaka and Oryzias species as model organisms and the current status of medaka biological resources

2.0 Abstract

2.1 Common and unique futures of medaka and related species as model organisms

2.2 Phylogenetic relationships of medaka and the related species

2.2.1 The Javanicus Species group

2.2.2 The latipes species group

2.2.3 The celebensis species group

2.3 BAC resources of species related to Medaka

2.4 National BioResource Project Medaka (NBRP Medaka)

2.4.1 Support for visiting researchers

2.5 Acknowledgments


Chapter 3: Looking at Adult Medaka

3.1 General Morphology

3.1.1 Secondary sexual characters

3.1.2 Body color

3.2 Anatomy and Histology

3.2.1 Observations of internal organs

3.2.2 Horizontal and sagittal sections of juvenile medaka

3.2.3 Nervous system

3.2.4 Endocrine system

3.2.5 Gonads

3.2.6 Kidney

Column 3. How to make sections of a meture ovary for histological analysis


Chapter 4: Looking at Medaka Embryos

4.1 Development of Various Tissues and Organs

4.1.1 Developmental stages

4.1.2 Brain

4.1.3 Hatching gland

4.1.4 Eye development

4.1.5 Branchial arch and jaws

4.1.6 Vasculature

4.1.7 Blood cells (hematopoiesis)

4.1.8 Heart

4.1.9 Kidney

4.1.10 Thymus

4.1.11 Gut and liver

4.1.12 Bones

4.1.13 Fins

4.1.14 Gonads

4.2 Medaka EGG Envelope and Hatching Enzyme

4.2.1 Overview

4.2.2 Preparation of a hatching enzyme solution from hatching liquid

4.2.3 Simple method for preparing hatching enzyme solution

4.2.4 Solubilization of the egg envelope using hatching enzyme

4.3 Observation of Embryos (Embedding Embryos)

4.3.1 Anesthesia of Embryos using MS-222

4.3.2 Observation of embryos (mounting)

4.4 Whole Mount in situ Hybridization (see Section 4.1.8 for a similar protocol)

4.4.1 Fixation and storage

4.4.2 Rehydration, proteinase K Treatment and post-fixation at RT

4.4.3 Hybridization and washing

4.4.4 Immunoreaction and washing antibodies

4.4.5 Staining

4.5 Embedding in a Plastic Resin (Technovit 7100)

4.5.1 Agarose mounting (Figure 4.48)

4.5.2 Dehydration and infiltration (Figure 4.48)

4.5.3 Polymerization (Figure 4.48)

Column 4.3 Pigment cells (Figure 4.49)

Column 4.4 Kupffer’s vesicle


Chapter 5: Reproductive Behavior of Wild Japanese Medaka

5.1 Wild Japanese medaka

5.2 Reproductive behavior of wild medaka

5.2.1 Aggressive behavior

5.2.2 Spawning behavior

5.2.3 Egg deposition behavior

5.2.4 Egg discarding behavior

5.2.5 School and aggregation

5.3 Conclution


Chapter 6: Cryopreservation and Transplantation of Medaka Germ Cells

6.1 Introduction

6.2 Cryopreservation of medaka testes

6.2.1 Solutions

6.2.2 Materials

6.2.3 Procedures

6.3 Transplantation of thawed testicular cells into recipient larvae

6.3.1 Solutions

6.3.2 Materials

6.3.3 Procedures

Column 6.  Production of triploid medaka


Chapter 7: Genome Editing

7.0 Introduction

7 1 Outline of targeted genome editing using nucleases

7.2 Preparation of CRISPR/Cas9 genome editing tools

7.2.1 Materials

7.2.2 Procedure for production of custom-designed sgRNA

7.2.3 Procedure for production of capped RNA encoding a Cas9 nuclease

7.3 Preparation of custom-designed TALENs

7.3.1 Materials

7.3.2 Procedure for preparation of the TALEN assembly system

7.3.3 Procedure for design and construction of custom-designed TALENs

7.4 Heteroduplex mobility assay – A simple method to detect targeted genome modification

7.5 How to establish gene KO line

7.6 How to establish gene konckin strains

Column 7. Utilization of crRNA, tracrRNA, Cas9 protein

Appendix 7 Simple genomic DNA preparation by an alkaline lysis method


Chapter 8: Photo-inducible gene expression in medaka

8.0 Outline of IR-LEGO

8.1 Practical strategies of IR-LEGO in medaka study

8.2 Laser irradiation conditions and sample preparation

8.3 Caution in maintaining strains

8.4 Other use of IR-LEGO

8.5 Summary and the future


Chapter 9: Screening and Testing Methods of Endocrine Disrupting Chemicals using Medaka

9.1 Applied Toxicity Tests for Endocrine Disruptors

9.2 Detection of androgenic and anti-androgenic chemicals using medaka

9.2.1 The formation of “papillary processes” on anal fin rays as an indicative phenotype for exposure of androgenic and/or anti-androgenic chemicals

9.2.2 Candidate biomarkers for assessing the action of androgenic and anti-androgenic chemicals

9.2.3 Visualization of androgenic and anti-androgenic activity as green fluorescence with spiggin-GFP (green florescence protein) medaka


Chapter 10: Application of the seawater medaka Oryzias melastigma (McClelland) for marine ecotoxicology

10.1 Background and Development of Oryzias melastigma for Marine Ecotoxicology

10.2 Marine Medaka Developmental Staging

10.3 Standard Breeding and Rearing Conditions

10.3.1 Seawater

10.3.2 Temperature

10.3.3 Photoperiod

10.3.4 Feeding

10.3.5 Embryo collection and rearing

10.3.6 Hatching and larvae collection

10.3.7 Larvae rearing

10.3.8 Larvae feeding

10.4 Raising Marine Medaka for Experimental Use

10.4.1 Experiments using adult fish

10.4.2 Experiments using larvae

10.5 Troubleshooting

10.5.1 Mass mortality

10.5.2 Low egg production

10.5.3 Extensive algal growth

10.6 How to Obtain Marine Medaka O. melastigma

10.7 Experimental Protocols Using Marine Medaka

10.8 Immunotoxicity Assessment: the Bacteria Challenge Assays

10.8.1 SOP for adult bacterial challenge assay

10.8.2 SOP for larval bacterial challenge assay

10.8.3 Age selection for larval bacterial challenge

10.9 Fish Dissection and the Whole Adult Histoarray

10.9.1 SOP for fish dissection

10.9.2 SOP for adult medaka histoarray

10.10 Embryo Chip

10.10.1 SOP for embryo and larvae histoarray

Appendix 10 Materials for SOP for adult medaka histoarray


Chapter 11: Telomerase and Telomere Biology in Medaka

11.1 Background

11.2 SOP for quantification of telomerase activity using the Real-Time Quantitative Telomeric Repeat Amplification Protocol (RTQ-TRAP)

11.3 SOP for quantification of telomere length using Southern blotting analysis

11.4 SOP for quantification of telomere length using fluorescence in situ hybridization (q-FISH)


Chapter 12: Assessments of Medaka Skeletal Toxicity

12.1 Introduction

12.2 Methods

12.2.1 Embryonic exposures- Dioxin

12.2.2 Embryonic exposure- Dithiocarbamates

12.2.3 Whole-mount Alcian blue staining of hatchling/larvae (1)

12.2.4 Whole-mount Alizarin red staining of hatchlings/larvae

12.2.5 In vivo Alizarin complexone fluorescent staining for mineralized bone matrix

12.2.6 In vivo Calcein fluorescent staining for mineralized bone matrix

12.2.7 Confocal imaging of embryo/hatchling medaka

12.2.8 Morphological assessments

12.3 Results and discussion


Appendix: Solutions